WorldWideScience

Sample records for foerstudie foer biobaserat

  1. Pilot study of Bio-jet A-1 fuel production for Stockholm-Arlanda Airport; Foerstudie foer biobaserat flygbraensle foer Stockholm-Arlanda Flygplats

    Energy Technology Data Exchange (ETDEWEB)

    Ekbom, Tomas; Hjerpe, Carl; Hagstroem, Martin; Hermann, Fredrik

    2009-11-15

    The air traffic industry faces big changes in the near future, one being how to reduce their share of the CO{sub 2}-emissions. Therefore LFV set the framework to investigate the pre-conditions for a biorefinery plant in conjunction with Arlanda Airport. The biorefinery is based on advanced gasification technology and Fischer-Tropsch synthesis to a bio-jet fuel product. Locations at Brista and Igelsta were studied for two different process plant configurations, with each 50 kton bio-jet fuel annual capacity, or 290 and 610 MW{sub th} biomass input, respectively. The biomass-to-fuels efficiency was 46 % and total net efficiency was 79 %. The capital investment was calculated as 5.1 and 7.4 billion SEK, and production costs of 8300 SEK (812 EUR/1183 USD) and 5000 SEK (490 EUR/714 USD) per cubic meter bio-jet, respectively, whereas the Jet A-1 fuel today costs some 6000 SEK, at crude oil price of USD 67 per barrel

  2. Preliminary study on gas-driven vehicles; Foerstudie om teknik foer gasdrivna fordon

    Energy Technology Data Exchange (ETDEWEB)

    Egebaeck, K.E. [Autoemission KE E Consultant AB, Nykoeping (Sweden); Ryden, C. [Stockholm MFO AB (Sweden)

    2001-10-01

    The use of alternative fuels for motor vehicles has been a subject of interest for a long time and alternative fuels have also been subject to extensive investigations. Studies and investigations of the alternatives have resulted in many positive and useful results in that both advantages and disadvantages of different fuels have been evaluated. An important prerequisite for an introduction of new fuels for motor vehicles is that engines and vehicles have been developed and adapted to the new fuel. In most of the cases there are specific differences in composition and physical function between alternative fuels and the commercial fuels, petrol and diesel oil. There is therefore a need for both engines and the exhaust control systems to be developed in order to take the full advantages of the positive property of the new fuel. The aim of the project was to study the technical development of natural gas and biogas fuelled engines and vehicles which had taken place during the last few years, from both a national and an international perspective. The method used has been to visit, among others, various car manufacturers in order to ascertain the state of the art concerning the development of gaseous-fuelled vehicles. In addition an extensive literature study has been carried out aiming at a widening of the knowledge about the development of natural gas fuelled vehicles in especially in USA, Europe and Japan. The results are presented in this report, which hopefully gives a broad picture of the state of the art of current gaseous-fuelled vehicles and information concerning the technology used for the development.

  3. Feasibility study - Lowered bed temperature in Fluidised Bed boilers for waste; Foerstudie - Saenkt baeddtemperatur i FB-pannor foer avfallsfoerbraenning

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    Niklasson, Fredrik

    2009-01-15

    Waste incineration generally serves two purposes; 1) dispose of waste and 2) generation of heat and power. In the process of power production from waste fuels, the steam temperatures in super heaters are generally limited by the severe fouling and corrosion that occurs at elevated material temperatures, caused by high concentrations of alkali metals and chloride in the flue gas and fly ash. The overall aim of a continuation of present project is to determine if a reduced temperature of the bed zone in a fluidized bed waste incinerator reduces the amount of alkali chlorides in the flue gas. If so, a reduced bed temperature might enable increased steam temperature in super heaters, or, at unchanged steam temperature, improve the lifespan of the super heaters. The results from the project are of interest for plant owners wishing to improve performance of existing plants. The results may also be used to modify the design of future plants by boiler manufacturers. The aim of present pre-study was to determine how far the bed temperature can be reduced in a waste fired fluidized bed boiler in Boraas while maintaining a stable operation with sufficient combustion temperature in the freeboard to fulfil the directives of waste incineration. A continuation of the project will be based on the results from present study. The work is based on experiments at the test boiler. During the present study, no other measurements were performed apart from some sampling of bed material and ashes at different modes of operation. The experiments show that it is possible to alter the air and recycled flue gas in such a manner that the bed temperature is reduced from about 870 deg C to 700 deg C at 100% load and normal fuel mixture, while fulfilling the directive of 850 deg C at 2 seconds. Within normal variations of the fuel properties, however, the bed temperature increases to somewhat above 700 deg C if the fuel turns dry, while it falls below 650 deg C when the fuel turns wet. With constant O{sub 2} concentration in the flue gas, the emissions of CO were unaffected by changed ratios of air and recycled flue gas to reduce the bed temperature. However, the emissions of NO{sub x} tended to increase due to raised temperatures of about 40 deg C at the top of the furnace at maximum load. When increasing the amount of recycled flue gas to the bed, the concentration of oxygen is reduced and its implications upon the chemistry in the bed and possible accumulation of unburned fuel have not been investigated due to the short experimental period. Chemical analysis of sand from the bed showed that the concentration of chlorides in the sand increased more that 4 times after 30 hours of operation at reduced bed temperatures. This finding indicates that the chemical balance in the bed is significantly altered when the temperature is reduced. To determine the consequences for the operation of the boiler, further experiments and measurements that are more extensive are necessary. No measurable changes of alkali contents in the sand were observed.

  4. Demonstration program for small-scale straw fuel systems. Pre-study for the Swedish Energy Agency; Demonstrationsprogram foer smaaskaliga straabraenslesystem. Foerstudie foer Energimyndigheten

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    Paulrud, Susanne (Swedish Environmental Research Institute Ltd., Stockholm (Sweden)); Wahlberg, Cecilia (Hushaallningssaellskapet, Stockholm (Sweden)); Arkeloev, Olof (LRF Konsult, Stockholm (Sweden))

    2008-02-15

    Energy crops from arable land is still an almost entirely untapped potential as a fuel for heating. Canary grass, straw and hemp could eventually form an important part of the raw-material from agriculture. For this production to increase and become a viable alternative to conventional farming it is required, however, that the whole production chain from cultivation to end-use is developed. The aim of this pilot study has been to make suggestions for the design of a Demonstration project of small-scale fuel straw-crops. The programme's vision is to within 6 years build up a number of demonstration plants for small-scale briquetting/pelletizing of straw fuels in different parts of the country. In addition, potential producers of raw materials and other actors in the programme will be made aware what opportunities and conditions there are to process the agro-fuels in small-scale production facilities. The overall objective of the programme is to increase knowledge about how straw fuels and/or residues can be used as raw material in small-scale production of briquettes/pellets, and enhance the understanding of how producers take part in different business models. In the short term, the objective of the programme to build up a network of pellets and briquettes producing demonstration. Within the activities of the programme it is proposed that demonstration is built up of at least 7 different places in the country. This is in order to be able to gain experience on the basis of local and regional conditions. Demonstration refers both to demonstrate the entire chain with existing proven technology, and to improve technologies, reduce costs and make the production and user experience. On the other hand, the intention may be to test the new technology. Demonstration refers to smaller installations and with a production capacity of plants should vary from about 100 to 500 kg/h produced fuel. Operations are limited to the supply of raw material, cultivation and harvest of which is not included in the programme. The programme includes research and development. Funding for the programme is proposed to a maximum of 56 million kronor during a 6-year period

  5. Technique for compressed bundles for harvest of whole straw willow. Pilot study; Teknik foer komprimerande helskottsskoerd av salix i buntform. Foerstudie

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    Eriksson, Hans (Vaesteraeng Lantbruk AB (Sweden))

    2008-06-15

    The pilot study was initiated by the need of a new technology that has been raised from the problem, and by the specifications of requirements, that has been described from the project 'Salix Maelardalen'. The need has been crystallized by the energy company Maelarenergi AB, Vaesteraas, in their handling of bio fuel, among many other fuels. The company Maelarenergi AB can see a potential in the use of Salix of a considerable volume. There is a special need by the means of the big volume handling of Salix, since the Salix raw material must be able to be delivered under a longer period or for intermediate storage. 8-9 months could be an adequate storage period. The possibility for intermediate storage could do the flow of fuel raw material to the combined power and heating plant is harmonized to the special requirements of fuel. The storage capability in chipped raw Salix chips is very short and that's why chipped Salix are not going to be a sustainable system combined with the handle of big volume together with portioned inflow to the plant. The production of Salix chips in a system of direct chipping is a very delicate system. The ground conditions with frozen and dry grounds are important for a system with heavy machines. The last years have not given such climate conditions. A big problem with practicability has been coming up. The number of days for contract work during the harvest period without interruption, because of hard conditions, has been decreased to the level that the capacity very considerably falls below what is economical defensible. The needs of larger areas for harvesting during fewer days under good conditions counteract each other. In the 'hot flow' during the harvest when the harvest machine will work with escort vehicles/container transports in the field can be impossible to realize because of for example the breakdown of the soil structure. The organization around 'hot flow system' is a very heavy programme and demand good and secure weather conditions. Heavy rain or snow is a big problem during harvest season. The proposal from Maelarenergi AB has been carefully analysed and they think this is a solution with high potential. It should mean lower costs than in compare to using a mobile fossil driven cutter. Chipped Salix on farmland is a 'hot' flowchart, with big demand on among other things the logistic in and around the system. The possibility to direct consumption with chipped Salix has a limited storage capability. Chipped Salix is not possible to transport long distance, maximum 30 - 35 km, if it should keep the capacity to pay the procedure. The costs of transport will be too big in comparison to production value. Another advantage is the costs for intermediate storage. For example the area of the intermediate storage station, can be reduced when smaller volumes with higher density are handled. An overall analysis over the project 'Salix Maelardalen' point out very obviously that an alternative to the today direct chipping system is necessary and that development work around harvest with compressing bundle technique is very important. Big positive effects on environment can also be shown. Questions around 'compressed whole straw harvest of Willow' can be answered by a pilot study. There are o lot of aspects to pay attention to and 'smooth the road' to the growing production of Salix and it's rising as fuel raw material. The pilot study is going to penetrate the development of new harvest technique and earlier systems for 'compressed whole shoot harvest' of Salix. Needs and potential of new technique will be analysed and the study will also give suggestions to a new specification of requirements. The study will also suggest future developing projects. One of the purposes with the pilot project is that it could be a platform for future technical and practical research and even to be as a base for coming application in the field of innovative machinery development. The pilot study expects to answer 'which measures that must be done' to use the advantages in a new harvest system. Consumers of Salix raw material and Salix entrepreneurs are the target groups for this pilot study. To handle the Salix raw material during a longer period than today the water content for further storage must reach a level that's acceptable for storage. Developer of machinery and machinery system is a target group which has to follow the specifications of requirements. People working with research in the field of what new techniques can come up with in comparison to the techniques of today is of course also one important target group. New calculations and analyses must be done on the whole chain that includes produce of fuel energy from energy forest. The realization of the project is going to be as a pilot study based on the project 'Salix Maelardalen'. The value of a production of a new type of harvest technique for Salix is very great.

  6. Risk based methods for optimised operation of power stations - a pilot study; Riskbaserade metoder foer optimerad drift av kraftvaermeverk - en foerstudie

    Energy Technology Data Exchange (ETDEWEB)

    Gunnars, Jens; Gustavsson, Fredrik [Det Norske Veritas AB, Stockholm (Sweden)

    2002-03-01

    Methods for risk based planning and management of maintenance and operation of mechanical components in power stations have been studied. Risk based methods may be utilised for analysis of the risk level with reference to both safety and economy of the plant. The methods can be an important tool for planning and optimisation of the annual investment in different types of maintenance actions, with the purpose of improving long term profitability. The risk based planning can include: selection of components, inspection intervals, coverage, planning of time for replacement/repair of components, and selection of operation conditions. The first part of the report is a general survey and description of risk based methods for analyse of mechanical components. Some problems specific to power stations are discussed. Application of quantitative RBI is illustrated for the water system in steam boiler number 5 at Aabyverket. The possibilities to decrease inspection costs or increase availability also for power stations is obvious, and is expected to result in competitive advantages. The use and understanding of quantitative reliability methods are a necessary and essential part of any RBI assessment.

  7. Sensors for control and minimization of emissions from small scale bio fuel combustion - preliminary study; Sensorer foer styrning och minimering av emissioner fraan smaaskalig biobraenslefoerbraenning - foerstudie

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    Eskilsson, David; Tullin, Claes [Swedish National Testing and Research Inst., Boraas (Sweden)

    2002-02-01

    The objectives with this study was to survey various types of sensors for carbon monoxide and hydrocarbons that could be used for development of operation and control strategies in small-scale biomass combustion, and to identify and purchase a suitable sensor for testing of its performance in comparison with conventional gas analysers in tests with a small-scale biomass combustion device. In the initial phase of the project, a comprehensive literature study was carried out. In addition, contacts were taken with research groups, manufacturers, users and retailers of sensor equipment. The development of sensors for exhaust gas measurements is intensive, although it is often directed towards measurements and engine control in the enormous market of the automotive industry. However, sensors developed for engines can for instance also be used for flue gas measurements in small-scale biomass combustion. The large market will make sure that a commercial sensor will have a competitive price as it will be produced in large series. Many of the commercial sensors on the market is based on semi-conducting tin oxide (SnO{sub 2})- In recent years, new sensors based on other semi-conducting materials have been developed. One of these sensors is based on gallium oxide (Ga{sub 2}O{sub 3}) which consequently can be used to monitor the concentration of unburnt (carbon monoxide and hydrocarbons) in the flue gas. This sensor fulfils many of the requirements on a sensor to be used in small-scale biomass combustion. These requirements include: The surface of the sensor can be heated to 900 deg C; The sensor signal is nonsensitive to variations in moisture content; A stable signal is obtained also in absence of oxygen; A relatively low price. In the trials at SP, the signal from a Ga{sub 2}O{sub 3}-sensor and a oxygen sensor was measured as they were exposed to flue gases from a pellet burner. Simultaneously, the gas concentrations were monitored using conventional gas analysers. The air supply was varied to obtain different levels of carbon monoxide, hydrocarbons and oxygen. By decreasing the air supply to low enough values, the flue gases from low efficiency wood combustion could be simulated. The results show that the signal from the Ga{sub 2}O{sub 3}-sensor closely follows the concentration of unburnt (mainly carbon monoxide) in the flue gases. There is a linear correlation between the sensor signal and the measured CO concentration, although the sensor signal is slightly dependent on the oxygen concentration in the flue gases. The sensor gives a clear and fast response as the combustion conditions change from complete combustion with low CO emissions to incomplete combustion with high CO concentrations. Consequently, there are large possibilities to use the Ga{sub 2}O{sub 3} sensor in a control system together with an oxygen sensor in order to control the optimal excess air ratio in a small-scale combustion device. This control system will be able to compensate for changes in combustion conditions and fuel quality at the same time as the emissions are minimised at a still high combustion efficiency. However, further work are necessary to study the sensor response at different concentrations of carbon monoxide, hydrocarbons and oxygen. In addition, studies of the long term stability are required.

  8. Comparison between existing recycle processes for composite materials - a study regarding microwave pyrolysis; Jaemfoerelse av befintliga aatervinningsprocesser foer kompositmaterial - en foerstudie gaellande mikrovaagspyrolys

    Energy Technology Data Exchange (ETDEWEB)

    Pettersson, Carina; Andreasson, Sune (Stena Metall AB (Sweden)); Skrifvars, Mikael; Aakesson, Dan (Hoegskolan i Boraas (Sweden))

    2009-07-01

    The purpose of this project has been to investigate the possibilities to use recycled composites as energy recycling based on microwave pyrolysis and also to evaluate the microwave pyrolysis technique for the recycling of combined materials, such as composites. Composites can be recycled by mechanically grinding into a material which can be used as a filler in virgin composites. However, several earlier studies have showed that this will give a material with inferior quality, and there is presently no economical viable use of the recycled material. Composites can be incinerated together with other waste materials but the high content of inorganic material results in a material with low energy content. Composites typically contain 40-50 weight-% glass fibres, and in some cases be as high as 60-75 weight-%. Consequently, composites often end up at landfill sites and processes to recycle composites do not exit. Large volumes of composites are produced in Europe and these products will largely end up on landfill site after end-of-life as systems to recycle these products do not exist. These composites represent a large amount of energy which presently is not utilized. Processes and materials to produce composites are being developed continuously. This in addition to the need for light weight materials in the aerospace, windmills and automotive industry spurs the use of composites. It is therefore of outmost importance to develop processes to recycle of composites. Recycling of composites by the use of microwave pyrolysis has been studied in this project. Microwave pyrolysis is a process where the material is heated by microwave in an inert environment. The project has been focusing on the recycling of glass fibre reinforced composites as this type of composite makes the large volume of composites. Pyrolysis of glass fibre reinforce composites will result in two fractions - one oil fraction and one inorganic fraction. The oil fraction was analyzed with calorimetry and by GC-MS. The oil largely consists of aromatic compounds, such as styrene and toluene. The energy content of the oil is relatively high and is comparable to petroleum based oils. The oil can be used to generate energy or as a starting material to produce synthesis gas. This will imply a new alternative and/or complement in order to use the oil in small refineries. After the pyrolysis, an inorganic fraction will also be formed, consisting of recycled glass fibres. A possible use of these fibres is to use them to produce new composites. Composites were produced by and evaluated thermo mechanically. The mechanical properties of these composites were relatively low. The low mechanical properties are probably caused by a low adhesion between the fibres and the matrix. The surface properties were therefore studied by TGA and scanning electron microscopy. The fibres were coated with particles which were not pyrolysed. This is probably the fibre sizing which was partly degraded after the pyrolysis

  9. A unit for environmentally adapted technology for transportation of passengers and goods. Individual personal transportation, electric and hybrid vehicles - a preliminary study; Enhet foer miljoeanpassad teknik foer person- och godstransporter - Individuell persontrafik, el- och hybridfordon - Foerstudie

    Energy Technology Data Exchange (ETDEWEB)

    Bauner, D.; Lumsden, K. [Chalmers Univ. of Technology, Goeteborg (Sweden). Dept. of Transportation and Logistics

    1996-02-01

    A unit for environmentally adapted transport at Chalmers Univ of Technology offers the possibility to enhance competence, to bestow decision makers with information and permits working with the processes needed. Regarding electric propulsion road vehicles, such a unit can coordinate the experiences from the Swedish projects. Further, it may maintain a secretariat and a managerial function to the database which will provide information to research councils, transport administrations and other government organizations, cities etc. The unit may also coordinate and submit research results and, in a long-term perspective, establish and administer field and laboratory vehicle testing. The unit may also function as a link between the vehicle industry and environmental organizations. The initial activities should include the establishment of a national database for electric vehicles and a full-time research post. The present study deals with individual personal transportation. Corresponding studies should be carried out for other areas in order to form a consistent profile for the unit. 38 refs

  10. Stuff That Happened To Me: Visuelle Verfahren in Jonathan Safran Foers Extremely Loud & Incredibly Close (2005

    Directory of Open Access Journals (Sweden)

    Jakob, Wanda

    2005-01-01

    Full Text Available The essay is based on the manuscript for the presentation I gave at the symposium. It describes visual strategies in Jonathan Safran Foer's Extremely Loud & Incredibly Close (2005, connecting them with their tradition in literature, showing the selfreflexivity of the text and providing a, if not the only, useful approach to analyzing them: as visualizations of trauma and at the same time as attempts to overcome the trauma by binding it in a narrative.

  11. Prestudy: Anaerobic digestion with primary hydrolysis from increased methane production in waste water treatment plants band biogas plants; Foerstudie: Roetning med inledande hydrolyssteg foer utoekad metanutvinning paa avloppsreningsverk och biogasanlaeggningar

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    Persson, Emelie; Ossiansson, Elin (BioMil AB, Lund (Sweden)); Carlsson, My; Uldal, Martina; Olsson, Lars-Erik (AnoxKaldnes AB, Lund (Sweden))

    2010-04-15

    Anaerobic degradation of organic matter is a multi-step process through the action of various groups of microorganisms whose optimum conditions can differ considerably regarding e.g. nutrient and pH demand, sensitivity for changes and patterns for growth and nutrient uptake. One way of optimizing the anaerobic digestion process, and thereby increase the biogas production and the reduction of organic matter, can be to physically divide the anaerobic digestion process in two steps consisting of an initial hydrolysis and acid production step followed by a methane production step in an anaerobic digester. One problem with the biogas processes of today is that not all organic matter that is added to the process becomes available for conversion into biogas. This is particularly evident in digestion of waste water treatment sludge where almost half of the organic matter added remains after anaerobic digestion. More efficient utilization of substrate in biogas plants is an important element to increase the profitability of biogas production. The possibility to use different pre-treatment methods is being discussed to increase the degree of conversion of organic matter into biogas in the digester. Pre-treatment methods are often energy as well as cost demanding and can require the addition of chemicals. To use the microbiological steps in the biogas process more efficiently by adding an initial hydrolysis step is a method that does not require the usage of chemicals or increased energy consumption. This pre-study is based on literature studies related to anaerobic digestion with initial biological hydrolysis and collected knowledge from full-scale plants, universities and suppliers of equipment. Nearly 70 published scientific articles relevant to the subject have been found in the performed literature searches. The articles have been subdivided according to the purpose of each article. A large part of the articles have concerned modelling of anaerobic digestion why a separate section of the report has been devoted to this. The literature study shows that the majority of the experiments with an initial hydrolysis step that have been performed with substrates such as waste water treatment sludge, organic waste or dairy manure have given advantages in the form of for example higher methane yield, increased degree of degradation and/or increased treatment capacity. In addition other advantages have been achieved by the method, for example elimination of foaming in digester, more stable process and pathogen inactivation. It is difficult to draw any general conclusions about optimal pH for hydrolysis. Optimal pH most likely differs, mainly in relation to the composition and characteristics of the substrate. It seems that pH-control, in most cases, is not necessary to achieve a satisfactorily process, which is important considering the costs for addition of acid or base in a full scale application. Concerning process temperature an increase up to 55 deg C have in most studies resulted in a higher hydrolysis rate. Optimal retention time and organic load for optimization of the hydrolysis process depends on the composition and characteristics of the substrate. For each combination of process parameters there is an optimum that changes if any of the process conditions does change. For waste water treatment sludge generally 4-7 days retention time seems to be appropriate and for dairy manure 2-4 days have been used successfully in studied scientific papers. Simulation of hydrolysis can show a clear optimum for which retention time gives the highest hydrolysis rate. This can be used to design a multi-step process so that the hydrolysis rate, and thus the biogas production, can be optimized. Modelling experiments also show that multistep digestion processes can be simulated with a good correspondence to data. Hydrogen gas can be produced in an initial hydrolysis step which gives the opportunity to produce bio-hythane but can also be a safety risk if the plant is not designed for this. No safety problems with hydrogen formation have however been observed at identified full scale plants. Anaerobic digestion with an initial biological hydrolysis step should be possible to implement at a digestion plant with relatively simple means by mainly the addition of one stirred and insulated tank. The importance and effect of an initial separate hydrolyse step is however dependent on the characteristics of the substrate and other process parameters of the plant such as organic load and actual retention time. The added value achieved by addition of an extra step in the digestion process has to be revised compared to the costs and the additional work required for process monitoring and maintenance. Six full scale plants in Sweden (3), Germany (1) and USA (2) that are in operation, or have done experiments, with separate biological hydrolysis step have been identified.

  12. Nordel - Availability statistics for thermal power plants 1995. (Denmark, Finland, Sweden); Nordel - Tillgaenglighetsstatistik foer vaermekraft 1995

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1996-12-31

    The power companies of Denmark, Finland and Sweden have agreed on almost identical procedures for the recording and analysing of data describing the availability of power producing units over a certain capacity. Since 1975 the data for all three countries have been summarized and published in a joint report. The purpose of this report is to present some basic information about the operation of power producing units in the three countries. Referring to the report, companies or bodies will be able to exchange more detailed information with other companies or bodies in any of the countries. The report includes power producing units using fossil fuels, nuclear power plants and gas turbines. The information is presented separately for each country with a joint NORDEL statistics for units using fossil fuels, arranged in separate groups according to the type of fossil fuel which is used. The grouping of power producing units into classes of capacity has been made in accordance with the classification adopted by UNIPEDE/WEC. The definitions in NORDEL`s `Tillgaenglighetsbegrepp foer vaermekraft` (`The Concept of Availability for Thermal Power`), September 1977, are used in this report. The basic data for the availability are in accordance with the recommendations of UNIPEDE/WEC. (author).

  13. Tudo se ilumina à luz do passado: memória cultural judaica na obra de Jonathan Safran Foer

    Directory of Open Access Journals (Sweden)

    Mail Wanderson de Sousa Freitas

    2011-03-01

    Full Text Available A década de 1990 proporcionou uma visão multiangular da Segunda Guerra Mundial. O cinema trouxe cenas fortes e denunciou para as platéias a maior amostra de barbárie já cometida pelo furor do homem. O massacre sofrido pelos  judeus tornou-­se fato conhecido quase universalmente,embora muitas pessoas não entendam direito as motivações de tal crime, nem saibam realmente quem são os judeus. O presente artigo tem por intuito esclarecer as peculiaridades do povo judeu, refletindo acerca da influência do período pós Segunda Guerra para a construção da identidade cultural judaica atual. Após analisar os elementos nos quais se fundamenta a identidade judaica, será feita uma leitura da importância da memória cultural judaica para a construção do personagem central do romance Tudo se ilumina, de Jonathan Safran Foer.

  14. Basic factors for efficient cooling ability projects; Grundlaeggande faktorer foer lyckosamma avkylningsprojekt

    Energy Technology Data Exchange (ETDEWEB)

    Walletun, Haakan [ZW Energiteknik AB, Nykoeping (Sweden); Johnsson, John [Profu AB, Goeteborg (Sweden)

    2005-07-01

    relation, but a consequence of the role different people have in the company. Technical people like to discuss technical questions and marketing people prefer question of sale and marketing. If the roles are crossed over as it happens often in the discussions about function and changes of substations, involved people can feel discomfort. In this report, a number of suggestions are given in order to facilitate projects dealing with cooling ability of substations. The following examples should be mentioned here: Divide the work to be done in a number of smaller, well-defined subprojects. Present the project as a project foer system improvement. This increases the understanding of the fact that the whole district heating system is concerned. Elaborate working models regarding handling of contacts to customers. Especially two questions are of importance: Who and how to answer customer's questions and how to discuss eventual co-financing of measures to be taken. The district heating company must acquire the knowledge of which problems exist in their system. F. i., sometimes an increased cooling of large substations should be preferred, another time a number of small substations for detached houses is more important being improved.

  15. Methodology - evaluation of strategies -and the system for taking care of spent nuclear fuel; Metodval - utvaerdering av strategier och system foer att ta hand om anvaent kaernbraensle

    Energy Technology Data Exchange (ETDEWEB)

    2010-10-15

    This report deals with the question of how the Swedish spent nuclear fuel is to be disposed of. What are the requirements? What are the alternatives? In the main chapter of the report, an evaluation is made of the KBS-3 method compared with other strategies and systems for final disposal of spent nuclear fuel. An appendix to the report presents in general terms how the KBS-3 method has developed from the end of the 1970s up to today. The report is one of a number of supporting documents for SKB's applications for construction and operation of the final repository for spent nuclear fuel. In parallel with and as a basis for the present report, SKB has prepared the reports 'Principer, strategier och system foer slutligt omhaendertagande av anvaent kaernbraensle' ('Principles, strategies and systems for final disposal of spent nuclear fuel') /Grundfelt 2010a/, 'Jaemfoerelse mellan KBS-3-metoden och deponering i djupa borrhaal foer slutlig foervaring av anvaent kaernbraensle' ('Comparison between the KBS-3 method and deposition in deep boreholes for final disposal of spent nuclear fuel') /Grundfelt 2010b/ and 'Utvecklingen av KBS-3-metoden. Genomgaang av forskningsprogram, saekerhetsanalyser, myndighetsgranskningar samt SKB:s internationella forskningssamarbete' ('Development of the KBS-3 method. Review of research programmes, safety assessments, regulatory reviews and SKB's international research cooperation') /SKB 2010a/. The reports are in Swedish, but contain summaries in English. The first report is an update of the comprehensive account of alternative methods presented by SKB in 2000. The second report presents a comparison between the KBS-3 method and the Deep Boreholes concept, plus a status report on research and development in the area of Deep Boreholes. The last report describes how the KBS-3 method has been developed from the end of the 1970s up to today. It further describes how the

  16. Preliminary study natural gas; Foerstudie naturgas

    Energy Technology Data Exchange (ETDEWEB)

    Lamnevik, Stefan; Carlsson, Tomas; Dyhr, Kurt

    2000-09-01

    FOA has carried out a preliminary study on natural gas for the Swedish National Energy Administration. To use natural gas as an energy source could be one step towards use of carbon-free fuels such as hydrogen. Natural gas, consisting mainly of methane, is the hydrocarbon with the highest hydrogen content. It has a high heat of combustion, 55 MJ/kg, and a low emission of carbon dioxide, 2.8 kg/kg fuel or 0.051 kg/MJ. The carbon dioxide emission per energy unit is twice as high for coal, 75% higher for wood fuels, and 27% higher for fuel oils. The Swedish natural gas network starts at Malmoe and ends at Hyltebruk. The natural gas used is imported from Denmark by Sydgas AB. It would be possible in the future to get connections to the Russian and the Norwegian networks and also to import LNG by ship and store it to buffer the different consumption demands during summer and winter. Natural gas is non-toxic but can be suffocating due to too low oxygen content at high concentrations. Combustion with an inadequate air supply will form toxic carbon monoxide like other carbonaceous fuels. Natural gas/air mixtures may explode like other gaseous fuels. The gas is lighter than air and is therefore dispersed better than heavier gases like LPG. Natural gas is difficult to detonate unlike other gases.

  17. DEHAPP feasibility study. Final report; DEHAPP-foerstudie. Slutrapport

    Energy Technology Data Exchange (ETDEWEB)

    Jaeraas, S.; Liliedahl, T. [Royal Inst. of Techn., Stockholm (Sweden). Dept. of Chemical Engineering and Technology

    2001-10-01

    DEHAPP is a concept for small scale distributed co-generation of heat and power, corresponding to the need of one or a few single family houses (12 kW heat and 3 - 4 kW electricity). DEHAPP stands for DEcentralised Heat And Power Production. The ambition is that it shall stimulate the development of small scale co-generation based on renewable fuels such as biomass and waste. The principal components of the system are; system for fuel handling and fuel feeding, gasifier, gas cleaning system, compressor, catalytic burner, gas turbine, power generator and heat exchanger. The national power generation potential for DEHAPP corresponds to 2,6 GW or 4,3 TWh/year, which in turn corresponds to about three large nuclear power reactors. The eventual power generation and power distribution problems associated with DEHAPP do not, in principle, differ from those of other sources of distributed power (DP) such as power from wind, sun and fuel cells, etc. The main problem with DEHAPP today is the relatively low electrical efficiency for small micro turbines. It must be increased to at least 25 %. This can probably be achieved as the small micro turbines of today are developed and optimised for mobile use, hence they are provided with only a primitive recuperator or with no recuperator at all. An additional problem may be the relatively high investment cost. This cost will hopefully go down once production volumes starts to increase.

  18. Preliminary study Malaa. Final report; Foerstudie Malaa. Slutrapport

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1996-03-01

    Factors of importance for a possible localization of a deep nuclear waste repository at Malaa in northern Sweden are mapped in this study. The geologic structures in the area have been reviewed, mostly from already existing knowledge. Existing infrastructure and necessary improvements are discussed, as well as land use and environment, employment and other social effects. 47 refs, 41 figs, 8 tabs.

  19. Commercial kitchens - Feasibility study of energy consumption and food wastage; Storkoek - Foerstudie av energifoerbrukning och livsmedelssvinn

    Energy Technology Data Exchange (ETDEWEB)

    Rolfsman, Lennart; Pettersson, Ulrik; Barr, Ulla-Karin; Sund, Veronica

    2010-07-01

    A pre project aiming at the end to create demonstration examples of full scale professional kitchens is reported. To create a big impact school meals were chosen for the investigation. In Sweden all children are during the day given a cooked lunch. For that reason large kitchens exist in all schools. There are two main different organizations. A central kitchen delivers hot meals to each school where the meals are served to the children. The other model is local kitchens in each school. There are more non technical differences between different communities making the need to analyze more than one kitchen of each type. The two parameters in the study are energy and wasted food

  20. Evaluation of an accelerated mineralization process for ashes - feasibility study; Evaluering av jordmaansbildande askbehandlingsprocess (EJA) - foerstudie

    Energy Technology Data Exchange (ETDEWEB)

    Ecke, Holger; Bjurstroem, Henrik

    2005-03-01

    In Japan, expenses for landfilling yield about 400 USD per ton of ash, which gives an incentive to reduce the amount of landfilled ash. At NIES (National Institute for Environmental Studies) in Tsukuba, Japan, the AMT process (Accelerated Mineralization Technology) was developed aiming at the treatment of ashes and production of soil-like material for reuse. The objective of the project EJA was to evaluate the AMT process on the basis of available information and the possibilities the process could offer with respect to the conditions present in Sweden. With support of researchers at NIES, available literature including unpublished manuscripts on the AMT process was compiled, translated and evaluated. During treatment, the ashes are washed, aged and mixed with up to 5 % by weight of biodegradable organic matter. The material is stabilized at landfill. During up to several decades, metals are demobilized through a combination of three mechanisms, viz. carbonation, clay formation, and humification. Also persistent organic pollutants (POP) are demobilized due to humification products or they are degraded anaerobically. When the treatment is completed, the reuse of the material is envisaged. Due to the long treatment period, the AMT method might not be favored by ash producers in Sweden. In the future, landfill companies could be interested in the technology, since they are experienced to handle waste at long sight. This, however, requires that the legislation does not pose any hindrance for the implementation of the method, e.g. regarding the requirement to add organic matter to the ash. Above all, it remains several years of research on the AMT process to fully understand and evaluate the underlying biological and chemical processes as well as their interaction.

  1. Feasibility study of large-scale driver training; Foerstudie om storskalig foerarutbildning

    Energy Technology Data Exchange (ETDEWEB)

    Jonasson, Simon

    2011-08-15

    This preliminary study examines and proposes cost-effective ways to promote, administer and implement courses in eco-driving within agriculture, thereby educating 5000-10000 farmers within 3 to 5 years. A reference group with representatives from farm organizations have contributed to the work. The completed courses, the courses' approach, funding, and organizers were mapped. Calculations in the study shows that if 10000 farmers take a course in eco-driving and reduce their fuel consumption by 10 %, emissions of carbon dioxide will be reduced by 30,000 tonnes annually, equivalent to a benefit to society of 45 million SEK per year

  2. Energy and electricity use in buildings. Pre-study; Energi- och Elanvaendning i byggnader. Foerstudie

    Energy Technology Data Exchange (ETDEWEB)

    Dalenbaeck, Jan-Olof; Goeransson, Anders; Jagemar, Lennart [Chalmers EnergiCentrum CEC, Goeteborg (Sweden)

    2006-05-15

    The built environment accounts for 40 % of energy use and 50 % of electricity use in Sweden. Sweden uses more than twice as much electrical energy as the mean value for EU-15 and the principal reason for this is good access to relatively inexpensive electricity. This pre-study summarises the current use of electricity, the prerequisites and potential for reducing the use of electricity and current RDandD projects focusing on the use of energy. It also gives a brief description of a couple of visions for the future. The proposed research projects focus on describing the use of electricity (energy, output, voltage etc) and analysing the way different control mechanisms influence the opportunity to realise sustainable developments. The heated areas in houses and buildings are distributed as follows: 45 % in detached or semi-detached houses, 30 % in blocks of flats (including some business premises) and 25 % in business premises. About 80 % of these areas were erected before 1980. A large percentage of the energy that is supplied to these houses and buildings, around 65 %, is used for various heating purposes, first and foremost in older detached or semi-detached houses and blocks of flats. The heating for detached or semi-detached houses is supplied in many different ways, while district heating is primarily responsible for the heating that is supplied to blocks of flats and business premises. A large percentage of the electricity usage is accounted for by heating, primarily in new detached or semi-detached houses, and electricity for operations in business premises - around 35% and 28% respectively. In addition to heating, electricity is used first and foremost for lighting and different types of electrical equipment, but most of the existing statistics relating to the distribution of electricity usage between different applications are based on old surveys and studies and need to be updated. It is estimated that the techno-economic potential for saving energy in residential buildings and business premises is about 30 TWh of net heat and 15 TWh of electricity. The savings that are in fact realised depend on a number of factors. Based on the assumption that energy prices will continue to rise, energy declarations will be generally accepted and the requirements governing the energy performance of buildings will be stepped up, we feel that it is realistic to expect the realisable potential to be somewhere in the region of 10 TWh of net heat and 5 TWh of electricity within the next 10-20 years. Future energy declarations and the classification of buildings, the call for hour-based readings of electricity subscriptions and new lighting technology are the kind of factors that could impact future electricity use in existing houses and buildings. A number of relevant projects which are aiming to 'understand' (user behaviour, mapping of electricity usage etc) and make the energy use more efficient in buildings are currently in progress. Several of them are focusing on reducing the usage of electricity in houses and buildings. A number of different studies of the future indicate everything from an increase in the use of energy to a significant reduction. Several studies stress the large-scale potential for energy efficiency and saving measures, while describing many obstacles along the way. To summarise, it would probably be true to say that 'business as usual' means that the use of electricity will remain at the same level or will continue to increase within the foreseeable future and that a reduction in the use of electricity can only be achieved by joining forces to implement a combination of wholehearted efforts.

  3. Preliminary study Hultsfred. Land use and environmental aspects; Foerstudie Hultsfred. Markanvaendning och miljoeaspekter

    Energy Technology Data Exchange (ETDEWEB)

    Birgersson, Lars [Kemakta Konsult AB, Stockholm (Sweden); Carlsson, Rumar [C-son Consult, Ruda (Sweden); Gustafsson, Anna [The Rural Economy and Agricultural Society of Stockholm and Uppsala Counties (Sweden)

    2000-03-01

    Localisation of a repository in the Hultsfred area is discussed from land use and environmental impact points of view. The ground installations are supposed to create the most important impacts. Areas which should be protected from exploitation are pointed out. Other areas more or less well suited when considering environmental impacts are discussed.

  4. A Feasibility Study on LPG as Marine Fuel; En foerstudie paa gasol som marint braensle

    Energy Technology Data Exchange (ETDEWEB)

    Kjartansson, Sveinbjoern

    2012-06-15

    With the upcoming stricter emission rules fast approaching and the requirements for higher quality fuel, it is inevitable that there will be a change of fuel from HFO to cleaner options. These changes are driven by the knowledge of the health problems associated with emissions from ships in coastal areas. One viable option for meeting these demands for reduced emission is to utilize LPG as a marine fuel. This thesis investigates the harmful chemicals that are present in the exhaust gases, followed by an introduction on LPG as marine fuel. Transport options for LPG and existing engine technology is presented and the feasibility of LPG as a fuel option on the European / Swedish market is studied. The conclusion from this study is that sufficient infrastructure for distribution of LPG is in place to serve potential marine market demand. Engine technology for using LPG as fuel has been developed for a wide range of power outputs. The economic incentive in the fuel price difference alone is likely to attract ship owners to invest in LPG fueled fleets.

  5. Pre-study - Straw ash in a nutrient loop; Foerstudie - Halmaska i ett kretslopp

    Energy Technology Data Exchange (ETDEWEB)

    Ottosson, Peter; Bjurstroem, Henrik; Johansson, Christina; Svensson, Sven-Erik; Mattsson, Jan Erik

    2009-03-15

    A sustainable production of energy crops requires that the loss of mineral nutrients when removing biomass is compensated naturally or by an addition of plant nutrients. Recycling ash is a natural way to satisfy this need arising after combustion of energy crops. In this pre-study, the prerequisites for recycling straw ash have been investigated. The Danish experience with spreading ash to fields and information in literature on the composition of ash have been collected and presented. Analysis of straw samples taken from four different places in Scania yielded information on cadmium and nutrient concentration in straw and in ash. A balance between removal of nutrient and cadmium with wheat straw and restoring them by recycling straw ash has been computed. Straw ash is a potassium fertiliser with some phosphorus and some liming effect. It is technically difficult to spread the small quantities of ash in solid form, ca 250 kg per hectare and year in average, which a pure recycling would require. It is easier to spread larger quantities, e.g. ca 1 ton per hectare every fourth year, which corresponds to spreading once in a four year crop rotation, but then one provides too much potassium if one considers the actual needs of the coming crops at that occasion, which could lead to potassium being leached out on light soils. Alternatively, one could spread only bottom ash, but this would lead to half of the potassium content not being recycled to agricultural soil and lost with the fly ash that is disposed of. If one spreads about 500 kg bottom ash per hectare every other year, which could be a suitable strategy to avoid overloading soils with potassium, the dose brought to 1 ha may be computed as: 4 - 10 kg phosphorus, 50 - 100 kg potassium, 5 - 15 kg sulphur, 4 - 8 kg magnesium, 0.1 - 0.3 kg manganese and 20 - 40 kg CaO. These basis of these calculations is the results from the analyses performed in this study. The cadmium concentration was significantly higher in wheat straw from soils with higher cadmium content. To avoid that a farm with a low cadmium concentration in the straw receives ash with a high content, one could combust area-wise and recycle area-wise, or choose not to fetch straw from farms with high cadmium contents in soils, or spread only bottom ash. However, if fly ash is not utilised, a large part of the potassium is lost. The conclusion is that recycling of straw ash to fields is feasible and development work should continue after this pre-study. The pre-study need to be developed in the following areas: Means to spread a small quantity of ash to fields, with as small a negative effect as possible. Machines for spreading straw ash have been studied in some Swedish investigations, and before proceeding further one should gather additional information, a.o. on foreign machinery for spreading straw ash Test lime spreading techniques, pipe model, for agglomerated ash (wet, cured, crushed and sieved straw ash) As ash is a fertiliser, a method to calculate doses should be developed. This implies a.o. an analysis of potassium and phosphorus available to plants The availability of cadmium to plants should be studied in order to determine in which phase of a crop rotation ash should be returned in order to minimize the risk that plants take up cadmium If one chooses to recycle only bottom ash, one should continue to investigate means to extract potassium from fly ash, as ca 50 % of the potassium content is in the fly ash

  6. Dam safety - Requirements analysis for motion measurements for ponds; Dammsaekerhet - Behovsanalys foer roerelsemaetningar foer dammar

    Energy Technology Data Exchange (ETDEWEB)

    Ekstroem, Ingvar; Lier, Oeyvind E.

    2013-04-15

    Ageing population of dams and growing societal demands on safety increases the need for monitoring to ensure that dam safety is maintained at a continuously high level. A part of this is deformation measurements of earth fill dams, for which a number of general and specific methods are available. General long-term monitoring of earth fill dams are traditionally carried out with geodetic methods such as leveling or total station which provide a good accuracy. These methods have recently been supplemented by various forms of laser scanning, both ground-based and airborne. Scanning has the advantage of better surface coverage but generally offers lower accuracy. Also GPS-based systems are available with high precision, but these usually require a large number of fixed receivers. When there are specific monitoring needs there are several methods available, such as extensometer, inclinometers, pressure cells, optical fiber or pendulum. These all have very high precision, but are costly and measures deviations at a specific point in the dam and provides no general surface scan. In recent years, technical developments of measurement systems using satellites have reached such a level that there might be opportunities to improve earth fill dam monitoring with these new methods. Since 2008, a limited commercialization of SAR technology has been going on within the monitoring of movements and deformations of sensitive land areas. Development of the software and better resolution on available satellite data has made more comprehensive and precise analyses available. Also the knowledge of the possibilities and limitations of the method has been developed. According to this study InSAR seems to have a place among methods for long-term monitoring where cost and applicability seems competitive compared to more traditional methods. The main benefits are the uniform image of deformations that can be obtained, combined with the availability of historical data that can be analyzed. Based on this the method is suggested to be further evaluated for deformation monitoring of Swedish earth fill dams through a number of pilot projects.

  7. Energy Recovery from a Low Consistency TMP Process - A Feasibility Study; Energiaatervinning vid LC-raffinering - Foerstudie

    Energy Technology Data Exchange (ETDEWEB)

    Bjoerkqvist, Olof; Engstrand, Per; Friden, Haakan

    2008-11-15

    Normally, steam recovery from a conventional low consistency (LC) mechanical pulp refining system is not possible. This is due to the fact that the temperature level in the LC-refiner is less than 100 deg C. The steam with such a low temperature and associated pressure has limited value in the mill. In this project, we study a concept of increasing the temperature in the refiner to a level were process steam with higher quality can be recovered. The temperature level can be increased by transferring heat from outgoing pulp or drainage to incoming pulp or water. This makes it possible to recover heat from the process. An initial estimate indicates that steam recovery from LC-refining systems may have a good economic potential. Three cases have been analyzed: Case A: Steam recovery in combination with pulp/pulp heat exchanging, Case B: Steam recovery in combination with a pressurized screw press and finally Case C: steam recovery in combination with pump/water heat exchanging. Case B show the best specific steam recovery, 87% kWh recovered steam per kWh used electricity. This concept has a lower technological uncertainty compared to cases A and C as it does not need heat exchanging from pulp. The specific heat recovery from case A and C is 78% and 82% respectively. However, the suggested heat exchangers used in these cases do not exist on the market today. There is hence a need for development of exchangers that can handle pulp with high viscosity. The technological risk associated with the screw press scenario is lower and it is likely that this concept is easier to implement

  8. Environmental effects of the use of polymers in the biogas industry - Pre study; Miljoeeffekter av polymerer inom biogasbranschen - Foerstudie

    Energy Technology Data Exchange (ETDEWEB)

    Henriksson, Gunilla; del Pilar Castillo, Maria; Jakubowicz, Ignacy; Enocksson, Haakan; Ascue Contreras, Johnny; Lundgren, Per; Engstroem, Thomas

    2011-07-01

    Avfall Sverige - Swedish Waste Management's Steering Group for certification of digestate [1] got an inquiry from the biogas industry if the use of polymers as additive in the biogas process is allowed. A requirement according to the certification system is that any additive used must be free from negative effects on the digestate or the soil quality. This study is initiated because of the limited knowledge of how the use of polymers affects the environment. The study is intended to be used as a basis for a decision by the Steering Group concerning the use of polymers in digestate and for an approval by the agri-food industry. The purpose of this study is to gather basic knowledge on the polymers used in dewatering and to identify polymer candidates and analytical methods for further studies of degradation, accumulation and toxicity. The project is limited to include a literature review, a survey concerning the use of polymers at biogas and sewage treatment plants, an impact analysis and a compilation of relevant laws and directives through contacts with authorities. No laboratory or field tests are included in this study. Sewage treatment plants (STPs) were included in the survey as they have been using polymers for dewatering of sewage sludge for many years and therefore should have substantial knowledge about polymers and their environmental effects. According to the literature, the side chains of polyacrylamide (PAM) can be degraded both aerobically and anaerobically. However, the polymer backbone degrades slowly or not at all in the environment, possibly leading to accumulation. Reported effects of PAM on the biogas process are conflicting, showing both inhibitory effects and no effects on the biogas process. Knowledge about the environmental impacts to be expected from spreading polymer amended bio-manure or sewage sludge is limited. The authorities have not handled the issue before and have no further information. Polymer amended sewage sludge has been spread on arable land over several years without the observation of any negative environmental effects. However, the occurrence of polymers in the soil or the effect of polymers in the bio-manure has not been specifically studied. If polymers cannot be used in the biogas process the possibilities to accept different kinds of substrates and optimize the DS-content of these substrates will be limited. Also, the limited possibilities to adjust DS-content and volume of the substrate will have a number of negative consequences on the digestion process. The recommendations for the Steering Group of the certification system SPCR 120 is to not take any general decision about the use of polymers in the biogas process and to wait until further research has been performed. Suggestions for further work is to develop analytical methods to analyze polymers in soil, study the degradation of the polymer structure in bio-manure and soil samples, measure the presence and accumulation of polymers and polymer residues in the pending long-term project Spreading of sludge on agricultural soils (Hushaallningssaellskapet Malmoehus) and to study the effect of PAM-properties (charge, molecular weight, structure) on the flock size, carbon availability and biogas production

  9. Methodology for Environmental Impact Assessment; Metodik foer miljoekonsekvensbedoemning

    Energy Technology Data Exchange (ETDEWEB)

    Malmlund, Anna (Structor Miljoebyraan Stockholm AB (Sweden))

    2010-12-15

    This report is an appendix to 'Environmental Impact Assessment Interim storage, encapsulation and disposal of spent nuclear fuel'. The appendix presents the methodology and criteria used in support investigations to conduct impact assessments.

  10. Substrate Handbook for Biogas Production; Substrathandbok foer biogasproduktion

    Energy Technology Data Exchange (ETDEWEB)

    Carlsson, My; Uldal, Martina (AnoxKaldnes AB, Lund (Sweden))

    2009-02-15

    Today, co-digestion plants in Sweden treat a broad range of different substrates, of which some have not previously been used for anaerobic digestion. The major part of this organic waste derives from households, restaurants, food industries and farms. When evaluating a new substrate as feed for anaerobic digestion, several different aspects need to be taken into consideration, such as anaerobic degradability, TS/VS content, nutrient composition and risk for mechanical problems. Consequently, there is a need for practical guidelines on how to evaluate new substrates as raw materials for biogas production, including not only gas yield but also what practical and microbiological problems that may arise when the specific substrate is treated together with other substrates in the plant. The aim with this handbook is to provide a basis on how to evaluate new substrates as feed for anaerobic digestion. The intention is that this material will save time and effort for the personnel at the plant when they come in contact with new types of waste. Also, the aim is to facilitate the process of identifying new substrates within the ABP-regulation (1774/2002) and what requirements are then demanded on handling. The work with the handbook has been divided in three different parts; (1) an extensive literature study and a compilation of the achieved results, (2) interviews with personnel at most of the Swedish co-digestion plants to identify substrates and problems of interest, and (3) lab tests of selected substrates. The lab tests included Bio Methane Potential (BMP) tests as well as a simple characterization of each substrate based on fat/protein/carbohydrate content. All data origins from anaerobic digestion within the mesophilic temperature range, but the results and discussion are applicable also for thermophilic anaerobic digestion. The result of this work is a written report together with an Excel file which are to be directly used by the biogas plants as a basis in the every day work. The Excel file is intended to work as a living document to be incorporated in calculation templates etc, where new data and information can be added gradually. It includes approximately 40 different substrates, for which the following parameters are given; TS-content, VS-content, methane content, gas yield, methane yield, nutrient composition, ABP-category, possible mechanical problems, other comments and source of information. In addition, the results from the BMP-tests and characterization of in total around 20 different substrates are given. These results points to the difficulty of proposing the final methane production for a substrate only from a rough characterization based on fat/protein/carbohydrate content

  11. Microbiologic handbook for biogas plants; Mikrobiologisk handbok foer biogasanlaeggningar

    Energy Technology Data Exchange (ETDEWEB)

    Jarvis, Aasa; Schnuerer, Anna

    2009-05-15

    There is today great interest in the biogas process. The reason for interest is that this process offers an opportunity to stabilize and reduce various types of organic waste, while also generating clean renewable energy in the form of biogas. Purified biogas is a good alternative to gasoline and diesel as motor fuel and can also be used for heating and electricity production. Behind efficient biogas production lies a complex microbiological process. For biogas to be formed many different species of microorganisms have to be active. A disturbance of this teamwork leads to a reduction in biogas production or in the worst case that the process stops. In order to operate a biogas process in an efficient manner, it is necessary to have knowledge of the underlying microbiology and how microorganisms function. Today Swedish biogas plants have personnel with great technical knowledge, while the biological knowledge often is more limited. It has been difficult to find appropriate Swedish language literature in the field. This handbook aims to increase the microbiological expertise of staff at the biogas plants and thus to facilitate the stable operation and optimization of gas production

  12. Changed market conditions for biogas production; Foeraendrade marknadsvillkor foer biogasproduktion

    Energy Technology Data Exchange (ETDEWEB)

    Colnerud Granstroem, Sigrid; Gaaverud, Henrik; Glimhall, Alexandra

    2010-10-15

    The Swedish gas market consists mainly of the natural gas network that extends through the southwestern Sweden, and the local biogas markets. Biogas share of the Swedish gas market is growing steadily. The fact that the Swedish gas net is limited and fragmented forms an obstacle for biogas use to expand. That the gas market as a whole, natural gas included, must develop and expand is therefore a prerequisite for the large potential for Swedish Biogas to be realized. This in contrast with the ultimate objective to completely replace natural gas in the Swedish gas market. When policy changes are made in order to support biogas it is crucial for long-term competitiveness of biogas that these changes should not impact the natural gas market and hinder its development. Such a scenario would ultimately mean that also biogas development opportunities deteriorate. Biogas operations encounter three main problems that prevent or impede its expansion in the gas market. First, the potential for profitability in biogas production must be enhanced. Second, natural gas and biogas markets should be more integrated with each other. Thirdly, the biogas must be distributed in a cost-effective manner. The present investigation aims to supplement the Natural Gas Act with special provisions which takes into account the input and transmission of biogas. In addition to the production of biogas, it is now the producer's responsibility to clean the gas from water vapor, hydrogen sulfide and carbon dioxide and to augment the calorific value of the gas to the standard of Danish natural gas quality by propane addition and to ensure that the physical connection to network is available. There are thus a number of options available for shifting demarcation between biogas production and network operations. Short-term competitiveness of biogas would be strengthened most if purification and spiking the gas with propane and the connection to the network was imposed on network owners. In the longer term, it is not obvious that such a change would be beneficial for biogas as such a change could have long term adverse effects on the competitiveness of natural gas against other energy sources. The Energy Market Inspectorate has decided, therefore, not as desirable for the network owner to have responsibility for treatment or network connection. EI therefore considers that it is reasonable that the responsibility for propane spiking is imposed on the network operators. Network owner may then also able to refrain from propane spiking of the biogas and instead lower the heating value of the Danish natural gas - an attractive alternative if natural gas imports from other countries would be under consideration

  13. Statistics 2003 - in nuclear medicine; Isotopstatistik 2003 - foer nukleaermedicinsk verksamhet

    Energy Technology Data Exchange (ETDEWEB)

    Joensson, Helene; Richter, Sven

    2004-12-01

    In this compilation the use of radioactive substances in therapies and in vivo examinations during 2003 at all hospitals in Sweden is presented. For each nuclide, examination type, chemical form, way of administration, number of reporters, total number of examinations, mean activity used, and minimum and maximum activity is presented. Of the compilation it becomes known that during 2003 approximately 103,000 examinations and 3,300 therapies were performed. The total dose to the population from diagnostic procedures was 452 manSv.

  14. Distribution Equipment Reliability Data; Tillfoerlitlighetsdata paa komponent nivaa foer eldistributionsnaet

    Energy Technology Data Exchange (ETDEWEB)

    Ying He (Vattenfall Research and Development AB, Stockholm (SE))

    2007-09-15

    In risk analysis of a power system, the risk for the system to fail power supply is calculated from the knowledge of the reliability data of individual system components. Meaningful risk analysis requires reasonable and acceptable data. The quality of the data has the fundamental importance for the analysis. However, the valid data are expensive to collect. The component reliability performance statistics are not easy to obtain. This report documents the distribution equipment reliability data developed by the project 'Component Reliability Data for Risk Analysis of Distribution Systems' within the Elforsk RandD program 'Risk Analysis 06-10'. The project analyzed a large sample size of distribution outages recorded by more than a hundred power utilities in Sweden during 2004-2005, and derived the equipment reliability data nationwide. The detailed summaries of these data are presented in the appendices of the report. The component reliability was also investigated at a number of power utilities including Vattenfall Eldistribution AB, Goeteborg Energi Naet AB, E.ON Elnaet Sverige AB, Fortum Distribution, and Linde Energi AB. The reliability data were derived for individual utilities. The detailed data lists and failure statistics are summarized in the appendices for each participating companies. The data provided in this report are developed based on a large sample size of field outage records and can be therefore used as generic data in system risk analysis and reliability studies. In order to provide more references and complementary data, the equipment reliability surveys conducted by IEEE were studied in the project. The most significant results obtained by the IEEE surveys are provided in the report. A summary of the reliability data surveyed by IEEE is presented in the appendix of the report. These data are suggested to use in the absence of better data being available. The reliability data estimates were derived for sustained failure rates, outage durations, and unavailability for components categories of lines, cables, transformers, breakers, switch devices, and fuses. The reliability data are classified by (a) voltage ratings, (b) outage durations, and are given on two bases: per km-year, per unit-year. The number of failures and population data are the basis for estimating reliability data, these statistics are also provided in the report and summarized in the appendices for whole Sweden and for individual participating utilities. The project studied the impact of the uncertainty in the reliability data and performed reliability simulations to investigate how the variations in reliability data affect the load point and system risk indices and how the calculation results vary with respect to the uncertainty in the reliability data. The simulation results show that the quality of the reliability data is of fundamental importance to the risk calculations. The uncertainty in the component data may affect the risk calculations significantly. The rank of the impact on the risk indices follows the same pattern as that of the magnitude of the component reliability. The higher the component failure rates are, the severer their impact on the calculated indices. It is therefore important to recognize this effect in reliability analysis. In the conclusion chapter of the report, the suggestions for general data use are provided. Some observations and issues regarding currently existing problems in deriving component failure statistics are also summarized in the report

  15. Consequences of forest energy for flora; Skogsenergins konsekvenser foer floran

    Energy Technology Data Exchange (ETDEWEB)

    Kruuse, A. [Lund Univ. (Sweden). Dept. of Ecology

    1992-09-24

    The report examines the effects of forest energy on the field layer vegetation, and includes whole-tree harvesting, liming, fertilization, wood ash distribution and the importance of broadleaved trees. Whole-tree harvesting is negative for some of the vascular plant species, and positive for others, and can have a drastically negative effect on lichens, mosses and decomposing fungi. Whole-tree harvesting can be accepted from the viewpoint of the flora if: - between 10 and 30 % of the slash is left on the clearcut area, - hardwood stands or mixed stands with hardwood are excepted from whole-tree harvesting, - dead lying or standing trees, a few broadleaved trees and old trees, are left on the clearcut area. Liming has some effects on the flora, especially a very negative effect on lichens and mosses. Liming can be accepted if; - it only takes place where whole-tree harvesting has been used or where acidification caused by air pollution has been observed, - the amounts are moderate, 2 to 4 tonnes/ha, and the liming material has a rather large grain size, - it is unevenly distributed, and - it is avoided in naturally acid stands with a special vegetation. Fertilization has negative effects on all the considered vegetation groups. It can only be accepted as compensation for whole-tree harvesting, and no more nitrogen must be added than is taken away in the harvest. In southern Sweden even the compensatory fertilization should be avoided. The consequences of wood ash distribution are little known. Until more facts are presented, only enough wood ash as to compensate for the loss through whole-tree harvesting should be distributed. If the use of forest energy would lead to an increase of the broadleaved tree ratio it would be positive. (54 refs.).

  16. Consequences of forest energy for flora. Skogsenergins konsekvenser foer floran

    Energy Technology Data Exchange (ETDEWEB)

    Kruuse, A. (Lund Univ. (Sweden). Dept. of Ecology)

    1992-09-24

    The report examines the effects of forest energy on the field layer vegetation, and includes whole-tree harvesting, liming, fertilization, wood ash distribution and the importance of broadleaved trees. Whole-tree harvesting is negative for some of the vascular plant species, and positive for others, and can have a drastically negative effect on lichens, mosses and decomposing fungi. Whole-tree harvesting can be accepted from the viewpoint of the flora if: - between 10 and 30 % of the slash is left on the clearcut area, - hardwood stands or mixed stands with hardwood are excepted from whole-tree harvesting, - dead lying or standing trees, a few broadleaved trees and old trees, are left on the clearcut area. Liming has some effects on the flora, especially a very negative effect on lichens and mosses. Liming can be accepted if; - it only takes place where whole-tree harvesting has been used or where acidification caused by air pollution has been observed, - the amounts are moderate, 2 to 4 tonnes/ha, and the liming material has a rather large grain size, - it is unevenly distributed, and - it is avoided in naturally acid stands with a special vegetation. Fertilization has negative effects on all the considered vegetation groups. It can only be accepted as compensation for whole-tree harvesting, and no more nitrogen must be added than is taken away in the harvest. In southern Sweden even the compensatory fertilization should be avoided. The consequences of wood ash distribution are little known. Until more facts are presented, only enough wood ash as to compensate for the loss through whole-tree harvesting should be distributed. If the use of forest energy would lead to an increase of the broadleaved tree ratio it would be positive. (54 refs.).

  17. Solar cells for energy production. Solceller foer energiproduktion

    Energy Technology Data Exchange (ETDEWEB)

    Andersson, Mats; Hedstroem, Jonas; Jargelius, M.; Niemi, Esko; Sigurd, D.; Stolt, L. (Institutet foer Mikroelectronik, Kista (SE))

    1990-01-01

    At the Swedish Institute of Microelectronics the effort towards an efficient polycrystalline thin film tandem cell continues. Our bottom cell consisting of Cds - CuInSe{sub 2} has reached 10% efficiency with a double layer AR coating. The double layer absorber structure necessary to obtain high efficiencies in this type of cell has been investigated as well as deposition and doping processes for the window layer. The main thrust is now directed towards developing a top cell deploying CuGaSe{sub 2} as an absorber. Still at an early stage, over 5% efficiency at AM 1.5 has been achieved. An XPS equipment is now ready for in situ analysis of cells at different stages of deposition. In particular, studies of the heterojunction interface and absorber diffusion properties will be conducted.

  18. Technology for energy efficient passenger cars; Teknik foer energieffektiva personbilar

    Energy Technology Data Exchange (ETDEWEB)

    Aahman, M. [Lund Univ. (Sweden). Dept. for the Built Environment

    1999-11-01

    Passenger cars can be more effective and decrease their fuel consumption by switching to alternative drivetrains or by improvements in the conventional drivetrain. The aim of the report is to investigate and compare new energy efficient drivetrains in order to make a strategic assessment on which alternative have the highest potential for energy efficiency in the future. By way of a literature review the energy efficiency is investigated and compared for the electric vehicle, hybrid vehicle with either an otto-engine, diesel-engine or a fuel cell as a primary engine, and improvements in the conventional drivetrain. Each crucial component is investigated and assessed independently. The energy efficiency is calculated as primary energy efficiency all the way from the original energy source. The energy sources is divided into three different resource bases with different prospects for the future. The division is between fossil based energy, bioenergy and renewable electricity as solar, wind or hydropower. The result shows us that the highest efficiency is by using a pure electric drivetrain for all three different resource bases. However, questions can be raised regarding the market potential for the electric vehicle considering the range of an electric vehicle. The fuel cell vehicle have a high potential for energy efficiency but unfortunately the efficiency is strongly linked to using hydrogen as an energy carrier. This commands large investments in infrastructure for hydrogen. At the moment the car industry is focusing on hybrid vehicles with otto- or diesel engines. A reasonable potential for these drivetrains is a doubling of the energy efficiency compared to todays conventional drivetrain. No outstanding winner in the future can be seen today from present knowledge. Future investments in new drivetrains should allow flexibility in order not to lock in the development in a doubtful choice.

  19. Water and steam sampling systems; Provtagningssystem foer vatten och aanga

    Energy Technology Data Exchange (ETDEWEB)

    Hellman, Mats

    2009-10-15

    The supervision of cycle chemistry can be divided into two parts, the sampling system and the chemical analysis. In modern steam generating plants most of the chemical analyses are carried out on-line. The detection limits of these analyzers are pushed downward to the ppt-range (parts per trillion), however the analyses are not more correct than the accuracy of the sampling system. A lot of attention has been put to the analyzers and the statistics to interpret the results but the sampling procedures has gained much less attention. This report aims to give guidance of the considerations to be made regarding sampling systems. Sampling is necessary since most analysis of interesting parameters cannot be carried out in- situ on-line in the steam cycle. Today's on-line instruments for pH, conductivity, silica etc. are designed to meet a water sample at a temperature of 10-30 deg C. This means that the sampling system has to extract a representative sample from the process, transport and cool it down to room temperature without changing the characteristics of the fluid. In the literature research work, standards and other reports can be found. Although giving similar recommendations in most aspects there are some discrepancies that may be confusing. This report covers all parts in the sampling system: Sample points and nozzles; Sample lines; Valves, regulating and on-off; Sample coolers; Temperature, pressure and flow rate control; Cooling water; and Water recovery. On-line analyzers connecting to the sampling system are not covered. This report aims to clarify what guidelines are most appropriate amongst the existing ones. The report should also give guidance to the design of the sampling system in order to achieve representative samples. In addition to this the report gives an overview of the fluid mechanics involved in sampling. The target group of this report is owners and operators of steam generators, vendors of power plant equipment, consultants working in Sweden that come in contact or are involved in cycle chemistry

  20. Biomass Gasifier for Computer Simulation; Biomassa foergasare foer Computer Simulation

    Energy Technology Data Exchange (ETDEWEB)

    Hansson, Jens; Leveau, Andreas; Hulteberg, Christian [Nordlight AB, Limhamn (Sweden)

    2011-08-15

    This report is an effort to summarize the existing data on biomass gasifiers as the authors have taken part in various projects aiming at computer simulations of systems that include biomass gasification. Reliable input data is paramount for any computer simulation, but so far there is no easy-accessible biomass gasifier database available for this purpose. This study aims at benchmarking current and past gasifier systems in order to create a comprehensive database for computer simulation purposes. The result of the investigation is presented in a Microsoft Excel sheet, so that the user easily can implement the data in their specific model. In addition to provide simulation data, the technology is described briefly for every studied gasifier system. The primary pieces of information that are sought for are temperatures, pressures, stream compositions and energy consumption. At present the resulting database contains 17 gasifiers, with one or more gasifier within the different gasification technology types normally discussed in this context: 1. Fixed bed 2. Fluidised bed 3. Entrained flow. It also contains gasifiers in the range from 100 kW to 120 MW, with several gasifiers in between these two values. Finally, there are gasifiers representing both direct and indirect heating. This allows for a more qualified and better available choice of starting data sets for simulations. In addition to this, with multiple data sets available for several of the operating modes, sensitivity analysis of various inputs will improve simulations performed. However, there have been fewer answers to the survey than expected/hoped for, which could have improved the database further. However, the use of online sources and other public information has to some extent counterbalanced the low response frequency of the survey. In addition to that, the database is preferred to be a living document, continuously updated with new gasifiers and improved information on existing gasifiers.

  1. Absorbed Doses to Patients in Nuclear Medicine; Doskatalogen foer nukleaermedicin

    Energy Technology Data Exchange (ETDEWEB)

    Leide-Svegborn, Sigrid; Mattsson, Soeren; Johansson, Lennart; Fernlund, Per; Nosslin, Bertil

    2007-04-15

    The Swedish radiation protection authority, (SSI), has supported work on estimates of radiation doses to patients from nuclear medicine examinations since more than 20 years. A number of projects have been reported. The results are put together and published under the name 'Doskatalogen' which contains data on doses to different organs and tissues from radiopharmaceuticals used for diagnostics and research. This new report contains data on: {sup 11}C-labelled substances (realistic maximum model), amino acids labelled with {sup 11}C, {sup 18}F or {sup 75}Se, {sup 99m}Tc-apcitide, {sup 123}I-labelled fatty acids ({sup 123}I- BMIPP and {sup 123}I-IPPA) and revised models for previously reported {sup 15}O-labelled water, {sup 99m}Tc-tetrofosmin (rest as well as exercise) and {sup 201}Tl-ion Data for almost 200 substances and radionuclides are included in the 'Doskatalogen' today. Since the year 2001 the 'Doskatalogen' is available on the authority's home page (www.ssi.se)

  2. Absorbed Doses to Patients in Nuclear Medicine; Doskatalogen foer nukleaermedicin

    Energy Technology Data Exchange (ETDEWEB)

    Leide-Svegborn, Sigrid; Mattsson, Soeren; Nosslin, Bertil [Universitetssjukhuset MAS, Malmoe (Sweden). Avd. foer radiofysik; Johansson, Lennart [Norrlands Universitetssjukhus, Umeaa (Sweden). Avd. foer radiofysik

    2004-09-01

    The work with a Swedish catalogue of radiation absorbed doses to patients undergoing nuclear medicine investigations has continued. After the previous report in 1999, biokinetic data and dose estimates (mean absorbed dose to various organs and tissues and effective dose) have been produced for a number of substances: {sup 11}C- acetate, {sup 11}C- methionine, {sup 18}F-DOPA, whole antibody labelled with either {sup 99m}Tc, {sup 111}In, {sup 123}I or {sup 131}I, fragment of antibody, F(ab'){sub 2} labelled with either {sup 99m}Tc, {sup 111}In, {sup 123}I or {sup 131}I and fragment of antibody, Fab' labelled with either {sup 99m}Tc, {sup 111}In, {sup 123}I or {sup 131}I. The absorbed dose estimates for these substances have been made from published biokinetic information. For other substances of interest, e.g. {sup 14}C-urea (children age 3-6 years), {sup 14}C-glycocholic acid, {sup 14}C-xylose and {sup 14}C-triolein, sufficient literature data have not been available. Therefore, a large number of measurements on patients and volunteers have been carried out, in order to determine the biokinetics and dosimetry for these substances. Samples of breast milk from 50 mothers, who had been subject to nuclear medicine investigations, have been collected at various times after administration of the radiopharmaceutical to the mother. The activity concentration in the breast milk samples has been measured. The absorbed dose to various organs and tissues and the effective dose to the child who ingests the milk have been determined for 17 different radiopharmaceuticals. Based on these results revised recommendations for interruption of breast-feeding after nuclear medicine investigations are suggested.

  3. Field measurements to demonstrate new technology for heat pump systems; Faeltmaetningar foer att demonstrera ny teknik foer vaermepumpsystem

    Energy Technology Data Exchange (ETDEWEB)

    Tiljander, Pia; Haglund Stignor, Caroline; Lidbom, Peter; Viktorsson, Magnus; Lindahl, Markus; Axell, Monica

    2010-09-15

    Within the frames of this project there are ongoing measurements of five different heat pump facilities used for heating houses and tap water in one-family houses. The measurements started in the first part of 2010 and are supposed to go on for one year. The final result together with analysis and discussions will be presented in a report that will be published in summer 2011. The purpose of the measurements is to present the potential for heat pump technology in order to raise the acceptance of the technology and through raised acceptance increase the implementation of the technology in new markets. The project also has its purpose in usage of the results and conclusions as basic data and guidelines for constructors and assembling fitters. The project is not intended to grade individual heat pumps from various suppliers in regard to efficiency. A field study does not adapt well for comparison between different heat pumps since there are too many variables (outdoor climate, usage pattern, construction of the building, installation solution, kind of heat pump system) that affect the performance of the heating system. Results from field studies should therefore never be used for comparison. This kind of work should be carried out in a laboratory where variables that affect the result can be controlled. The project started with a mapping of the Swedish heat pump market in order to obtain a base when choosing the different heat pump facilities that should be included in the field study. The selection was made together with the heat pump manufacturers with focus on selecting the best possible technology and to include different technologies. Another important criterion for the selection was to find households that agreed to participate in the study. Included in the study are two buildings with geothermal heating, one with geothermal heating combined with solar panels, one brine/water heat pump connected to a ground storage combined with solar panels and one building with an air/water heat pump combined with solar panels. Collaterally with selecting suitable households a selection of the equipment used in the field measurement was carried out. The equipment for the field measurements was chosen with the purpose of obtaining a high accuracy on the measurements and to be able to collect the data by remote sensing. To have equipment that restarts after a power shortage was also a requirement. The data collected in the project are temperature (Pt-100 sensors) and volume flow (by induction with pulse output) on heat carriers and tap water as well as electrical energy (electrical energy meter with pulse output) which the heat pumps and circulation pumps uses. The indoor and outdoor temperature is also measured. All the measured values are collected by remote sensing. Since the duration of the measurements is very limited only some preliminary conclusions can be drawn. The limited duration of the measurements also implies that the Seasonal Performance Factor (SPF) for the various facilities cannot be accounted for in this report. The (Coefficient Of Performance) COP is presented per week instead. The results from the measurement performed so far are used in order to determine the heating systems Coefficient Of Performance (COP), electrical energy saving and carbon dioxide reduction in comparison with direct acting electricity. A yearly Seasonal Performance Factor (SPF) and a degree of energy coverage will be determined for one year when the measurements have lasted for one year and will be covered in the final report

  4. Indicators and calculation methods for monitoring policy for energy efficiency; Indikatorer och beraekningsmetoder foer att foelja upp politik foer energieffektivisering

    Energy Technology Data Exchange (ETDEWEB)

    2011-07-01

    Energy efficiency objectives can be absolute or relative. With absolute objectives the energy use of a given year should be at a certain level, for example, 80 percent of today's energy use. With a relatively objective energy use should be related to something else such as gross domestic production (GDP) or gross national income (GNI). Depending on how the goals are formulated the requirements of the policy instruments introduced to contribute to the achievement of objectives will vary. In addition to the Energy Services Directive objective (Directive 2006/32/EC) an objective has been set for the EU which means that energy consumption in 2020 will be 20 percent more efficient compared to a reference scenario. Estimates of the impact analysis of the EU Action Plan for energy efficiency 2011 indicates that the EU's energy input for energy purposes should be a maximum of 1474 Mtoe. The savings compared to the energy use reference scenario which are projected to be 1842 Mtoe will thus amount to 368 Mtoe in 2020. There are reasons to pay attention to the definition of key terms. Energy conservation and energy efficiency for example are used in a number of non synonymous ways even in EU documents. It has consequences including the interpretation of the objective. Sweden has set an objective to reduce energy intensity in terms of energy input in relation to GDP by 20 percent by the year 2020 with 2008 as base year. Sweden's intensity objective takes, unlike the EU's energy efficiency objective, account of the actual economic development. EU's energy efficiency objective is based on a forecast of the economic development. Sweden also has an objective of energy consumption per square meter of residential and commercial buildings. It should be reduced by 20 percent by 2020 and by 50 percent by 2050. Furthermore, there is a focus that energy efficiency in transport must improve in order to contribute to the environmental objective of reduced climate impact. EU's energy efficiency objective is not currently mandatory and has not yet been distributed. It is therefore also unclear how the monitoring should be done, but a starting point might be to monitor countries' contribution to the objective through a set of indicators

  5. Opportunity and potential for fuel cell systems for energy in buildings; Moejlighet och potential foer braenslecellsystem foer energifoersoerjning i byggnader

    Energy Technology Data Exchange (ETDEWEB)

    Jannasch, Anna-Karin (Catator AB (Sweden))

    2011-04-15

    While planning for new sustainable and environmentally friendly communities in Sweden, discussions on using fuel cells for small-scale power and heat production (mCHP) are today on-going. Examples of such communities are Sege Park in Malmoe and Norra Djurgardsstaden in Stockholm, where several members of the Swedish Construction Industry's Organisation for Research and Development (SBUF) are participating in the development. The status and the potential of using fuel cell based mCHP compared to conventional heat and power production technology and other mCHP-technologies (Internal combustion engine (ICE), Stirling) is today therefore a very interesting question for both the energy and the building sector, who also ask for more knowledge within the field. This work focuses on this purpose. The main goals of this report are: 1. To give an overall description of different existing fuel cell technologies and necessary belonging system components. The fuel cell systems are discussed and evaluated based on parameters such as efficiencies, fuel flexibility, life-time, complexity, maturity and cost. The systems are compared to mCHPs based on small heat engines (Internal combustion, Stirling). 2. To give a state-of-the-art report on fuel cell based mCHPs and to describe possibilities and risks related to different technologies. 3. To guideline for future choices of system solutions suitable for different building constructions and different geographical placements. The work is limited to systems suitable for small houses (< 5 kWe) and larger residential buildings (< 50 kWe) situated in population centres/cities where infra-structures for natural gas/biogas and the national grid are available. The project has been performed by Catator AB on the request of SBUF with support from the Swedish Gas Centre (SGC AB), Skanska and Catator. The study is based on the open literature, the information given by leading fuel cell system suppliers and Catator's own knowledge and experience in the field. Today, there are in general three different fuel cell technologies that are in focus for mCHPs: Low and high temperature polymer electrolyte fuel cells (LT/HT-PEMFC) and solid oxide fuel cells (SOFC). Among these, LT-PEMFC is the most mature technology and is therefore today dominating the market (80 %). As reforming method, steam reforming with downstream atmospheric gas clean-up is the most commonly applied since this is the method resulting in the highest efficiency. In the near future, LT-PEMFC is expected to be replaced by the less mature SOFC, since the use of the latter technology opens up for significant system simplifications, higher electrical efficiencies (40-45 % instead of 30-35 %) and more efficient heat recovering. Japan is by far the world's leading country in the development and the distribution of fuel cell based mCHPs. In EU, the development in Great Britain and Germany are dominating the market. In Sweden, only three different fuel based mCHPs have been installed and tested so far. Two of those were placed in Hammarby Sjoestad in Stockholm during the period 2002-2008. The third one, called ComfortPower, was developed by Catator during 2010 and is hybridised with a heat pump module. In Japan, there are today almost 6000 fuel based mCHPs installed and in operation in private houses and public buildings. Since May 2009, there is a approx1 kWe/2 kWth commercially available system, called ENE-FARM, for operation on either natural gas/LPG/kerosene. Results such as 35-45 % and 85-90 % in electrical and total system efficiency, respectively, in combination with promising life-time data, i.e. approx 0.5-1 % degradation during almost 20 000 hours operation, have been achieved. The big remaining challenge is the cost. Today, the price of ENE-FARM is 210 kSEK without subsidies. The cost and hence so also the price is however expected to drastically decrease with on-going stack and components improvements and increasing production volumes. In year 2015, the price is expected to be around 40-60 kSEK, i.e in the same range as corresponding ICE-based mCHPs cost today, provided that the production volume reaches around 100 000 units/year/supplier. Similar results and predictions have been reported from leading system suppliers in EU. The market potential for mCHPs is strongly dependent on the geographical placement.

  6. The SSI project on decommissioning of nuclear plants - a preliminary study; SSI:s projekt avseende avveckling av kaerntekniska anlaeggningar - en foerstudie

    Energy Technology Data Exchange (ETDEWEB)

    Efraimsson, Henrik; Ehdwall, H.; Godaas, T.; Hofvander, P.; Lindhe, J.C.; Lumpus, J.; Lund, I.; Malmqvist, L.; Welleman, E

    1999-01-01

    SSI will amend and complete regulations and stipulations for nuclear plants in order to take into account issues which arise in connection with decommissioning. The objective of a pilot study, performed during 1998, was to identify the questions at issue, what the authority should control and how SSI should proceed with the work. The recommendations and the result of the pilot study are presented in this report 29 refs.

  7. The potential for solar heat for industrial processes - A preliminary study of Swedish possibilities; Solenergi i industriell processvaerme. En foerstudie av svenska moejligheter

    Energy Technology Data Exchange (ETDEWEB)

    Kovacs, Peter; Quicklund, Henrik; Pettersson, Ulrik

    2003-06-01

    This report starts with a short introduction to solar thermal energy applications in Sweden and to the utilization of energy in general in the Swedish industry. The investigation is focusing on options for industrial solar heating applications. As waste heat recovery in many cases is competing with, or might be supplemented by solar heat, this field is also given some attention in the study. The conclusions are that possible applications are numerous, mainly within food- and mechanical industries, but that low prices on energy, unused potentials for heat recovery and low awareness about the possibilities for solar heat makes the situation tough today. Increasing prices on electricity and oil and decreasing costs for solar energy combined with a continuously growing awareness about environmental issues are key factors that speak for solar heating in a longer perspective. The large potential for industrial solar heat will be in countries further south and this may offer opportunities for Swedish industry to export products and knowledge. Some companies offers large scale solutions for solar heating and research competence within material science and optics will be needed in the development of new collector types. Swedish technology for district heating- and cooling and heat storage in boreholes could also be applied in large scale industrial applications. The literature study on waste heat recovery shows that 90 % of the waste heat comes from the large energy consumers in industry: Pulp and paper, chemical, petroleum and steel and metal industries. Almost everything is used for district heating. The potential for waste heat recovery in Sweden has been largely underestimated by several studies during the nineties and the development has been quite remarkable.

  8. Ceramic materials in hydroelectric power plants - testing and working out method descriptions. Prestudy; Keramiska material i vattenkraftanlaeggningar - test och utarbetande av metodbeskrivning. Foerstudie

    Energy Technology Data Exchange (ETDEWEB)

    Forssander, Maerit (TerraCorrosion AB (SE)); Persson, Charlotte (EnergoRetea, Stockholm (SE)); Carlsson, Roger (Vattenfall Power Consultant, Stockholm (SE)); Edwardson, Wille (Jaemtkontroll, Hammerdal (SE)); Johansson, Martin (Skellefteaa Kraft (SE)); Westerlund, Erik (Fortum Power and Heat OY (FI))

    2008-01-15

    Using ceramic materials for anti-corrosion painting in Swedish hydro power plants has been done with different results. In some cases it has performed well but in other it has failed. In only some cases the tests has been followed up rigorously to learn more about the process. The result from the interviews with the user and manufacturers is that there are cases where the use of ceramics in the hydro power plants will be economically favourable. The materials are there but they have to be tested in every single application before general recommendations can be done. A literature survey has been performed. Experiences from tests with ceramics in hydro power plants in Sweden have been summarised. Manufacturers on the Swedish market have been interviewed. The results from the literature survey showed that no published result was to be found of using ceramics in hydro electric power plants in the world. It is mentioned somewhere that Three Gorges in China have been using ceramics but no results was found. The conclusion is that even though the use of ceramics in hydro power plants can be economically favourable more tests has to be done. Those tests can be done together with the manufacturers in Sweden

  9. Measuring Technique for emission of carbon dioxide - principles and costs for monitoring within the framework of the EU Emissions Trading Scheme; Maetteknik foer koldioxidutslaepp - principer och kostnader foer oevervakning inom ramen foer EU:s system foer handel med utslaeppsraetter foer koldioxid

    Energy Technology Data Exchange (ETDEWEB)

    Lau, Peter; Gustavsson, Lennart; Magnusson, Bertil; Loefdahl, Gunn-Mari

    2004-07-01

    The report describes different methods to monitor the variables, used to calculate the emission of carbon dioxide, within the framework of the Emissions Trading Scheme. All factors such as the amount of material (e.g. fuel used from supply data or measurement), the thermal value, transition- or emission factor and any oxidation factor of the material, are discussed. The main part of the report, chapters 3-5, deals with the measurements of the so called activity data, i.e. primarily the amount of fuel and carbonaceous materials which will result in CO{sub 2}- emission, and which is introduced to, or which is the result of a process in the form of a product. A background regarding metrological aspects is given, primarily how the uncertainty of the different monitoring levels of the reported CO{sub 2}-values, can be met. Chapter 6 deals with the thermal value, transition- or emission factor and the oxidation factor. As a conclusion from putting together this report, we can verify that there are many different types of scales and flow-meters (for liquids) that technically have the potential to determine the amount of fuel/material with sufficiently low measurement uncertainty, even to reach the highest verification level of 1 %. But to make this work in practice, a number of requirements must be met. The measuring instruments must be installed and maintained in such a way that the capability of the instruments really is utilized. In many cases, there must also be routines on how to handle the results from the measurements, including e.g. correction for temperature etc. A tip for those that quickly wish to find vital information is to use the compilations that can be found as figures in the report. In the compilation over 'Conditions' Chapter 4, information on the prerequisites that must be met for the measuring instrument related to the different verification (uncertainty) levels, is compiled in one diagram, with codes referring to short descriptions. Regarding the choice of instrument, essential data is compiled regarding area of use and related costs.

  10. Scope, delimitations and inquiries for environmental impact statements for an encapsulation plant and a repository for spent nuclear fuels. Forsmark; Omfattning, avgraensningar och utredningar foer miljoekonsekvensbeskrivningar (MKB) foer inkapslingsanlaeggning och slutfoervar foer anvaent kaernbraensle. Forsmark

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2005-10-15

    SKB has studied different alternatives for locating a plant for encapsulating spent fuel element for later disposal in an underground repository. SKB aims to apply for a license to build this plant close to the Central interim storage for spent fuels (Clab), at Oskarshamn. An alternative localization can be Forsmark, should the repository be localized there. This report gives a review of the work and inquiries that will form the basis for the EIS documents. A similar report is published for the Oskarshamn localization.

  11. Scope, delimitations and inquiries for environmental impact statements for an encapsulation plant and a repository for spent nuclear fuels. Oskarshamn; Omfattning, avgraensningar och utredningar foer miljoekonsekvensbeskrivningar (MKB) foer inkapslingsanlaeggning och slutfoervar foer anvaent kaernbraensle. Oskarshamn

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2005-10-15

    SKB has studied different alternatives for locating a plant for encapsulating spent fuel element for later disposal in an underground repository. SKB aims to apply for a license to build this plant close to the Central interim storage for spent fuels (Clab), at Oskarshamn. An alternative localization can be Forsmark, should the repository be localized there. This report gives a review of the work and inquiries that will form the basis for the EIS documents. A similar report is published for the Forsmark localization.

  12. Program description for the program Demonstration program for electric vehicles 2011-2015; Programbeskrivning foer programmet Demonstrationsprogram foer elfordon 2011-2015

    Energy Technology Data Exchange (ETDEWEB)

    2011-04-15

    The program's efforts aim at, firstly, from a user perspective identify and possibly eliminate barriers for large-scale introduction of electric vehicles on the Swedish market. Through various research activities based in the real environment experience may be drawn from both vehicle use and different types of behavior. Infrastructure tests on a sufficient scale give the combined effect of real-life test environments for the combination of vehicles and charging environments as well as a base for experiences of softer issues around electric vehicles. Precisely these behavioral experiences are difficult to reach via the related but more technically focused programs such as, FFI (Vehicle strategic research and innovation) and Energy efficient road vehicles. Several systems for electrification of vehicles exist today, and further initiatives for solutions are on the way. It is therefore very important to examine which systems give the highest total energy efficiency. It is also relevant for these different systems in a real environment to explore the potentials and difficulties that may arise in larger implementations

  13. Framework for detailed studies on the construction and operation of repositories for spent nuclear fuel; Ramprogram foer detaljundersoekningar vid uppfoerande och drift av slutfoervar foer anvaent kaernbraensle

    Energy Technology Data Exchange (ETDEWEB)

    2010-10-15

    This report presents a programme for the detailed investigations planned to be applied during construction and operation of the repository for spent nuclear fuel at Forsmark. The report is part of SKB's application according to the Nuclear Activities Act. The detailed investigations shall provide relevant data on and site-descriptive models for the bedrock, soil deposits and eco-system of the site in order to facilitate a step-wise design and construction of the final repository. This shall be implemented in a manner that all demands on long-term safety are fulfilled, including accurate documentation of the construction work, and so that assessments of the environmental impact of the repository can be made. For the operational phase, the detailed investigations should also provide support to the deposition process with related decisions, thereby enabling fulfilment of the design premises for the siting and construction of deposition tunnels and deposition holes, as well as for deposition of canisters, and for the subsequent backfilling and closure of the repository. The Observational Method will be applied during the construction of the repository. This method entails establishing in advance acceptable limits of behaviour regarding selected geoscientific parameters and preparing a plan with measures to keep the outcome within these limits. Predictions of expected rock properties are established for each tunnel section. The outcome after excavation is compared with the acceptable range of outcomes. Information from detailed characterization will be of essential importance for application of the Observational Method and for adapting the repository to the prevailing rock properties. SKB has for the past several decades developed methods for site characterisation, applying both above- and underground investigation techniques. Experiences from this work, put into practice during the site investigations, has resulted in a solid knowledge and understanding of the bedrock conditions at Forsmark. The detailed investigations will employ, apart from established and earlier practiced methods, also further refined and newly developed techniques and methods for investigations and modelling. The report describes the present status for investigation and modelling methodology and techniques and also provides an overview of currently planned method developments. The report also presents a proposed scenario for how the detailed investigations, in light of presently available knowledge and techniques, should be conducted. Starting points for the investigation programme in this context are the reference design of the facility and remaining uncertainties associated with the site descriptive model and underground design. The scenario high-lights those investigations which, more or less as a matter of routine work, will be performed closely coordinated with the progression of the underground excavation work. The investigations related to the development of the deposition areas will primarily be linked to the sequences pilot drilling followed by excavation of deposition tunnels, and pilot drilling with subsequent full-face drilling of deposition holes. Continuous supervision of the fulfilment of design premises and documentation of the facility are in this context important issues. Information acquired during the construction process will also provide the substantial basis for the assessment of the long-term safety of the final repository. Further, it is emphasised in the report that supplementary investigations will be performed, if the information in any respect is regarded as insufficient. Such investigations may as well be performed from the ground surface. The final repository will in different ways have an impact on the surrounding environment. Monitoring of such changes is therefore an important and integral part of the detailed investigations. Until the construction work for the final repository is initiated, the detailed investigation programme will be modified and made more circumstantial, including results of planned developments . These updates will be accounted for in ensuing versions of the programme

  14. Preconditions for the development of land-based infrastructure for liquefied natural gas (LNG / LBG); Foerutsaettningar foer utbyggnad av landbaserad infrastruktur foer flytande gas (LNG/LBG)

    Energy Technology Data Exchange (ETDEWEB)

    Stenkvist, Maria; Paradis, Hanna; Haraldsson, Kristina; Beijer, Ronja; Stensson, Peter (AaF Industry AB(Sweden))

    2011-06-15

    The conversion potential to replace oil in the energy intensive industries and diesel in heavy transport is estimated in the study to 6.8 TWh and 10 TWh per year, respectively. Several alternative fuels compete for this conversion potential. What fuels will take market share depends on several factors such as price, availability of fuel, availability of process technology and vehicles, technology development and possible future technological advances. For liquid methane to compete a new infrastructure is required that in a cost effective manner makes it possible to distribute the liquid methane to the regions where the need is the greatest. With today's distribution system, including truck delivery from import terminals in Nynaeshamn and Fredrikstad, virtually the entire southern Sweden is within reach of LNG deliveries. The study points out three nodes, Gaevle, Sundsvall and Luleaa, which is suitable for distribution of liquid methane to the central and northern Sweden. The three hubs are suitable for freight transfer to trucks as well as rail and shipping. A strategic nationwide network of refueling stations is also proposed, with a total of 18 new stations, in addition to the filling stations in southern and central Sweden that are already planned or in operation. Both the availability and use of liquid methane in Sweden today is limited. Liquid natural gas, LNG (liquefied natural gas), is primarily used as a backup to biogas plants, in a few industries and as supply for a few filling stations for compressed gas. The availability of LNG and also liquid biogas (LBG liquefied biogas), will increase in coming years. In 2011, two new LNG import terminals are put into operation in Nynaeshamn and Fredrikstad in Norway and two additional import terminals are planned in Gothenburg and Lysekil. Furthermore, two production plants for liquid biogas production have started, and four additional plants are planned, which together will produce around 0.5 TWh LBG annually. It is also likely that in the coming years there will be almost ten filling stations for liquid methane in operation in southern Sweden. The market analysis shows that several industries in the iron and steel industry are already interested in converting to LNG, mainly to cope with environmental demands. Also in the chemical industry there is an interest in using LNG, while many of the companies in the pulp and paper industry do not see LNG as a particularly attractive option. The latter have access to their own fuel and several companies have also adopted policies aiming at becoming fossil fuel free in the near future. The total conversion potential to replace oil with LNG industry amounted to 6.8 TWh/year, divided among 100 users. The greatest potential is in central Sweden (Dalarna, Gaevleborg, Vaermland) and along the Norrland coast. With today's distribution system, including truck delivery from import terminals in Nynaeshamn and Fredrikstad, virtually the entire southern Sweden is within reach of LNG deliveries. Transport distance is too long to be economically feasible to supply industries in central and northern Sweden. To provide these regions with LNG the intermodal freight terminals in Gaevle, Sundsvall and Luleaa would be able to function as strategic hubs. These three terminals covering the areas and industries that according to the market analysis is most interesting for LNG supplies, and are all well connected both by road, rail and seaway, allowing for transfer between different modes. All harbours also have the potential to qualify for receiving LNG deliveries by ship. There is also an interest in using liquid methane for heavy transport and coaches/intercity buses, because the distribution of liquid methane is cost effective, and the vehicles get longer range due to the high energy density of liquid methane. Yet, however, the availability of vehicles is limited and the infrastructure is not developed, but both the availability of vehicles and refueling stations will increase in coming years. In total, about 10 TWh/year of diesel needs to be replaced i n the heavy vehicle sector, among other reasons to meet environmental goals, which is assumed to correspond to the conversion potential in the heavy duty vehicle sector in the long term (2030). A rough estimate of the possible development means that the demand for biomethane, in the form of LBG, and CBG (compressed biogas), by 2020 will amount to 1.5 TWh/year for heavy duty transport applications and to about 1 TWh/year LNG for long-range heavy duty transport. Furthermore, it is estimated to be possible that the production capacity of LBG double by 2020, reaching around 1 TWh/year.

  15. Technique and economy to prepare biofuelled district heating plants for power production; Teknik och ekonomi foer att foerbereda nya biobraensleeldade vaermeverk foer elproduktion

    Energy Technology Data Exchange (ETDEWEB)

    Steinwall, Pontus; Nystroem, Johan; Nystroem, Olle; Svensson, Sven-Aake [Sycon Energikonsult AB, Malmoe (Sweden)

    1999-10-01

    This report deals with the technique and the economic possibilities to prepare biofuelled district heating plants for power production. In the study three types of plants are examined: (1) 10 MW Heat Boiler with uncooled grate; (2) 50 MW Heat BFB-boiler; (3) 100 MW Heat CFB-boiler. (1) 10 MW boiler with uncooled grate: For this plant we don't recommend any specific preparation to be made with regard to the boiler equipment. Instead the layout of the plant should take into account that a future conversion may involve a complete change of the hot water boiler to a steam boiler and installation of a turbine. This means that the hot water boiler should be placed near a wall and that space should be reserved for a new steam boiler with economiser. A specific preparation that can be recommended is however to invest in a flue gas fan with capacity to overcome the increased pressure loss of the economiser being an integrated part of the new boiler. (2) 50 MW BFB-boiler: If it is believed or the plan is that the plant will be converted to power production within five years, the BFB-boiler should be based on a steam boiler equipped with a superheater from start of the project. If it is likely that conversion will be done later, the plant should still be based on a steam boiler but in this case without the superheater being installed. During the time to conversion the boiler is equipped and operated such that the heat is dissipated as hot water. The reason not to produce steam from start is that a district heating plant working with steam consumes more electricity than one working with hot water. The boiler should be prepared in terms of design and space for installation of the superheater. The extra cost for the preparation is approximately six per cent of the total cost for the whole plant. (3) 100 MW CFB-boiler: The biggest plant with a heat output of 100 MW is here recommend to be prepared for power production if there are plans to do so, without bearing to the time constraints mentioned in conjunction with the 50 MW boiler. The main reasons being that these plant size boilers are usually built exclusively for steam production. The preparation may include reserving space for a superheater or installing it from start. In the former case the boiler will dissipate heat as hot water, whereas in the latter case heat will be produced as steam. The heat will be transferred to the district heat system via a heat exchanger and a dump condenser respectively. In the report we present an algorithm to calculate the economic conditions for a preparation. The conditions for electricity production changes very quickly and are therefore very hard to predict. The extra costs that preparations bring to the project must primarily be seen as insurance against changing conditions.

  16. Preconditions for the development of land-based infrastructure for liquefied natural gas (LNG / LBG); Foerutsaettningar foer utbyggnad av landbaserad infrastruktur foer flytande gas (LNG/LBG)

    Energy Technology Data Exchange (ETDEWEB)

    Stenkvist, Maria; Paradis, Hanna; Haraldsson, Kristina; Beijer, Ronja; Stensson, Peter (AaF Industry AB(Sweden))

    2011-06-15

    The conversion potential to replace oil in the energy intensive industries and diesel in heavy transport is estimated in the study to 6.8 TWh and 10 TWh per year, respectively. Several alternative fuels compete for this conversion potential. What fuels will take market share depends on several factors such as price, availability of fuel, availability of process technology and vehicles, technology development and possible future technological advances. For liquid methane to compete a new infrastructure is required that in a cost effective manner makes it possible to distribute the liquid methane to the regions where the need is the greatest. With today's distribution system, including truck delivery from import terminals in Nynaeshamn and Fredrikstad, virtually the entire southern Sweden is within reach of LNG deliveries. The study points out three nodes, Gaevle, Sundsvall and Luleaa, which is suitable for distribution of liquid methane to the central and northern Sweden. The three hubs are suitable for freight transfer to trucks as well as rail and shipping. A strategic nationwide network of refueling stations is also proposed, with a total of 18 new stations, in addition to the filling stations in southern and central Sweden that are already planned or in operation. Both the availability and use of liquid methane in Sweden today is limited. Liquid natural gas, LNG (liquefied natural gas), is primarily used as a backup to biogas plants, in a few industries and as supply for a few filling stations for compressed gas. The availability of LNG and also liquid biogas (LBG liquefied biogas), will increase in coming years. In 2011, two new LNG import terminals are put into operation in Nynaeshamn and Fredrikstad in Norway and two additional import terminals are planned in Gothenburg and Lysekil. Furthermore, two production plants for liquid biogas production have started, and four additional plants are planned, which together will produce around 0.5 TWh LBG annually. It is also likely that in the coming years there will be almost ten filling stations for liquid methane in operation in southern Sweden. The market analysis shows that several industries in the iron and steel industry are already interested in converting to LNG, mainly to cope with environmental demands. Also in the chemical industry there is an interest in using LNG, while many of the companies in the pulp and paper industry do not see LNG as a particularly attractive option. The latter have access to their own fuel and several companies have also adopted policies aiming at becoming fossil fuel free in the near future. The total conversion potential to replace oil with LNG industry amounted to 6.8 TWh/year, divided among 100 users. The greatest potential is in central Sweden (Dalarna, Gaevleborg, Vaermland) and along the Norrland coast. With today's distribution system, including truck delivery from import terminals in Nynaeshamn and Fredrikstad, virtually the entire southern Sweden is within reach of LNG deliveries. Transport distance is too long to be economically feasible to supply industries in central and northern Sweden. To provide these regions with LNG the intermodal freight terminals in Gaevle, Sundsvall and Luleaa would be able to function as strategic hubs. These three terminals covering the areas and industries that according to the market analysis is most interesting for LNG supplies, and are all well connected both by road, rail and seaway, allowing for transfer between different modes. All harbours also have the potential to qualify for receiving LNG deliveries by ship. There is also an interest in using liquid methane for heavy transport and coaches/intercity buses, because the distribution of liquid methane is cost effective, and the vehicles get longer range due to the high energy density of liquid methane. Yet, however, the availability of vehicles is limited and the infrastructure is not developed, but both the availability of vehicles and refueling stations will increase in coming years. In total, about 10 TWh/year of diesel needs to

  17. Maritime prerequisites for development of infrastructure for liquefied natural gas (LNG / LBG); Maritima foerutsaettningar foer utbyggnad av infrastruktur foer flytande gas (LNG/LBG)

    Energy Technology Data Exchange (ETDEWEB)

    Gahnstroem, Johan; Molitor, Edvard; Raggl, Karl-Johan; Sandkvist, Jim [SSPA Sweden AB, Goeteborg (Sweden)

    2011-06-15

    This study has provided an initial picture of where the most interesting ports and areas available for future expansion of a maritime infrastructure for LNG. On the basis of supplying vessels with LNG as fuel, from a long term perspective, we recommend locating LNG terminals in or near major ports and around the big ship routes. Given the current age distribution of ships operating waters of the Baltic Sea, almost 20% of the vessels are 30-40 years old and likely to be replaced by 2015 - 2020. Thus, there is a potential for newly built ships will be equipped with LNG operation. Selected criteria s; Size of the LNG terminal and hence the need for the size of the fairway and the area of land. Proximity to traffic routes with much ship traffic. Proximity to the major port. Proximity to consumers on the land side. On the basis of selected criteria and analyzed for possible location of the terminal it can be noted that a number of Swedish ports are found suitable. For example, ports of Sundsvall, Gothenburg and Helsingborg has been identified as suitable, but with different starting point and different types and sizes of terminals possible.

  18. Environmental guidelines for reuse of ash in civil engineering applications - including criteria for Sb and As; Miljoeriktlinjer foer askanvaendning i anlaeggningsbyggande - inklusive haltkriterier foer Sb och As

    Energy Technology Data Exchange (ETDEWEB)

    Bendz, David; Wik, Ola (Swedish Geotechnical Inst., Linkoeping (Sweden)); Jones, Celia; Pettersson, Michael; Elert, Mark (Kemakta, Stockholm (Sweden))

    2009-07-15

    Swedish producers, authorities and users have acknowledged the need for common environmental guidelines for residues. The objective of this project has been to develop a proposal for common environmental guidelines for reuse of ash in civil engineering applications. The project has a narrow risk assessment with application on an strictly nearfield, local perspective and focus on a limited set of substances. Health aspects for construction workers are not covered in the project. The starting point in the risk assessment is the assumption that ashes may be used just like any conventional construction material. Special requirements or regulations regarding precautionary actions in the handling of ashes, regarding the site or surroundings will be avoided. The guiding principle has been the precautionary principle: reuse of ash is acceptable only if it constitute an insignificant risk to health and environment. The calculations are based on defined emission- and exposure scenarios. The concept of insignificant risk imply that the impact in the defined points of compliance does not exceed established health- and environmental criteria. The model address health risks associated with spreading of particles and exposure by dust, oral intake, dermal contact and intake by vegetables or wild grown berries and consumption of ground water. Off-site environmental effects in surface waters and in soil as well as health- and environmental risks in the post use phase are also considered. Exposure by dust is addressed in the same way as in the Swedish Environmental Protection Agency's guidelines for contaminated soil [12]. The guidelines values for exposure by dust, oral intake, dermal contact and intake by vegetables or wild grown berrys are total content, whereas the guidelines for exposure by consumption of ground water or environmental effects in surface waters are based on leaching properties of the ash. The guidelines rely on a conceptual model, defined emissions and exposure scenarios including exposure pathways and points of compliance. Risk evaluation becomes an issue of comparing the estimated (-modeled) increased concentrations at specified target points with general human and environmental toxicological criteria. Guidelines have been calculated for two different types of constructions, with or without an impermeable (asphalt-) pavement that prevents rain water from infiltrating into the road. Also the possible exposure of intruding ground water has been taken into account. A set of ashes, for which data on total content and leachability was available in the ALLASKA and MALTE database, have been classified according to three categories of applications/situations. The results show that due to lack of data it could not be assessed whether naphthalene, bens(a)pyren and selen in ashes imply an insignificant risk or not. Cadmium, copper, chromium, mercury, molybdenum, nickel and zinc generally shows a large margin to the calculated guidelines for total content and leachability for most ashes. Thus, ashes in constructions constitute an acceptable risk with respect to these elements. Antimony and lead in ashes fall above the guideline values for leaching in some cases. The total content of arsenic in many ashes exceeds the guideline values when used in an unpaved construction even when taking the oral bioavailabity of arsenic in ashes in consideration. To a lesser extent this also holds for total content of lead. Accordingly, it can not be excluded that the reuse of some ashes in some applications may imply a certain risk. Spreading as dust, deposition on vegetables and the subsequent intake has reveled itself as an important exposure pathway. Little data, theory and models are available on dust generation and transport, the calculations made here are rough and conservative. Also, guidelines for the ash construction left in place in the post use phase are difficult to determine. The health risk associated with intake of vegetables and accidentally oral intake are crucial. In both cases arsenic sets the limits. Toxicological criteria can be critical and choosing toxicological based criteria instead of current drinking water limits reduces calculated risks with antimony. In Sweden discrete risk factors are used for evaluating drinking water compared other exposure pathways for arsenic. A practice that has an significant effect on calculated risks. Model calculations indicate that fluoride constitute only an insignificant risk. Chloride and sulfate in ashes may, depending on the construction, constitute a certain effect with respect to the drinking water quality in a local well. The comparison between the calculated guideline values and the ash data that was available showed that the majority of the ashes could be used in a road construction without implying a significant risk to health or environment.

  19. Environmental guidelines for reuse of ash in civil engineering applications - including criteria for Sb and As; Miljoeriktlinjer foer askanvaendning i anlaeggningsbyggande - inklusive haltkriterier foer Sb och As

    Energy Technology Data Exchange (ETDEWEB)

    Bendz, David; Wik, Ola (Swedish Geotechnical Inst., Linkoeping (Sweden)); Jones, Celia; Pettersson, Michael; Elert, Mark (Kemakta, Stockholm (Sweden))

    2009-07-15

    Swedish producers, authorities and users have acknowledged the need for common environmental guidelines for residues. The objective of this project has been to develop a proposal for common environmental guidelines for reuse of ash in civil engineering applications. The project has a narrow risk assessment with application on an strictly nearfield, local perspective and focus on a limited set of substances. Health aspects for construction workers are not covered in the project. The starting point in the risk assessment is the assumption that ashes may be used just like any conventional construction material. Special requirements or regulations regarding precautionary actions in the handling of ashes, regarding the site or surroundings will be avoided. The guiding principle has been the precautionary principle: reuse of ash is acceptable only if it constitute an insignificant risk to health and environment. The calculations are based on defined emission- and exposure scenarios. The concept of insignificant risk imply that the impact in the defined points of compliance does not exceed established health- and environmental criteria. The model address health risks associated with spreading of particles and exposure by dust, oral intake, dermal contact and intake by vegetables or wild grown berries and consumption of ground water. Off-site environmental effects in surface waters and in soil as well as health- and environmental risks in the post use phase are also considered. Exposure by dust is addressed in the same way as in the Swedish Environmental Protection Agency's guidelines for contaminated soil [12]. The guidelines values for exposure by dust, oral intake, dermal contact and intake by vegetables or wild grown berrys are total content, whereas the guidelines for exposure by consumption of ground water or environmental effects in surface waters are based on leaching properties of the ash. The guidelines rely on a conceptual model, defined emissions and exposure scenarios including exposure pathways and points of compliance. Risk evaluation becomes an issue of comparing the estimated (-modeled) increased concentrations at specified target points with general human and environmental toxicological criteria. Guidelines have been calculated for two different types of constructions, with or without an impermeable (asphalt-) pavement that prevents rain water from infiltrating into the road. Also the possible exposure of intruding ground water has been taken into account. A set of ashes, for which data on total content and leachability was available in the ALLASKA and MALTE database, have been classified according to three categories of applications/situations. The results show that due to lack of data it could not be assessed whether naphthalene, bens(a)pyren and selen in ashes imply an insignificant risk or not. Cadmium, copper, chromium, mercury, molybdenum, nickel and zinc generally shows a large margin to the calculated guidelines for total content and leachability for most ashes. Thus, ashes in constructions constitute an acceptable risk with respect to these elements. Antimony and lead in ashes fall above the guideline values for leaching in some cases. The total content of arsenic in many ashes exceeds the guideline values when used in an unpaved construction even when taking the oral bioavailabity of arsenic in ashes in consideration. To a lesser extent this also holds for total content of lead. Accordingly, it can not be excluded that the reuse of some ashes in some applications may imply a certain risk. Spreading as dust, deposition on vegetables and the subsequent intake has reveled itself as an important exposure pathway. Little data, theory and models are available on dust generation and transport, the calculations made here are rough and conservative. Also, guidelines for the ash construction left in place in the post use phase are difficult to determine. The health risk associated with intake of vegetables and accidentally oral intake are crucial. In both cases arsenic sets the limits. Toxicological criter

  20. Geoscientific programme for investigation and evaluation of candidate sites for the deep repository; Geovetenskapligt inriktat program foer undersoekning och utvaerdering av platser foer djupfoervaret

    Energy Technology Data Exchange (ETDEWEB)

    Stroem, Anders; Almen, K.E.; Andersson, Johan; Christiansson, R.; Follin, S.; Pettersson, Stig; Selroos, J.O

    2000-08-01

    Methods and technology for the geoscientific studies of the rock are the main subjects for this report, but programmes for studying the surface ecosystems and other conditions at the surface are also described.

  1. Framework for detailed studies on the construction and operation of repositories for spent nuclear fuel; Ramprogram foer detaljundersoekningar vid uppfoerande och drift av slutfoervar foer anvaent kaernbraensle

    Energy Technology Data Exchange (ETDEWEB)

    2010-10-15

    This report presents a programme for the detailed investigations planned to be applied during construction and operation of the repository for spent nuclear fuel at Forsmark. The report is part of SKB's application according to the Nuclear Activities Act. The detailed investigations shall provide relevant data on and site-descriptive models for the bedrock, soil deposits and eco-system of the site in order to facilitate a step-wise design and construction of the final repository. This shall be implemented in a manner that all demands on long-term safety are fulfilled, including accurate documentation of the construction work, and so that assessments of the environmental impact of the repository can be made. For the operational phase, the detailed investigations should also provide support to the deposition process with related decisions, thereby enabling fulfilment of the design premises for the siting and construction of deposition tunnels and deposition holes, as well as for deposition of canisters, and for the subsequent backfilling and closure of the repository. The Observational Method will be applied during the construction of the repository. This method entails establishing in advance acceptable limits of behaviour regarding selected geoscientific parameters and preparing a plan with measures to keep the outcome within these limits. Predictions of expected rock properties are established for each tunnel section. The outcome after excavation is compared with the acceptable range of outcomes. Information from detailed characterization will be of essential importance for application of the Observational Method and for adapting the repository to the prevailing rock properties. SKB has for the past several decades developed methods for site characterisation, applying both above- and underground investigation techniques. Experiences from this work, put into practice during the site investigations, has resulted in a solid knowledge and understanding of the bedrock conditions at Forsmark. The detailed investigations will employ, apart from established and earlier practiced methods, also further refined and newly developed techniques and methods for investigations and modelling. The report describes the present status for investigation and modelling methodology and techniques and also provides an overview of currently planned method developments. The report also presents a proposed scenario for how the detailed investigations, in light of presently available knowledge and techniques, should be conducted. Starting points for the investigation programme in this context are the reference design of the facility and remaining uncertainties associated with the site descriptive model and underground design. The scenario high-lights those investigations which, more or less as a matter of routine work, will be performed closely coordinated with the progression of the underground excavation work. The investigations related to the development of the deposition areas will primarily be linked to the sequences pilot drilling followed by excavation of deposition tunnels, and pilot drilling with subsequent full-face drilling of deposition holes. Continuous supervision of the fulfilment of design premises and documentation of the facility are in this context important issues. Information acquired during the construction process will also provide the substantial basis for the assessment of the long-term safety of the final repository. Further, it is emphasised in the report that supplementary investigations will be performed, if the information in any respect is regarded as insufficient. Such investigations may as well be performed from the ground surface. The final repository will in different ways have an impact on the surrounding environment. Monitoring of such changes is therefore an important and integral part of the detailed investigations. Until the construction work for the final repository is initiated, the detailed investigation programme will be modified and made more circumstantial, including results of planned developments

  2. Tool for calculation of the life cycle cost for different heating systems in one-family houses; Verktyg foer beraekning av livscykelkostnaden foer olika vaermesystem i smaahus

    Energy Technology Data Exchange (ETDEWEB)

    Larsson, Jenny; Strand, Hanna [Lund Inst. of Technology (Sweden). Dept. of Chemical Engineering

    2003-12-01

    The Excel-based tool can be used by the consumer and covers the following heating systems: direct electric heating (alt. in combination with an air source heat pump), electric boiler (alt. in combination with an air source heat pump), fuel oil boiler, wood pellets boiler, natural gas boiler, exhaust air heat pump, ground source heat pump (surface soil or boreholes) and district heating. A few case studies are reviewed in order to illustrates the use of the tool.

  3. Model for safety reports including descriptive examples; Mall foer saekerhetsrapporter med beskrivande exempel

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1995-12-01

    Several safety reports will be produced in the process of planning and constructing the system for disposal of high-level radioactive waste in Sweden. The present report gives a model, with detailed examples, of how these reports should be organized and what steps they should include. In the near future safety reports will deal with the encapsulation plant and the repository. Later reports will treat operation of the handling systems and the repository.

  4. Heat storage in gypsum. Final report to the Energy Agency; Vaermelagring i Gips. Slutrapport foer Energimyndigheten

    Energy Technology Data Exchange (ETDEWEB)

    Chaudhuri, Punya (Process Improvements, Plankgatan 26, Norrkoeping (Sweden)); Kindh, Torgny (Environnet AB, Norrkoeping (Sweden)); Lawrence, David; Wahlstroem, Krister (Dept. of Physics, Chemistry and Biology, Linkoeping Univ., Linkoeping (Sweden))

    2007-06-15

    The Swedish Energy Agency's project 'energy storage in gypsum', began in April 2007 and finished a year later. The objective was to demonstrate the potential of using gypsum to store and retrieve low-grade heat at a pilot scale (i.e. using 200 kg of gypsum). Gypsum undergoes a reversible reaction with water in which it stores or releases energy. Preliminary work indicated that when using commercially available gypsum powder, a packed bed would not allow sufficient mass or heat transfer. Preliminary work also revealed that simple fluidization was not possible with the very fine particles: stirred fluidization was the solution used. A pilot-scale unit was constructed (essentially a closed tank about 1 m in diameter and 1 m high). To store energy, hot, dry air is contacted with the gypsum to bring the temperature of the powder to about 110 deg C. Once the powder is 'dried' it is returned to room temperature and isolated from the surroundings - in this state energy is stored indefinitely. To recover the heat, water was atomized, mixed with warm air (to vaporize the water) and reacted with the gypsum. Typically we were able to recover about 6 kWh of energy, which is only about 20% of what is possible. This is partly the result of too little insulation on the reactor and a hesitation to over-hydrate the gypsum (which would result in solid plaster). We anticipate that this will at least double with increased operating experience. Overall gypsum behaves at a pilot scale as was expected; in terms of energy storage for space heating, it shows great promise. Our experiences to date have shown that using gypsum with a larger particle size (to allow simple fluidization) is an important improvement.

  5. Production conditions of bioenergy in Swedish agriculture; Produktionsfoerutsaettningar foer biobraenslen inom svenskt jordbruk

    Energy Technology Data Exchange (ETDEWEB)

    Boerjesson, Paal

    2007-05-15

    The overall aim of this report is to analyse and describe the production conditions of bioenergy in Swedish agriculture and how these conditions can vary due to different factors. The conclusion is that the potential for producing bioenergy in Swedish agriculture will vary significantly depending on which energy crops are cultivated, which type of agricultural land is utilised and the geographical location of the production. Furthermore, different crop residues and other by-products from agriculture, utilised for energy purposes, will affect the bioenergy potential. To which extent this physical/biological potential will be utilised in the future depends mainly on economic conditions and financial considerations. These aspects are not included in this study. The report starts with a description of current crop production in Sweden, expressed in energy terms, the energy needed for this production and the regional variation in crop yields. The local variations in cultivation conditions are also analysed, as well as variations over the area of a single farm. Another aspect discussed is the production conditions of energy crops on previous farm land not currently utilised. The report includes an analysis of the potential supply of crop residues and other by-products for energy purposes, such as straw, tops and leaves of sugar beets, manure etc, as well as the regional variation of these residues and by-products. A similar analysis is made of the regional production conditions and potential biomass yields of traditional crops and new energy crops. These analyses also include energy balance calculations showing the energy input needed for different production systems in relation to the harvested biomass yield, and the potential for increased biomass yields in the future. Based on the findings of these various analyses, calculations are made showing some examples of how much bioenergy Swedish agriculture can deliver, depending on how much agricultural land is utilised for energy production, the geographical location of this land and its productivity, and which energy crops are grown. The report ends with a discussion of the environmental impact of an increased implementation of different bioenergy production systems.

  6. Policy Instruments for an Increased Supply of Energy Crops; Styrmedel foer ett utoekat utbud av biobraensle

    Energy Technology Data Exchange (ETDEWEB)

    Stenkvist, Maria; Widmark, Annika; Wiklund, Sven-Erik; Liljeblad, Anna

    2009-05-15

    At present, energy crops are not commonly used as fuel for heat and power production in Sweden, but as a result of increased competition for biomass, the interest for agricultural fuels such as willow, straw, reed canary grass and hemp increases. The purpose of this study is through a qualitative study that includes a literature study as well as case studies carried out by interviews, with respondents in the agriculture- and energy sectors highlight the conditions for increased production and use of energy crops. The main objective is to propose relevant policy instruments that could increase the production and use of energy crops. The purpose with the proposed policy instruments is that they should serve as a basis for discussions with politicians and authorities regarding the supply of bio fuels through the use of energy crops. The result of the study indicates that the main obstacle for increasing the production and use of energy crops is that the cultivation of energy crops today is unprofitable. To reduce the production costs it is necessary to improve the competitiveness of energy crops, primarily in relation to wood chips. The study shows that there is a potential for reduction of production costs through development of the logistics chain. Policy measures promoting the use of bio fuels exists today, but are not fully used to increase the share of energy crops in the bio fuel energy mix. The reason for this is that they are generally not as cost efficient as alternative bio fuels. It is important that competition issues are addressed, both regarding competition issues between different bio fuels, but also competition issues between various energy crops that exists today. Further obstacles to accelerate the introduction of energy crops at the market are high investment costs for establishment of some of the energy crops. From the analysis in this study, the following policy instruments are suggested in order to increase the production and the use of energy crops within the power and heat sector 1. Financing of practical research and development of the logistics chain including harvesting, bundling, compression, preparation, feeding in (to the power plant), storage and transportation of energy crops 2. Investment support to farmers cultivating energy crops with high investment costs 3. Introduction of a national program for development of regional projects supporting cooperation between actors on the energy crop bio fuel market. 1. Financing of Practical Research and Development of the Logistics Chain To reduce the production costs in order to increase the profitability, support for practical research and development of the logistics chain, which includes harvesting, bundling, compression, preparation, feeding in (to the power plant), storage and transportation of energy crops, is suggested. For the success of practical research, it is important that the research is performed in close cooperation between farmers, entrepreneurs within the logistics chain dealing with harvesting, storage and transport of energy crops and energy companies. One way to achieve such cooperation is that the energy companies take the initiative for common research efforts, since neither the farmers nor the contractors on the market for energy crops normally take part in research projects. Neither do they normally have experience of applying for research funds. Common research efforts are also important to find cost-effective solutions for the entire logistics chain. This means that the financing for the research could be a combination of public support and support from the heat and power sector. 2. Investment Support to Farmers Cultivating Energy Crops with High Investment Costs In order to initially increase the interest in energy crops, contribute to establish a market for production of energy crops and manage high initial investment costs, problem that farmers face at the transition from traditional production of grain to energy crops, a development of the existing investment support scheme to include an additional number of energy crops are suggested. One of the purposes by including an additional number of energy crops within the scheme is that the energy crops with the best condition with respect to the farmer's competence, the logistics entrepreneur's technical preconditions, different quality of the soils and the suitability of different energy crops in different geographical areas can be used in order to increase production and use of energy crops. 3. Introduction of a National Program for Development of Regional Projects Supporting Cooperation between Actors on the Energy Crop Bio Fuel Market. Experiences from bio energy projects both in Sweden and in Finland shows that regional cooperation projects between energy companies, farmers, entrepreneurs within the logistics chain and other actors may by cooperation achieve increased production and use of energy crops.

  7. Energy Balance of Bio-ethanol - A Review; Energibalans foer bioetanol - en kunskapsoeversikt

    Energy Technology Data Exchange (ETDEWEB)

    Boerjesson, Paal

    2006-03-15

    This review presents a synthesis of various Swedish and international studies on the bio-ethanol energy balance, and an analysis of how and why their results differ. Other methods, such as exergy- and emergy analysis, are discussed and compared with the energy analysis method. Finally, potential improvements of the energy efficiency in bio-ethanol production are discussed. The energy balance is here expressed as the ratio of the energy content of the fuel to the primary energy input for the entire production cycle of the fuel. The energy balance of ethanol from cereals is, on average, 1.6, and varies between 0.7 and 2.8. Corresponding average figures for ethanol from corn, sugar beets and lignocellulosic biomass (e.g. energy forest) are 1.4, 1.8 and 3.2, respectively. There are several reasons why the energy balances differ between the different studies, even where the feedstock is identical. The sources of differences can be divided between those related to differences in local and geographical conditions, and those related to differences in the methodological approach applied. Depending on the definition of the system that is studied (systems boundaries), and how the energy input is divided between the ethanol and the by-products generated in the process (allocation methods), the energy balance may differ by a factor of 5. Thus, it is impossible to make reliable and fair comparisons between different studies unless all assumptions are clearly presented and defined. Results from exergy- and emergy analysis of bio-ethanol often show significantly different results from those presented in energy analyses. It is, however, not useful to compare these different results since the various methods have different focuses and are answering different questions. The energy balance of cereal-based ethanol can be improved by more efficient cultivation methods, but mainly by improved conversion processes. One possibility is by using bio-refineries where not only ethanol but also biogas, heat and electricity are produced from cereals and, for example, energy forest.

  8. Consequences for invertebrates of the use of forest fuel; Skogsbraensleanvaendningens konsekvenser foer ryggradsloesa djur

    Energy Technology Data Exchange (ETDEWEB)

    Weslien, J.

    1994-10-01

    This report describes the consequences of increased use of forest fuel for, primarily, red-listed (i.e. disappeared, threatened, vulnerable, rare or care demanding) invertebrates in Sweden. The report concentrates in invertebrate animals that largely live in parts of trees, trees or in tree biotopes that today are not utilised in conventional forestry but which to varying extents may be affected by increased removal of forest fuel. Certain environments should not in any way be utilised for removal of fuel, whereas others can be used provided that relevant consideration is taken to nature. Felling residues such as processor piles are of little value for red-listed species. Lying or standing trees left in the felling areas are of great importance for invertebrates in the category `care demanding` and should not be removed. Return of stabilised slowly available ashes have so far had little effect on the soil fauna studied, but there are no data on long-term effects. Fire-damaged trees are very valuable and should be saved. In the event of felling large burnt over areas, a selection of fire-damaged trees and groups of trees should be left. Forest edges, certain rocky outcrops in arable fields, and wooded meadows are frequently very species-rich environments and should usually not be used. In environments where overgrowing is a problem removal of fuel in the form of a careful thinning is positive for the invertebrate fauna. Old deciduous trees, both in the forest and in the cultivated countryside are valuable environments for many species and should be saved. If the interest in biofuels leads to deciduous trees being given extra space this will be positive for the fauna, provided that a continuity of old and dead deciduous trees is assured. Requirements for consideration to nature differ slightly in different parts of Sweden. 12 refs, 3 figs, 3 tabs

  9. New environmental taxes in Finland; Nya miljoeavgifter i Finland - konsekvenser foer bioenergimarknaden

    Energy Technology Data Exchange (ETDEWEB)

    Fredriksson, T.

    1997-12-31

    This conference paper discusses the impact of environmental taxes in Finland upon the use of bioenergy. Since 1990 an extra excise duty has been charged on fossil fuels and peat fuels. From 1994 this tax has been bound to the carbon and energy contents. From 1997 all environmental taxation were removed from the electricity production while consumption was taxed according to two tariffs, one for industry and one for the service sector and private households. From 1998 the forest industry and other electricity producers/distributors will not pay electricity tax for their electricity consumption if this comes from wood fuels. The production of electricity from peat will receive public financial support only for plants below 40 MW. Unlike peat fuel, and in spite of the annual increase in environmental taxes, the use of wood fuels has not expanded greatly. Forest chips are expected to gain on peat and oil. The present taxation and the refund of electricity tax provide for increased use of wood fuels, in the long run partly at the expense of peat. Finnish energy policy has been lacking confidence in the permanence of the energy solutions. Co-application of peat and wood fuels is likely to increase since the existing cogeneration plants can use both. Whether or not the present trend to increased wood fuel consumption continues depends on the tax policy and technological development. Finnish energy policy has shown a commitment to support funds for technological development. 2 figs., 2 tabs.

  10. Energy Choices. Choices for future technology development; Vaegval Energi. Vaegval foer framtidens teknikutveckling

    Energy Technology Data Exchange (ETDEWEB)

    Billfalk, Lennart; Haegermark, Harald (eds.)

    2009-03-15

    In the next few years political decisions lie ahead in Sweden and the EU regarding the detailed formulation of the EU's so-called 20-20-20 targets and accompanying EU directives. Talks on a new international post-2012 climate agreement are imminent. The EU targets involve reducing emissions of greenhouse gases by 20 per cent, increasing the proportion of renewable energy by 20 per cent and improving energy efficiency by 20 per cent - all by the year 2020. According to the analysis of the consequences of the targets that the Technology Development Group has commissioned, the reduction in carbon dioxide in the stationary energy system in the Nordic region will be 40 per cent, not 20 per cent, if all the EU targets are to be achieved. The biggest socio-economic cost is associated with achieving the efficiency target, followed by the costs associated with achieving the renewable energy target and the CO{sub 2} target. On the basis of this analysis and compilations about technology development, we want to highlight the following important key issues: Does Sweden want to have the option of nuclear power in the future or not? How to choose good policy instruments for new electricity production and networks? How best to reduce the carbon dioxide emissions of the transport sector and how to develop control and incentive measures that promote such a development? We are proposing the following: Carry out a more in-depth analysis of the consequences of the EU targets, so that the policy instruments produce the best combination as regards climate, economy and security of supply. To achieve the EU targets would require large investments in electricity production, particularly renewable energy, and in electricity networks. Internationally harmonized policy instruments and other incentive measures are required in order for the necessary investments to take place. The policy instruments have to provide a level playing field for all players in the energy sector. The large investments will present Swedish industry with a good opportunity to develop new technology and new system solutions. Speed up the permitting processes for plants and energy production and electricity networks. Prepare a long-term plan regarding decisions on strengthening the electricity networks, as well as a time schedule for associated decisions and processes. Furthermore, a joint plan regarding foreign connections should be developed for the Nordic region. Lobby for an EU-wide certificate system for renewable energy. The EU target on renewable energy will result in improved opportunities for Sweden to export electricity, but the certificate system currently in force in Sweden will result in the future surplus in electricity production being paid for by Swedish electricity customers. Carry out an immediate change in legislation to facilitate planning for new nuclear power. This is necessary if Sweden wants to replace electricity production from the two oldest nuclear power plants, which may have to close around 2020- 2025 for financial reasons. Power companies need to plan their investments and the safety authorities need to make their preparations. Since other existing nuclear power plants will be decommissioned on a relatively frequent basis in the period 2035-2045, there are even more reasons to keep open the option of new nuclear power. Invest heavily in Sweden in research, development, demonstration and implementation of new technology and systems in several areas. Swedish companies and universities should continue their investments in the area of CCS (capture and storage of carbon dioxide). This is necessary in order for it to be possible to evaluate the consequences of the technology for Sweden and its usefulness and safety in the longer term. A breakthrough is envisaged after 2020 and will in the first instance concern CCS at power stations, but CCS may also be applied to large point sources of carbon dioxide emissions from energy intensive industry. Formulate a national vision for plug-in hybrids and electric cars in Sweden. According to the proposal from the Energy Users Group, this means that Sweden will have 600,000 plug-in hybrids and electric cars in 2020. This could radically reduce the carbon dioxide emissions, oil consumption and energy consumption of the transport sector, as well as develop Swedish industry. The consequences for electricity production and electricity networks in Sweden will be moderate. Some infrastructure investments would be required, but this would also create some opportunities for energy storage in the electricity system. Introduce second-generation biofuels to reduce competition for land for food production, and to make production of biofuels more energy efficient. This will require political decisions in the next few years, particularly regarding policy instruments and regarding support for research and demonstration, even though commercial application of second-generation biofuels lies beyond 2020.

  11. Regulations for storage and transport of biofuels; Regler foer foervaring och transport av biodrivmedel

    Energy Technology Data Exchange (ETDEWEB)

    Elmefors, Elin; Karlsson, Emelie

    2012-07-01

    The trend towards a fossil-free agriculture is of great importance. Partly due to the fossil fuel energy is finite but also because of the importance of agriculture to reduce the environmental impact of food production. There are also an economic aspect. It is likely that in the near future will be economically burdensome being limited to fossil fuels. Therefore, it is important that agriculture is well prepared to move towards alternative biofuels. The introduction of alternative fuels in agriculture as a substitute for diesel has proven more difficult than in other industrial sectors, depending on both the specific technical conditions and a regulatory framework that may not have been written with agriculture as target. LRF, Farmers' Association, has instructed the JTI, Swedish Institute of Agricultural and Environmental Engineering, identifying which rules, laws and regulations that will affect farmers at the farm level that for their own use stores and manages one of the most likely future biofuels for agricultural tractors.

  12. Evaluation of methods for characterizations of deposits; Utvaerdering av metoder foer avlagringsmaetningar

    Energy Technology Data Exchange (ETDEWEB)

    Hoegberg, J.; Bjoerkman, P. [Vattenfall Utveckling AB, Aelvkarleby (Sweden)

    2001-11-01

    In boilers there are problems with deposits on parts exposed to the flue gas, in particular on heat exchanging parts and to an increasing extent with the changeover to the use of biofuels and wood waste fuels. In order to solve the problems deposits are examined by using a deposit probe and taking deposit samples from the interior of the boiler. In this report an evaluation of methods of analysis is performed based on experiences in both literature and laboratory work. The evaluation forms the basis of an instruction for deposit measurements in 'Vaermeforsks Maethandbok'. The procedure for use of deposit probes is treated as well as the importance of careful and well planned sample preparation before analysis. In the literature a large number of methods used for analysis of deposits from flue ashes and similar applications are found. The methods include chemical analyses of solids and liquids, analysis of crystal structures, thermal properties and the solid mechanics of the materials. Several methods, for example SEM-EDX, XRF, ICP, IC and methods for determining the mechanical and thermal properties are suited for a survey examination of a deposit, while more specialised methods with higher resolution can add information but require a clear framing of a question and in practice are suited for only separate samples. Examples from the latter category are AES, ESCA and TOF-SIMS.

  13. Investigation of the responsibility for decommissioning of the Ranstad plant; Utredning av ansvaret foer Ranstadsverkets avveckling

    Energy Technology Data Exchange (ETDEWEB)

    Svensson, Haakan; Grundfelt, Bertil [Kemakta Konsult AB, Stockholm (Sweden); Froeberg, Magnus [Froeberg och Lundholm Advokatbyraa AB, Stockholm (Sweden)

    2010-11-15

    The issue of decommissioning, including demolition, of the nuclear facility at the Ranstad plant was raised gradually during 2006-2008. It was then found that it was unclear which company or companies that could be responsible for this decommissioning, economically as well as for the implementation. During this time and until the end of 2009, the concerned authorities, notably Swedish Nuclear Power Inspectorate and SSM, collected a large amount of facts as a basis for assessing liability. This material now needed to be systematized and compiled in order to effectively be utilized in such an assessment. SSM also thought that it would be helpful if an independent party with experience in similar issues could contribute to the interpretation of the legal situation. These were the given conditions of the mission which Kemakta Konsult AB, with the assistance of lawyer Magnus Froeberg, were given by SSM in the autumn of 2009. The results are presented in this final report.

  14. Sensors for online determination of CNG gas quality; Sensorer foer onlinebestaemnning av fordonsgaskvalitet

    Energy Technology Data Exchange (ETDEWEB)

    Stenlaaaas, Ola; Roedjegaard, Henrik

    2012-07-01

    Swedish automotive gas has until now been a very uniform, high quality automotive fuel. Elsewhere in Europe the quality of automotive gas varies significantly. Gas from different sources with different flammability require engine settings adjusted to the chosen gas' unique composition. The prospects for a vehicle-mounted sensor based on infrared technology for gas quality measurement has been studied and solutions are presented with questions that must be answered in a possible future work. The proposed vehicle mounted sensor is based on two channels, one of which measures the partial pressure of methane and the other measures the partial pressure of heavier hydrocarbons in 'equivalents of butane'. Ethane produces a signal of about 0.6 equivalents of butane and propane about 0.8 equivalents. The sensor can be accommodated in a cube with 5 cm side and should be equipped with nipple connections to the existing system. The sensor is expected to work throughout their entire lifetime without manual calibration, through continuous automatic calibration, so-called ABC (Automatic Baseline Compensation). The sensor will have to meet tough quality and environmental standards in which primarily contact ring, vibration and prevention of leakage are identified as extra difficult. Working temperatures and the electrical conditions of power supply and communication interface is considered less challenging. In one million volumes, the cost per sensor could be 200 to 300 SEK.

  15. Legislation of combustion of recovered bio fuels; Regelverk foer eldning av returtraeflis

    Energy Technology Data Exchange (ETDEWEB)

    Harnevie, Henrik; Olvstam, Marie Louise [SwedPower AB, Stockholm (Sweden)

    2001-03-01

    A research programme, concerning combustion of sorted waste wood with the objective to solve and answer the following questions has been started: * What types of problems can arise?, * What causes the problems?, and * How can the problems be solved? This first stage of the programme has focused on the first two questions. The problem when using chips from waste wood can be divided into different categories; operational problems, environmental problems as well as restrictions related to new EC-regulations. The environmental problems when burning wood waste are related to the chemical composition of the fuel. In some fuel deliveries, sorted waste wood has a content of heavy metals in the same range as for ordinary biofuels. In other cases, the degree of contamination is unacceptable. Fouling of heating surfaces is one of the most significant combustion problems for chips from waste wood. The rate of fouling and deposition on the heating surfaces will increase three to five times compared to ordinary biomass combustion in the same boiler and under the same conditions. Fouling has been shown to occur regardless of the furnace used, whereas the dimensions and design of the heating surfaces have a more significant influence. The deposits formed are more corrosive over a broader temperature range compared to deposits formed during combustion of ordinary wood chips. This expands the corrosion problems to surfaces constructed of lower alloyed steels such as furnace walls and primary superheaters. In addition to the typical components of wood ash (such as calcium, potassium and sulphur), zinc, lead and sometimes titanium are enriched in the deposits. Most fuel fractions of sorted waste wood will be affected by the new EC-restrictions for combustion of waste. This is due to the fact that analysis of these fuels show higher content of halogens and most heavy metals than for example analysis of clean wood chips. The EC-restriction will mean more stringent rules for emissions compared to the present levels for these plants. Both the environmental problems (air emissions and quality of ash) as well as the operational problems are, as mentioned above, caused by the fuel contamination. Inadequately sorted wood waste can contain metal objects, which among other problems can lead to blocking of grates or nozzles of fluid bed boilers. Even well classified wood waste contains contaminants such as wood preservatives (mainly As, Cr, Cu), paint (Pb, Zn, Cu, Ti and other metals) and adhesives (mainly nitrogen). However, classification can only be used to remove these contaminants to some extent. The quality can be improved by removal of the fine fraction containing a higher amount of metals than the larger fuel particles. Also crushed gypsum, sand etc are discharged with this fine fraction decreasing the levels of sulphur and silicon. However, contaminants derived from wood preservatives are not enriched in the fine fraction and are therefore difficult to remove by pre-treatments such as classification. Those remaining contaminants have to be handled within the furnace. This project indicates for example that the ratio between zinc, lead, sulphur, chloride and alkali influences corrosion and fouling. The restrictions on air emissions have to be solved with cleaning equipment. The result of this study also indicates that the recirculation of ash to the forest does not seem to be possible without a large amount of efforts and measures. The conclusions from this first step of the research programme are that further knowledge is needed concerning the following items; * Which quality restrictions have to be set on different fuels in order to meet present and future emission limits as well as standards for reprocessing and quality assurance. * The mechanisms for the formation of ash deposits. * The chemical processes of the combustion that occurs in the furnace as well as the significance of the interactions between the contents of zinc, lead, chloride, sulphur, sodium and potassium.

  16. Biomass-based energy carriers in the transportation sector; Biomassebaserade energibaerare foer transportsektorn

    Energy Technology Data Exchange (ETDEWEB)

    Johansson, Bengt

    1995-03-01

    The purpose of this report is to study the technical and economic prerequisites to attain reduced carbon dioxide emissions through the use of biomass-based energy carriers in the transportation sector, and to study other environmental impacts resulting from an increased use of biomass-based energy carriers. CO{sub 2} emission reduction per unit arable and forest land used for biomass production (kg CO{sub 2}/ha,year) and costs for CO{sub 2} emission reduction (SEK/kg CO{sub 2}) are estimated for the substitution of gasoline and diesel with rape methyl ester, biogas from lucerne, ethanol from wheat and ethanol, methanol, hydrogen and electricity from Salix and logging residues. Of the studied energy carriers, those based on Salix provide the largest CO{sub 2} emission reduction. In a medium long perspective, the costs for CO{sub 2} emission reduction seem to be lowest for methanol from Salix and logging residues. The use of fuel cell vehicles, using methanol or hydrogen as energy carriers, can in a longer perspective provide more energy efficient utilization of biomass for transportation than the use of internal combustion engine vehicles. 136 refs, 12 figs, 25 tabs

  17. Survey of biological processes for odor reduction; Kartlaeggning och studie av biologiska processer foer luktreduktion

    Energy Technology Data Exchange (ETDEWEB)

    Arrhenius, Karine; Rosell, Lars [SP Technical Research Inst. of Sweden, Boraas (Sweden); Hall, Gunnar [SIK Swedish Inst. for Food and Biotechnology, Gothenburg (Sweden)

    2009-09-15

    This project aims to characterize chemical and subsequently odor emissions from a digester plant located closed to Boraas in Sweden (Boraas Energi och Miljoe AB). The digestion produces mainly 2 by-products, biogas and high quality organic biofertilizer. Biogas is a renewable source of electrical and heat energy and subsequently digester have a promising future. Unfortunately, release of unpleasant odours is one of the problems that may limit development of the technique as odours strongly influence the level of acceptance of the neighbours. The number of complaints due to odours depends mostly, upon the degree of odour release, the weather condition and plant environment (which influence the risks for spreading out), and the tolerance of the neighbours. These parameters are strongly variable. Many processes inside the plant distributed on a large surface may contribute to odour release. Chemical emissions were studied, in this project, by extensive sampling inside the plant. Results were then evaluated regarding risk for odour releases. The goal was to suggest controls and routines to limit releases. The conditions leading to the higher risks for odour emissions were studied by performing sampling at different periods of the year and subsequently different weather conditions. At first, places for measurement were chosen together with personal of the plant. Three zones are considered to mainly contribute to the odour emissions: the landfill region, the cisterns region and the leaching lake region. Totally 13 places were studied with regard to odour and chemical emissions under 2008-2009 at different weather conditions. Some results from a previous project (2007) are also presented here. Results show that the spreading out of can be maintained to an acceptable level as long as the plant is functioning without disturbances. The early stages of the treatment of waste should be confined in locals with closed doors to avoid spreading out of odours. Through controlled ventilation, the air from these buildings can be treated in a biofilter. Biofilter are effective to remove most of the odorous compounds. But the biofilter's function must be regularly verified to avoid operational disturbances. Chemical emissions profiles at different places show how complex is the composition of the emission och how it varies from places to places and time to time. The project confirms and underlines that there are many causes to the global odour emitted from waste plants. Some compounds are important to survey, as for example limonene and ammonia in the tanks and biofilter regions and sulphur compounds in the landfills.

  18. Knowledge preservation for the future - Phase 1; Kunskapsbevarande foer framtiden - Fas 1

    Energy Technology Data Exchange (ETDEWEB)

    Bowen-Schrire, Monica; Jander, Hans; Waniewska, Katarina (Vattenfall Power Consultant AB, Stockholm (SE))

    2007-12-15

    This report summarises the work done in the field of knowledge preservation regarding a repository for spent nuclear fuel in Sweden and in other selected countries. The purpose of the report is to provide a basis for a proposal for an action plan for knowledge preservation regarding a repository for spent nuclear fuel. The report is based upon identified key documents, interviews with key persons, and other relevant sources of information identified throughout the working process. To preserve information and knowledge regarding the repository of spent nuclear fuel for future generations is no simple task. The report covers the basic principles and methods for information preservation and transfer, and describes their advantages and disadvantages. The report also covers topics such as the time perspective, target groups, context, and discusses the difference between the concepts information and knowledge. The conclusions of the report include a number of recommendations for how SKB can continue the work to produce a proposal for an action plan for how the knowledge about a repository for spent nuclear fuel can be kept for future generations

  19. Graphical pump system optimisation method; Grafisk metod foer effektivisering av pumpsystem eller andra system

    Energy Technology Data Exchange (ETDEWEB)

    Choy-Hsien Lin; Aelmqvist, Arnold (Stora Enso AB (Sweden))

    2008-08-15

    The matter of energy has recently gained importance for companies in general and the forest industry in particular. Efforts to improve energy efficiency are ongoing with all companies within the industry, in order to reduce the significant energy costs. One area that makes up a substantial portion of the energy consumption is the process flows that are used to transport paper pulp. A pump system consists of numerous valves, splits and other sources of pressure loss, which makes it difficult to gain an understanding of the pressure levels at various locations, which in turn makes it difficult to identify opportunities for improvements. This project has developed software to create pressure diagrams which visualizes pumping work clearly and simplifies efforts to understand pump systems. Because the diagrams are generated automatically, the effort to study different possible solutions is reduced, thus encouraging experimentation and new, innovative solutions. The goal of the project was to develop a user friendly tool the aids analysis and design of pulp and paper plants. An analysis of the screen room at Stora Enso Hylte's TMP plant was carried out using the tool as a pilot, in order to test it in a real setting. Throughout the system, the project identified possibilities to reduce the pressure head by at least 25 per cent, which translates to 50 per cent and more in power. These savings have been achieved in the cases where the changes have been implemented. The pilot project clearly shows that pump systems should be analyzed as a whole, in order to reap the most of the benefits. Given that the tools are available, savings beyond those of making isolated improvements can be achieved, with a smaller investment. The tool designed in the project enables a fast feedback on ideas through an intuitive visual mean, which simplifies calculations and analysis of systems. It should be noted that it is only a tool, and engineering still has to be done e.g. judging the plausibility of the results and coming up with alternate solutions. This was the intended scope of the project which thus is considered a success

  20. Preliminary decommissioning plan for Clab (Central interim storage for spent fuels); Preliminaer avvecklingsplan foer Clab

    Energy Technology Data Exchange (ETDEWEB)

    Gatter, Patrik; Wikstroem, Nina [SWECO, Stockholm (Sweden); Hallberg, Bengt [Studsvik Nuclear AB, Nykoeping (Sweden)

    2005-12-15

    In the The Swedish Radiation Protection Authority's Regulations SSI FS 2002:04 and The Swedish Nuclear Power Inspectorate's Regulations SKI FS 2004:1 it is stated that the owner of a nuclear facility must have a preliminary plan for decommissioning of the plant. The present report is a preliminary plan for decommissioning the Central interim storage for spent fuels (Clab). Clab will be decommissioned when all spent fuels and reactor core components have been sent to final disposal. The time for the decommissioning is dependent on the time for phasing out the last Swedish nuclear reactor. At present it is thought that Clab will remain in operation until after year 2050. During the work with this project, nothing has been found that indicates that decommissioning Clab could be more complicated than other plants whose decommissioning is closer in time. On the contrary, smaller radiation doses to the personnel are expected, as well as limited amounts of low and medium activity waste. This plan will be updated and more detailed as the time for decommissioning approaches.

  1. Leaching properties of natural aggregates. Rock materials and tills; Lakegenskaper foer naturballast. Bergmaterial och moraener

    Energy Technology Data Exchange (ETDEWEB)

    Ekvall, Annika; Bahr, Bo von; Andersson, Tove; Lax, Kaj; Aakesson, Urban [Swedish National Testing and Research Inst., Boraas (Sweden)

    2006-02-15

    The aim of this project is to produce leaching data for natural aggregates needed for assessment of the environmental impact of alternative materials aimed for use in for example road constructions. Both rock materials and tills are tested. The results shows that very little is leached from natural aggregate. A comparison with landfill criteria for inert waste and the Swedish regulations for drinking water shows that a few samples exceeds the criteria for fluoride ions. All other values are lower then these criteria, and a vast majority of the measurements are below the quantification limit.

  2. Indicators for energy use in buildings; Nyckeltal foer energianvaendning i byggnader

    Energy Technology Data Exchange (ETDEWEB)

    Johansson, Peter; Storm, Martin

    2001-10-01

    On behalf of the Ministry of the Environment a study was performed in order to suggest energy consumption indicators (ratios) for buildings. The amount of energy supplied for space heating, hot water, cooling and operation of buildings is measured for each energy source (electricity, district heating, fuel oil, gas, coal, peat, wood fuels or other) and per useful floor space. The indicators should be separately accounted for different types of buildings (houses, apartment buildings, weekend residences, schools, offices, hospitals, industry etc)

  3. Legionella bacteria in combustion air humidifiers; Legionella i luftuppfuktare foer foerbraenningsluft

    Energy Technology Data Exchange (ETDEWEB)

    Jeppesen, Jessica; Hansson, Helen; Cederfeldt, Ola; Axby, Fredrik

    2007-10-15

    Over the last couple of years several outbreaks of Legionnaires' disease has occurred around the world. The source of infection varies, but in many cases the bacteria has been traced back to cooling towers. The common denominator for most of the sources of infection has been water systems with high oxygen levels and a system temperature ranging from 20 to 40 deg C. If a water system furthermore has high levels of other bacteria/microorganisms, then it is also probable that favorable conditions for legionella bacteria exist within the system. These conditions consist well with conditions in combustion air humidifiers in district heating plants and therefore it can be suspected that legionella may thrive also in these types of air humidifiers. In order to examine if legionella bacteria exists in combustion air humidifiers, and in what quantity, ten different district heating plants where selected for a survey. The goal of the survey is to get a general picture of the extent of the occurrence of legionella bacteria in different types of air humidifiers. This was done by taking legionella tests in three different types of air humidifiers in district heating plants. The first step of the testing was conducted by measuring the level of legionella bacteria in water samples from the air humidifiers in the different plants. The water samples were taken from water that circulates in the air humidifiers. A few months later another water sample was taken from the same location. Two district heating plants, where legionella bacteria had been detected, were selected for further testing after compiling the results from the first two tests. The further testing involved fuel gas analysis to see if any of the plants fuel gas contained legionella bacteria. The test results show that a major part of the district heating plants in the survey have heterotrophic bacteria in their water systems, which implies the possibility of growth of legionella bacteria. About half of the plants had positive test results for legionella, three of them contained Legionella pneumophila serogroup 1. In the second test round, two of the plants had positive test results but only one of them was verified to L. pneumophila sg 1. Both the fuel gas analyses showed negative results for legionella bacteria and the level of heterotrophic bacteria was low or nonexistent. In this report the occurrence of legionella bacteria in combustion air humidifiers has mainly been treated as a working environmental risk. A risk assessment for the plant with the highest amount of legionella bacteria shows that the growth of legionella primary should be minimized/eliminated. As a compliment, personal safety devices such as respiratory protection should be used during revision work in water tanks or while cleaning the water system, i.e. when the risk for water aerosols is greater than during normal operation of the plant. The employer is responsible to inform all personal who might become infected with legionella. There should also be routines for reporting as well as routines for both proactive and reactive measures. From the test results the conclusion that legionella bacteria occur in combustion air humidifiers can be drawn. In addition legionella bacteria can occur in all three studied types of air humidifiers; rotating-, lamella- and scrubber air humidifiers. It is difficult to predict how great a risk it is that legionella bacteria will occur in the different types of air humidifiers. The risk of legionella bacteria transferring from the water systems to outgoing fuel gas varies in the different types of air humidifiers. It is obvious that the risk of transferring legionella bacteria to the fuel gas is greater in rotating air humidifiers and in lamella air humidifiers where both fuel gas and air is washed with water from the same water system. There is also a risk of transferring legionella bacteria to fuel gas in scrubber air humidifiers where the air humidifier and the condenser have a common water system.

  4. Policy instruments for development of wind power in Sweden; Styrmedel foer vindkraftens utveckling i Sverige

    Energy Technology Data Exchange (ETDEWEB)

    Aastrand, Kerstin; Neij, Lena

    2003-07-01

    It is often believed that energy policy and policy instruments can play a significant role in the transition towards sustainable energy by stimulating and accelerating the development and deployment of new energy technologies. However, despite the known need for, and benefits of, new energy technologies their market introduction and expansion is often slow. Wind power has been on the political agenda since the 1970s in several European countries as well as in other countries throughout the world. However, the technology and market development of wind power has been very different in these countries. Despite three decades of policy intervention the installed capacity in Sweden was only 265 MW in 2000, compared with 6,107 MW in Germany, 2,836 MW in Spain and 2,341 MW in Denmark. This report analyses the effects of policy instruments on wind power development in Sweden and identifies possible reasons why wind power has not been installed to a greater extent. The analysis is based on an empirical example of a socio technological system-based approach to evaluation of technology and market development for new energy technologies; i.e. an approach focused on the technological system including the actors, institutions and organizations that build, drive and utilise it and the economic and legal framework that regulates it. The aim is to assess the impact on technology and market development and to discuss the relatively late and slow wind power development in Sweden. The report also examines the achievement of governmental energy policy goals. Using the socio-technological systems approach we analyse Swedish policy programmes and wind power development between 1975 and 2000. The political and economic framework is identified. The discussion of the political and economic frameworks is limited to public policy goals and policy instruments. The policy focus is set to policy instruments aimed for technology and market development of wind power, such as research and development (R and D), demonstration (D) and investment and production subsidies. In order to study development of and changes in the socio-technological-system, we identify indicators that describe the wind power development. The indicators show: (i) changes in technology development; (ii) cost development due to technology and market development; (iii) development of actors, institutions and organisations and changes in their commitment to wind power development. From this analysis of the changes in the wind power system over time, the impact of the policy instruments on the development of the technology and market of wind power is assessed. Lastly, we discuss the tardiness in market development and identify possible reasons why wind power has not been installed to a greater extent in Sweden. The study of the development of the Swedish wind power system shows how public energy policy and the impact of policy instruments shaped turbine technology and market development. The governmental interventions made during the 1970s and 1980s were limited to RD and D measures. These steered both the choice of technology; i.e. turbine development with a focus on large (over 1 MW), two-bladed, flexible turbines, and the early market development in Sweden, with a limited number of actors, institutions and organizations. The number of wind turbines manufactured in Sweden is low and by 2000 there had not been a commercial breakthrough for the technology developed. The R and D-programmes have, however, generated knowledge and increased competence regarding wind power technology. The introduction of investment and production subsidies in the early 1990s changed the focus from technology development to a more general focus on market development and the production of wind power. The change in policy increased the diversity of actors involved in the development process and a market for commercially available, three-bladed, Danish turbines grew in Sweden. The investment and production subsidies have increased the installation rate in Sweden, which in turn has secured further RD and D-projects, including research areas such as acceptance, attitudes, noise and other environmental impacts. Compared to other countries the wind power development has been slow in Sweden. In 2000, 25 years of policy support to technology and market development of wind power had resulted in 240 MW installed capacity and a wind power production of 440 GWh/year, which contributed with 0,3% of the total electricity production in Sweden. The report concludes that early inflexible steering of technology and market development, together with a lack of comprehensive, long-term strategy, insufficient continuity in policy interventions and weak combinations of policy programmes and measures have impeded the technology and market development of wind power in Sweden.

  5. Energy statistics for non-residential premises 2012; Energistatistik foer lokaler 2012

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2013-07-01

    This report presents data on a number of non-residential premises, heated floor area, use of energy (totals and averages) and use of fuels (totals and averages) for the total population and for various subDivs.

  6. Purification of methanol for transportation use; Rening av metanol foer anvaendning som fordonsbraensle

    Energy Technology Data Exchange (ETDEWEB)

    Schenck, Anna von; Jansson, Mikael; Ljungquist, Pierre

    2008-11-15

    In this study a techno-economic analysis has been performed on the possibility of separating malodours sulphur compounds from the methanol obtained in the condensate after the evaporation in the kraft pulping process. The application for the clean methanol should be as transportation fuel. Two cases have been simulated in the simulation model Hysys, Case 1 using only distillation and Case 2 were distillation has been complemented with chemicals to further reduce the organic sulphur content. An economical analysis has been performed and it has been showed that the production cost for the cleaned methanol is in the range 2.7-4.2 SEK/l methanol

  7. Thermal insulating materials. Thermal conductivity variations in mineral wool and expanded polystyrene; Vaermeisoleringsmaterial. Databas foer vaermekonduktivitetsmaetningar

    Energy Technology Data Exchange (ETDEWEB)

    Jonsson, B.

    1995-05-01

    Thermal conductivity has been measured by SP since 1965. This has provided a substantial data base of results, from which measurements for different groups of materials have ben compared in order to give an idea of normal variations and mean values. Values for polystyrene, glass fiber, and mineral wool have been statistically investigated. In general, it is the density dependence of the thermal conductivity that has been investigated, although air permeability as an indirect parameter has also been studied. The expression A + B*d + C/d has been employed to describe the thermal conductivity in a porous material, and has been found preferable to other types of polynomials. Systematic differences from the mean curve can be detected by employing the difference between the measured values and the theoretical values (the residual), which provides a means of detecting sub-standard (or super-standard) batches. 12 refs, 13 figs

  8. Demonstration Platform for near-zero energy buildings - small houses; Demonstrationsplattform foer naeranollenergibyggnader - smaahus

    Energy Technology Data Exchange (ETDEWEB)

    Ruud, Svein; Fahlen, Per; Axell, Monica; Kovacs, Peter; Ylmen, Peter; Staahl, Fredrik

    2011-07-01

    On behalf of the Swedish Energy Agency, SP has investigated and recommended how one could form a platform for demonstration of single family houses as nearly zero energy houses. SP suggests that TMF, the national trade and employers' association of the wood processing and furniture industry in Sweden, should administrate this platform. The reason being that members of TMF produce almost 80% of all single family houses in Sweden. TMF also has the capacity to launch a demonstration platform in a reasonable short time. SP has also compiled a set on technical criteria regarding properties related to energy use that should be met by demonstration projects within the platform. One presumption has been that a house that meets the criteria in the south of Sweden also should meet the criteria in the north of Sweden. The reason being to promote an industrialized and cost effective building process. Another ambition has been not to disfavor smaller single family houses. The main criteria are on very energy efficient building envelopes and very efficient building services systems. The criteria are therefore more detailed than the current Swedish building regulations

  9. Practical implementation of joint projects for offshore wind; Praktiskt genomfoerande av gemensamma projekt foer havsbaserad vindkraft

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2013-09-01

    Cooperation mechanisms are part of the renewable s directive and aims to member countries to cooperate on renewable energy to meet their national targets a cost effective way. The Energy Agency has in previous assignments analyzed the possibilities and limitations of cooperation mechanisms and other countries' interest in the cooperation mechanisms. In the Appropriation Directions for 2013, the Energy Agency has been asked to contribute to the continued analysis and practical preparations for a possible cooperation with other member countries. The assignment covers several different types of cooperation. This report represents the Agency's accounting of the part of the commission on cooperation through joint projects. This part include, in consultation with the industry to develop a proposal for the practical use for the implementation of possible joint projects for offshore wind power. The mission aims to create greater clarity and facilitate the possible implementation of joint projects.

  10. Guidance for emergency planning in nuclear power plants; Vaegledning foer insatsplanering i kaerntekniska anlaeggningar

    Energy Technology Data Exchange (ETDEWEB)

    Magnusson, Tommy; Ekdahl, Maria (Ringhals AB, Vaeroebacka (Sweden))

    2008-06-15

    Ringhals has been a model for this study, but the purpose has been to make the report applicable at all nuclear power plants in Sweden. The work has been done in close co-operation with the Swedish nuclear power plants and Rescue Services in the nuclear power municipalities Oesthammar, Oskarshamn, and Varberg. The internal fire brigade at the nuclear power plants has also been involved. A document will also be published as a further guidance at efforts of the type fires, which are mentioned in the enclosed document. After a fire in a switchgear room in 2005 the need of making the existing effort planning more effective at nuclear power plants was observed. The idea with the planning is to plan the effort in order to give the operational and emergency staff a good and actual support to come to a decision and to start the mission without delay. The risk information is showed by planning layouts, symbols and drawings as basis, give risk information and effort information. The effort information shows outer arrangements, manual action points, fire installations, passive fire safety etc. The risk information is shown by risk symbols. Their purpose is to give a fast overview of the existing risks. Reactor safety effects is the ruling influence if an effort has to be done in order to secure safety for a third person. In order to make an effort in an area personal risks for rescue staff, such as electricity risks, radiological risks, chemicals and gas bottles with compressed gases, has to be eliminated. For complicated missions detailed instructions are needed in order to handle specific risks. In a group discussion different people with pertinent knowledge has to value which problematic efforts need detailed instruction. Missions that have to be analyzed in a work group as above are: fire may affect the reactor safety, fire that may threaten the structural integrity, chemical discharge with big consequence on environment/third person and handling of gas system (compressed systems). A support for planning the missions is information of different types of fires. Type of fire is a short description of how a certain type of fire may develop and if possible its risks and also choice of extinguishing agents and methods. The type of fires is found in the app. no 6. Education of operation and rescue staff is an important factor in order to handle a situation as effective as possible

  11. Degradation of cellulose in the presence of ash; Nedbrytningsmoenster foer cellulosa i naervaro av aska

    Energy Technology Data Exchange (ETDEWEB)

    Wikman, Karin; Berg, Magnus [AaF-Energi och Miljoe AB, Stockholm (Sweden); Svensson, Malin; Ecke, Holger [Luleaa Univ. of Tech. (Sweden)

    2003-04-01

    This project evaluates the risks and possibilities that come up in mixtures of ash and cellulose. The focus is on alkaline degradation of cellulose and the impact on metal leaching. The literature survey shows that a combination of ash and cellulose affects both the mobility of metals and the degradation of cellulose in many ways. A combination of ash and cellulose could have positive effects on the degradation of cellulose since ash makes the pH rise in the material. Normally the pH decreases in a waste deposit with time, which results in a reduced biological degradation of the cellulose since the methanogenic organisms are sensitive for low pH values. However, even if the pH increases when cellulose is mixed with ash the methanogenic organisms could be inhibit by toxic metals. The highest degradation rate for cellulose is at natural pH values because of an effective biological degradation. If alkaline conditions appear when cellulose is mixed with ash or in contact with the leaching water the cellulose is going to be degraded by a slower process: non-biological degradation (peeling-off reactions). The main degradation product from peeling-off reactions of cellulose is isosaccharinic acid (ISA). ISA forms complex with metals, which results in increased mobilization and leaching of metals. From biological degradation the degradation products are mainly CO{sub 2} and H{sub 2}O under aerobic conditions and CO{sub 2} and CH{sub 4} under anaerobic conditions. In combinations of ash and cellulose is it possible that the formed carbon dioxide cause carbonation and fixation of metals in the ash. As mentioned, ash could result in an increment of the pH value in cellulose materials, but if the starting point is pure ash a mixture with cellulose could make the pH value decrease, in extreme cases down to 4-5, because of biological degradation. Therefore it is possible that the metal mobilization in ash will increase if the ash is mixed with cellulose. Increased leaching of metals in combinations of ash and cellulose could also be caused by complex binding between solvent acids from the degradation of cellulose and metals in the ash. The experiments in this study have shown that the degradation product ISA results in an increased content of Pb and Zn in the leaching water from fly ash. When the experimental conditions were set to comparable conditions as for a compact and covered deposit after 250 years the leaching of Pb increased from 31 to 39 % and the leaching of Zn from 1,8 to 2,3 % when the content of ISA was increased 20 times. The disadvantages of mixing ash and cellulose are probably more important than the advantages because of the risk for increased metal mobilization. However, in some applications, for example grouting of ash to stabilize a waste deposit, the risk for metal leaching have to be compared to the advantages of using the ash. The disadvantages with ash and cellulose combinations could also be turned to advantages in special applications with processes where complex binding with ISA could give a selective washing/leaching and simultaneously the remaining metals could be fixed through carbonation.

  12. Artificial neural networks for monitoring the gas turbine; Artificiella neuronnaet foer gasturbinoevervakning

    Energy Technology Data Exchange (ETDEWEB)

    Fast, Magnus; Thern, Marcus [Inst. foer Energivetenskaper, Lunds Univ. (Sweden)

    2011-10-15

    Through available historical operational data from gas turbines, fast, accurate, easy to use and reliable models can be developed. These models can be used for monitoring of gas turbines and assist in the transition from today's time-based maintenance to condition based maintenance. For the end user this means that, because only operational data is needed, they can easily develop their own tools independent of the manufacturer. Traditionally these types of models are constructed with physical relations for e.g., mass, energy and momentum. To develop a model with physical relations is often laborious and requires classified information which the end user does not have access to. Research has shown that by producing models using operational data a very high model precision can be achieved. When implementing these models in a power plant computer system the gas turbine's performance can be monitored in real time. This can facilitate fault detection at an early stage, and if necessary, stop the gas turbine before major damage occurs. For the power plant owner, this means that the gas turbine reliability is increased since the need for maintenance is minimized and the downtime is reduced. It also means that a measure of the gas turbine's overall status is continuously available, with respect to e.g. degradation, which helps in the planning of service intervals. The tool used is called artificial neural networks (ANN), a collective name for a number of algorithms for information processing that attempts to mimic the nerve cell function. Just like real networks of neurons in a brain, these artificial neural networks have the ability to learn. In this case, neural networks are trained to mimic the behavior of gas turbines by introducing them to data from real gas turbines. After a neural network is trained it represents a very accurate model of the gas turbine that it is trained to emulate.

  13. IR sensor for monitoring of burner flame; IR sensor foer oevervakning av braennarflamma

    Energy Technology Data Exchange (ETDEWEB)

    Svanberg, Marcus; Funkquist, Jonas; Clausen, Soennik; Wetterstroem, Jonas

    2007-12-15

    To obtain a smooth operation of the coal-fired power plants many power plant managers have installed online mass flow measurement of coal to all burners. This signal is used to monitor the coal mass flow to the individual burner and match it with appropriate amount of air and also to monitor the distribution of coal between the burners. The online mass flow measurement system is very expensive (approximately 150 kEUR for ten burners) and is not beneficial for smaller plants. The accuracy of the measurement and the sample frequency are also questionable. The idea in this project has been to evaluate a cheaper system that can present the same information and may also provide better accuracy and faster sample frequency. The infrared sensor is a cheap narrow banded light emission sensor that can be placed in a water cooed probe. The sensor was directed at the burner flame and the emitted light was monitored. Through calibration the mass flow of coal can be presented. Two measurement campaigns were performed. Both campaigns were carried out in Nordjyllandsverket in Denmark even though the second campaign was planned to be in Uppsala. Due to severe problems in the Uppsala plant the campaign was moved to Nordjyllandsverket. The pre-requisites for the test plant were that online measurement of coal flow was installed. In Nordjyllandsverket 4 out of 16 burners have the mass flow measurement installed. Risoe Laboratories has vast experiences in the IR technology and they provided the IR sensing equipment. One IR sensor was placed in the flame guard position just behind the flame directed towards the ignition zone. A second sensor was placed at the boiler wall directed towards the flame. The boiler wall position did not give any results and the location was not used during the second campaign. The flame-guard-positioned-sensor- signal was thoroughly evaluated and the results show that there is a clear correlation between the coal mass flow and the IR sensor signal. Tests were also made to determine the influence of secondary air, tertiary air and classifier settings. The results show, although a little inconclusive, that the air supplies do not influence the signal and that the particle size distribution, connected to the classifier settings also does not influence the signal. It is only the coal mass flow that is directly correlated to the IR sensor signal. More investigations should be performed regarding the connection between the classifier setting and IR signal. Filters and averaging need to be implemented to achieve a satisfactory operation in an online installation

  14. Electric vehicle batteries. Development status for the promising candidates; Elbilsbatterier. Utvecklingsstatus foer de fraemsta kandidaterna

    Energy Technology Data Exchange (ETDEWEB)

    Andersson, Bo; Johansson, Arne [Catella Generics AB, Jaerfaella (Sweden)

    2000-04-01

    One driver for the EV and HEV programme of KFB is to study the effects of a large scale introduction of electric vehicles in the future. Catella Generics was contracted to investigate and report on the development status for EV batteries and the success potential for the different candidates, their development obstacles and alternative usage and on the links between different players. The batteries studied in greater detail have been evaluated according to special criteria like performance, cost, ruggedness, resource efficiency, safety and environmental impact and how that will influence their likely success. Models for the evaluation of EV batteries have been developed by the car manufacturers and authorities. We have based our investigation on the criteria established by USABC and the modifications made by PNGV for the energy storage in hybrid electric vehicles. Some basic conclusions reported as a result of this investigation are listed below: Lead-acid may have a role as energy storage in HEVs. Ni/Cd batteries are attractive from a technical standpoint, but questioned based on the environmental concern for cadmium. Ni/MH batteries are attracting a great attention in the medium term. Na/NiCl{sub 2} batteries have been successful in the German demonstration programme. Lithium batteries have a great potential in the long term. Metal/air batteries have been operated without problems, however there need for a special infrastructure is a major draw-back. Fuel cells and ultra capacitors are new alternative power sources for propulsion of EVs, however these are not included in this report.

  15. New purification and upgrading technologies for biogas; Nya renings- och uppgraderingstekniker foer biogas

    Energy Technology Data Exchange (ETDEWEB)

    Johan Benjaminsson [Linkoeping Univ. (Sweden)

    2006-04-15

    Biogas is a renewable energy source that is produced by anaerobic digestion of organic material. In Sweden, biogas predominately comes from sewage water sludge and landfills or from organic waste of households and industries. Small scale digestion plants at farms are especially expected to contribute to increased biogas production in the future. Biogas can be obtained directly in its raw form and used as fuel in a combustion chamber. However, gas engines require biogas purification from hydrogen sulphide and drying from water to avoid corrosion. In order to increase the calorific value, carbon dioxide is separated and the Swedish Standard Type A requires the methane content to be 97 % for vehicle gas. In the gas treatment process from biogas to vehicle gas, the upgrading step when carbon dioxide is separated represents the highest cost since conventional upgrading techniques require high investments. This makes the upgrading costs for smaller biogas plants relatively high. In this master thesis, six upgrading methods have been evaluated and four of them are expected to be commercialized within two years. The following upgrading methods are of interest for Sweden: - In situ methane enrichment; air desorbs carbon dioxide from the sludge in a desorption column. The method is intended for digestion of sewage water sludge and the total upgrading cost is approximately 0,13 kr/kWh by a raw biogas flow 62,5 Nm{sup 3}/h. - Small scale water scrubber; carbon dioxide is absorbed in water under enhanced pressure. The upgrading process is very similar to the conventional water scrubbing technique and the total upgrading cost is approximately 0,42 kr/kWh by a raw biogas flow of 12 Nm{sup 3}/h. - Cryogenic upgrading; the biogas is chilled to under -85 deg C under a pressure of at least 5,2 barg and carbon dioxide can be separated in the liquid phase. The total upgrading cost is approximately 0,12 kr/kWh by a raw biogas flow of 150 Nm{sup 3}/h. The total upgrading cost can be reduced if the recovered liquid carbon dioxide can be sold. - Membrane technique; biogas is upgraded with polymeric membranes that are permeable for carbon dioxide but not for methane molecules. The method is expected to be adaptable for both smaller and bigger biogas plants and the total upgrading cost is approximately 0,14 kr/kWh by a raw biogas flow of 180 Nm{sup 3}/h. All above mentioned upgrading techniques have methane losses less than two percent and all methods except for the in situ methane enrichment are expected to upgrade biogas to vehicle gas according to the Swedish Standard. In situ methane is expected to upgrade biogas up to 95 % methane content. By combustion of unpurified landfill gas in a gas engine, corrosive combustion products and white deposits are formed. Purification of landfill gas can decrease maintenance costs for gas engines. Two landfill gas purification methods have been evaluated and with the first method, contaminants are trapped in ice crystals when the gas is chilled to -25 deg C. The second method purifies landfill gas with condensed carbon dioxide. An important result of the master thesis is that the in situ methane enrichment has a chance to become an interesting alternative for smaller sewage treatment plants but the method requires additional upgrading to reach 97 % methane content. The most important conclusion is that cryogenic upgrading and membrane technique are expected to satisfy the Swedish Standard. The methods have relatively low upgrading costs and the methane losses are less than two percent. This gives them a good chance to established in Sweden.

  16. Hybrid vehicles - an alternative for the Swedish market; Hybridfordon - ett alternativ foer den svenska bilparken

    Energy Technology Data Exchange (ETDEWEB)

    Egebaeck, Karl-Erik; Bucksch, S.

    2000-06-01

    The object of this report is to assemble information on and describe the situation for the development of hybrid vehicles and various alternatives within this field of development. In the report the description is concentrated mainly on the combination of combustion engine and electric battery, which is the most common combination in present day hybrid vehicles. In order to take a glimpse into the future even the combination of fuel cells and electric battery is described. The light duty electric hybrid vehicles which have been developed up to now are mainly parallel hybrids. If the development of hybrid systems takes place it will most certainly concern light duty vehicles which will come to be parallel hybrids equipped with an Otto or a diesel engine, depending on what the manufacturers wish to back. In the report the use of series hybrid vehicles is estimated to be limited to heavy-duty hybrid vehicles. Hybrids will not be likely to be relevant for heavy-duty vehicles, with the exception of those lorries which operate in city centres, i.e. lorries which are used to distribute goods to shops, garbage vehicles and certain types of working vehicle for service purposes. Continued development of the hybrid system for buses seems uncertain for various reasons. If there is a technical breakthrough in the manufacture of batteries and simultaneously the manufacturers increase their efforts to develop hybrid vehicles, the situation can be changed so that there is a speedier introduction of hybrid vehicles for heavy-duty vehicles.

  17. Optimized district heating supply temperature for large networks; Optimerad framledningstemperatur foer stora fjaerrvaermenaet

    Energy Technology Data Exchange (ETDEWEB)

    Saarinen, Lisa; Boman, Katarina

    2012-02-15

    The supply temperature of the Uppsala district heating network was optimized using a model-based control strategy. Simulation of the network showed that the supply temperature could be decreased by in average 8 deg and the electricity production of the plants supplying the network could be increased with 2.5 % during the period January- April, giving an extra income of 1.2 MSEK due to increased income from electricity sales

  18. Robust on-line monitoring of biogas processes; Robusta maettekniker on-line foer optimerad biogasproduktion

    Energy Technology Data Exchange (ETDEWEB)

    Nordberg, Aake; Hansson, Mikael; Kanerot, Mija; Krozer, Anatol; Loefving, Bjoern; Sahlin, Eskil

    2010-03-15

    Although demand for biomethane in Sweden is higher than ever, many Swedish codigestion plants are presently operated below their designed capacity. Efforts must be taken to increase the loading rate and guarantee stable operation and high availability of the plants. There are currently no commercial systems for on-line monitoring, and due to the characteristics of the material, including corrosion and tearing, robust applications have to be developed. The objective of this project was to identify and study different monitoring technologies with potential for on-line monitoring of both substrate mixtures and anaerobic digester content. Based on the prerequisites and demands at Boraas Energi och Miljoe AB's (BEMAB, the municipal energy and waste utility in the city of Boraas, Sweden) biogas plant, the extent of the problems, measurement variables and possible ways of managing these issues have been identified and prioritized. The substrate mixtures in question have a high viscosity and are inhomogeneous with variation in composition, which calls for further homogenization, dilution and filtration to achieve high precision in the necessary analyses. Studies of using different mixers and mills showed that the particle size (800 mum) needed for on-line COD measurement could not be achieved. The problem of homogenization can be avoided if indirect measurement methods are used. Laboratory tests with NIR (near-infra red spectroscopy) showed that VS can be predicted (R2=0,78) in the interval of 2-9% VS. Furthermore, impedance can give a measurement of soluble components. However, impedance is not sensitive enough to give a good measurement of total TS. Microwave technology was installed at the production plant and showed a faster response to changes in TS than the existing TS-sensor. However, due to technical problems, the evaluation only could be done during a limited period of ten days. BEMAB will continue the measurements and evaluation of the instrument. The project showed that pH-adjustment with Na{sub 3}PO{sub 4} can be a way of compensating for the losses of volatile compounds (up to 20% of VS), which occurs when standardized reference methods are used. This is a fundamental problem and requires further research. Monitoring of a laboratory-scale anaerobic digester with NIR showed that a previously developed multivariate model could predict propionate concentrations (R2= 0,92; RMSEP 0,39 g/L) in the interval 0-5 g/L, which is a relevant interval for inhibition (limit ca 3 g/L). A commercial FT-NIR instrument was subsequently installed at the production plant. However, the organic loading was decreased during the evaluation period due to process disturbances, at which the dynamic of the process was not in the range needed for prediction of e.g. propionate. Measurements and evaluation will continue during normal conditions after the completion of this project. Evaluation of a potentiometric sensor for ammonia with potential for on-line application showed low stability and a need for daily calibration, which therefore did not fulfill the requested demand. The project has demonstrated technologies with significant potential for on-line monitoring at production scale facilities, thus improving the knowledge base for making important decisions. Knowledge about on-line implementation has increased, and important insights into the limitations of standardized reference methods and substrate characteristics have been achieved. Instrument suppliers have in general a limited insight in the conditions at a biogas plant, which suggests that this type of WR-financed project is important for development in the area

  19. Requirements and solutions for future pellet technology; Krav och loesningar foer framtidens pelletsteknik

    Energy Technology Data Exchange (ETDEWEB)

    Paulrud, Susanne; Roennbaeck, Marie; Ryde, Daniel; Laitila, Thomas

    2010-07-01

    Requirements and solutions for future pellet burning technologies Since 2006, sales of pellet burning technologies to the Swedish residential market have fallen. The main reasons for this decrease are: many of the economically favorable easy conversions from oil to pellets have been made; competition from heat pumps; warm winters; a stable electricity price; and the current structure of heating in residential buildings, where electric heating dominates. To change this falling trend pellets need to become more attractive to consumers. This project aimed to analyze the requirements for the next generation of pellets systems and to develop potential solutions, in collaboration with the pellets industry. More specifically, the study looked at consumers' attitudes toward heating choices and different heating through a survey to 2000 house owners across Sweden. The project included a market analysis of Swedish and international technologies and examines the conditions for Swedish pellet burning technology in different markets. In addition, new solutions and developments for Swedish pellets burning technology are described

  20. Natural refrigerants. Future heat pumps for district heating; Naturliga koeldmedier. Framtida vaermepumpar foer fjaerrvaerme

    Energy Technology Data Exchange (ETDEWEB)

    Ingvarsson, Paul; Steen Ronnermark, Ingela [Fortum Teknik och Miljoe AB, Stockholm (Sweden); Eriksson, Marcus [Chalmers Univ. of Technology, Goeteborg (Sweden). Dept. of Chemical Engineering and Environmental Science

    2004-01-01

    International work on refrigerants is aiming at phasing out HFC. The solution might be natural refrigerants. Within 15-20 years, when present heat pumps for district heating in Sweden are likely not in service any longer, it might still be good economy to install new heat pumps since only the machines need to be replaced. This report describes the possibilities to use natural refrigerants. A first screening resulted in further study on some hydrocarbons, ammonia and carbon dioxide. Water was considered to require too large volumes. In present plants it is practically not possible to use any natural refrigerants, partly because the compressors are not adapted. In new plants the situation is different. Today it is technically possible to install new heat pumps in the studied size, 15 MW{sub th}, using ammonia or hydrocarbons as refrigerant. But likely it is very difficult to get permits from authorities since the refrigerants are toxic or highly flammable. There is substantial international research on using carbon dioxide, and this refrigerant is also used in some applications. Carbon dioxide is used at high pressure and in a trans-critical process. Surprisingly, it turned out that one compressor manufacturer considers it possible to supply a heat pump for district heating within 5 years. This development has taken place in Russia, mainly for domestic use. Thus, within 15 to 20 years there will probably exist a technique where carbon dioxide is used. However, more development is needed. Additionally, low district heating return temperatures are also needed to get an acceptable COP. The investment cost for a heat pump installation is considered to be approx. 30 % higher when using ammonia or propane compared to using R134a. When using carbon dioxide there is in the longer run potential to get lower cost than for R134a. The COPs are almost identical if the systems are properly designed. In the carbon dioxide case the COP is somewhat lower, but has a potential for improvement in components, system and external preconditions. In the future it might be more interesting to use turbine driven heat pumps instead of electric motors. The absorption process is not considered to be an alternative to replace present heat pumps, but there is a certain niche where heat source and driving energy, considering temperature levels, are more suitable for district heating. A technique that seems to be an alternative to the compression cycle is a combination of compression and absorption. Using the media pair water and ammonia might be an interesting solution and should be compared to the alternative using carbon dioxide. A further study is recommended on this subject.

  1. Environmental optimization of foundations for offshore wind power; Miljoemaessig optimering av fundament foer havsbaserad vindkraft

    Energy Technology Data Exchange (ETDEWEB)

    Hammar, Linus; Andersson, Sandra; Rosenberg, Rutger

    2008-05-15

    The study concerns only the marine environment, excluding seabirds, and is based on the level of knowledge available in 2007. The study focuses on three different types of foundations; gravity-monopile and jacket foundations. Also tripod-bucket and floating foundations are mentioned. The different characteristics of the foundations are discussed based on their environmental impact in five different areas; 1) epifouling and reef-effects, 2) operational noise, 3) changes in hydrographical conditions, 4) noise during construction, and 5) dissolved sediment during construction. Regarding epifouling, it is noted that the surface texture of the foundation (i.e. steel, concrete) is of less importance in the long run since the initial substrate soon will be covered with organisms, creating a rugged surface for later colonising organisms. It is rather the level of salinity, distance to shore, exposure, depth and turbidity of the water that decide which organisms that will dominate the different foundations after a few years. Generally all foundations for offshore wind power are expected to be dominated by filtering animals, such as blue mussels. A possible exception is if concrete is coated with a silicone product that limits larger organisms to establish on the foundations. This kind of surface treatment has not yet been used by the wind power industry but occurs on other submarine concrete constructions. The potential for an evident reef-effect increases with the complexity of the foundation structure. Hence, tripod and especially jacket foundations have better possibility to contribute to the reef-effect than monopile- and gravity foundations. Reef-effect, as well as epifouling, may be considered negative in some marine environments, such as possible valuable areas without any natural occurrence of hard substratum. In such areas new species may be introduced, changing the local ecological conditions. However, in many areas an increased level of biological diversity is viewed as a positive change, and here reef-effect and epifouling may be considered favourable. To amplify the reef-effect, scour protection devices may be designed to create more habitats. Operational noise from offshore wind farms has been shown to initially affect some organisms (mussels, fish) during experimental studies in small containers. Whether corresponding operational noise in field and during natural circumstances can cause any environmental impacts is not yet fully understood. Available information indicates that there is a common sound level peak from wind turbines at frequencies of 100 - 200 Hz. In the same frequency range cargo ships emit higher sound than wind power even over several kilometres distance. Based on the present lack of certainty, it can be motivated to minimize the sound at these frequencies in areas with special biological values, such as endangered organisms sensitive to stress. However, there are no indications that operational noise may significantly effect the environment beyond the vicinity of each foundation. Based on a limited number of measurements it seems as if gravity and monopile foundations emit noise of similar amplitude, but the frequency range of the gravity foundation is generally lower. There are no measurements of jacket foundation but theoretically these should emit less noise, at least within the lower frequency range. Even if little is known about future turbines and foundations, it should be technically possible to decrease the emitted noise level. The local conditions of the seabed have a large impact on the propagation of the noise, where shallow water and hard substratum allow the sound to propagate longer distances. The background noise is also of importance and in quiet areas there is theoretically a higher risk of environmental impacts than in areas with heavy ship traffic. Changes in the hydrographical conditions around a foundation are small and are expected to be of importance only in very narrow water passages. The gravity foundation probably has the largest impact on the local hydrography. However, no direct comparisons between the different foundations have been made. During the construction period extreme noise levels may occur, especially during pile-driving which is needed for most foundations except for gravity foundations. The noise level depends on the diameter of the piles that are driven into the sediment as well as the piling method. This means that the monopile foundation generally emits higher construction noise levels than jackets, while gravity foundations emit the least construction noise. Since the extreme noise levels from pile-driving, covering large areas, can be harmful to fish and marine mammals it is very important to minimize this disturbance. This can be done by the choice of foundation, by precautionary measures and by adapted methods of pile-driving.

  2. Systems for apartment buildings heat pumps. Final report; System foer fastighetsvaermepumpar. Slutrapport

    Energy Technology Data Exchange (ETDEWEB)

    Aakervall, Daniel (WSP Environmental, Stockholm (Sweden)); Rogstam, Joergen; Grotherus, Maarten (Sveriges Energi- och Kylcentrum, Katrineholm (Sweden))

    2009-05-15

    A fast growing segment of the heat pump business is the apartment building applications. Historically the experience base related to such installations is limited. However, this application is more complex than the much more widely spread domestic applications. The core idea of the project was to generate and collect information to avoid mistakes and to encourage the heat pump technology. By interviewing the 'market' and compiling the information good recommendations has been achieved. It is of great importance to convey the best available recommendations to the installers on the market to avoid pit holes and highlight the opportunities for installers and end consumers. A website has been design and built, www.sfvp.se, which contains useful tools for installers and potential system customers. A number of calculation tools to estimate heat requirement, cost of different heating systems, primary energy need, LCC, etc. are all available. The core of the site is the database containing heat pump installations with related data of importance. The data available is such key data as performance figures, cost of installation, etc. Today 104 system installations are collected in the database and these are marked in a colour coding to indicate the quality of the input data. Installations verified with measurement are given higher significance. It has been an unexpected challenge to find documented systems, so one of the conclusions of the project is that there is a great need for further measurement on the field. More information should be directed to the customers to request such equipment when systems are installed. The database enables statistical analysis of the key figures and it can be seen that the average seasonal COP is 3.2 and there are small differences between exhaust air and ground source heat pumps. It should be emphasised that the number of installations do not give statistical confidence for all kinds of analysis yet. Field measurements in apartment buildings have shown good agreement between the installations. In the specific case 5 exhaust air heat pumps were analysed and the average seasonal COP was about 3 and the energy coverage was 60% on a yearly basis. These heat pumps replaced district heating but kept that source as supplementary heat source

  3. Laws for local energy systems. A review; Lagar foer lokala energisystem. En oeversikt

    Energy Technology Data Exchange (ETDEWEB)

    Bylund, S.I. [Bygginfo AB, Stockholm (Sweden); Moe, N.; Bjoerk, J. [Swedish National Board for Industrial and Technical Development (NUTEK), Stockholm (Sweden); Goethe, S.; Froste, H. [Swedish Environmental Protection Agency, Solna (Sweden); Larsen, B.; Gyberg, A. [Boverket, Karlskrona (Sweden)

    1996-10-01

    This report gives a popular descriptive orientation of existing laws regarding the establishment of small-scale energy technology, like wind power plants, heat pumps, solar heating and others, and also of more efficient power generation. In the first part of the report 11 different local energy systems are described, together with their environmental impact. The second part gives a review of more than 20 laws. The central content of the laws are described, not the complete text

  4. Whole-tree harvesting - consequences for climate and biodiversity; Heltraedsutnyttjande - konsekvenser foer klimat och biologisk maangfald

    Energy Technology Data Exchange (ETDEWEB)

    Berglund, Haakan [Mid Sweden Univ., Sundsvall (Sweden)

    2006-05-15

    Harvest residues, i.e. mainly branches and tops, are increasingly being used as biofuel in Sweden. Stumps left after final cutting may also be utilized. Thus, harvest of total tree biomass, so called whole-tree harvesting, can potentially become a regular practice in the future. Extraction of biomass may, however, have negative effects on forest productivity and decrease carbon stores of forest soils. This report reviews the knowledge about (1) the extent of logging residue and stump harvesting; (2) the carbon budget of production forests; (3) the biodiversity associated with residues and stumps in harvested areas and (4) the added effects of residue and stump harvest on carbon budget and biodiversity in contrast to the effects of stem wood harvest. Stumps are not harvested as forest fuels, i.e. whole-tree harvesting is currently not applied in Sweden. Residues, however, are harvested annually on ca. 20% of the final cuttings in Sweden. The corresponding harvested biomass amount is estimated to about 0.6 M ton carbon (C) at a maximum. Forest stands primarily selected for residue harvesting are located on mesic grounds with high productivity. They are usually dominated by Norway spruce, thereby generating large amounts of harvest residues. The gross biomass of residues in these sites is estimated to 12-20 tons C per hectare of which about 65-75% is extracted during harvest. The future potential of residue harvesting is estimated to about 3 M ton C (30 TWh) annually. The potential biomass amount of stumps is estimated to be comparable to that of residues. The average amount of residues harvested on production forest land in Sweden (22.5 M ha) is estimated to 0.025 ton C/year/ha. This is small compared to average carbon pools (e.g. total tree biomass, 45 ton C/ha; total litter and soil carbon, 85 ton C/ha) and average yearly carbon fluxes (e.g. accumulation, 1.8 ton C/ha; stem harvest, 0.6 ton C/ha; litter production, 1 ton C/ha; residues and stumps left at final cuttings, 0.4 ton C/ha). Residue harvesting is considered to have limited effects on forest productivity. Reduction of tree growth rate caused by loss of nutrients can be mitigated by different measures, e.g. leaving the nutrient rich needles on site or nitrogen fertilization. In addition, no significant effects of residue harvesting on soil carbon stores have been found in either empirical studies nor modelling analyzes when comparing with changes caused by stem harvesting. Residue harvesting at final cutting is predicted to decrease total carbon amount produced as litter and deadwood during a rotation period with about 10-20%. Through decomposition most of the carbon of residues is released into the atmosphere within about 25 years. In conclusion, although combustion of residues involves immediate release of carbon, the use of residues as forest fuels is nearly carbon neutral. The knowledge about the effects of stump harvesting on forest carbon budget is limited. Current knowledge about species diversity among less studied organism groups such as invertebrates, bryophytes, lichens and fungi associated with harvest areas, residues and stumps is mainly based on the results of recent empirical studies. Only a few species tend to be specialized and restricted to residues of conifers and red-listed species are rarely found. Stumps, however, comprise the main part of the coarse deadwood material in managed forests and seem to host a rich insect fauna and cryptogram flora. By contrast to coniferous forests, broad-leaved forests of south Sweden host many deadwood dependent species that utilize fine (<10 cm) deadwood material. Here both red-listed and threatened species are found of which several species are confined to fine deadwood material. Due to the concentration of harvesting to certain forest types and landscapes, existing gradients in management intensity and biodiversity is being reinforced. In other words, the contrasts between the few small and biologically diverse stands and the surrounding production forest landscape as well as between different landscapes will increase. It is no trivial task to assess to what degree these contrasts will increase and how it will affect biodiversity in the long run. This task involves the species population dynamic consequences of spatio-temporal changes in forest and landscape structure. Thus, the effects of forest fuel harvesting on biodiversity need to be assessed while considering other forestry operations and conservation efforts in the landscape over time. Studies indicate that harvest residues host many species and can potentially be important for maintaining population sizes of species that still are considered to be frequent in intensively managed landscapes. Because stumps seem to host a diverse set of species, there is an urgent need for further large scale studies of the effects of stump harvesting on biodiversity before it is initiated at large scale. Restrictions on residue harvesting in oak and broad-leaved forests seems necessary, especially in south-east Sweden where the beetle fauna is exceptionally diverse. It is vital that the amount and quality of important substrate and biologically diverse habitats are not negatively affected by forest fuel harvesting.

  5. Place of the final disposal of short lived dismantling waste; Plats foer slutfoervaring av kortlivat rivningsavfall

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2013-01-15

    This report deals with the short-lived low and intermediate level radioactive waste, which will mainly arise from the dismantling of the Swedish nuclear power plants, but also the dismantling of other nuclear facilities. For these installations to be dismantled, there must be the capacity to receive and dispose of dismantling waste. SKB plans to expand the existing final repository for short-lived radioactive waste (SFR) in Forsmark for this purpose. The legislation requires alternatives to the chosen location. The alternate location for the disposal of decommissioning waste SKB has chosen to compare with is a location in the Simpevarp area outside Oskarshamn. There are currently Oskarshamn nuclear power plant and SKB between stock 'CLAB'. The choice of Simpevarp as alternative location is based on that it's one of the places in the country where data on the bedrock is available to an extent that allows an assessment of the prospects for long-term security, such an assessment is actually showing good potential, and that the location provide realistic opportunities to put into practice the disposal of decommissioning waste. At a comparison between the disposal of short-lived decommissioning waste in an extension of SFR with the option to build a separate repository for short-lived decommissioning waste in Simpevarp, the conclusion is that both options offer potentially good prospects for long-term security. The differences still indicated speaks to the Forsmark advantage. Similar conclusions were obtained when comparing the factors of environment, health and social aspects.

  6. Conditions for lowering the flue gas temperature; Foerutsaettning foer saenkning av roekgastemperatur

    Energy Technology Data Exchange (ETDEWEB)

    Nordling, Magnus

    2012-02-15

    In heat and power production, the efficiency of the power plant increases the larger share of heat from the flue gas that is converted to power. However, this also implies that the temperature of the heat exchanging surfaces is lowered. If the temperature is lowered to a temperature below the dew point of the flue gas, this would result in condensation of the gas, which in turn elevates the risk of serious corrosion attack on the surfaces where condensation occurs. Thus, it is important to determine the dew point temperature. One way of determining the dew point temperature is to use data on composition of the fuel together with operation parameters of the plant, thus calculating the dew point temperature. However, this calculation of the dew point is not so reliable, especially if hygroscopic salts are present. Therefore, for safety reasons, the temperature of the flue gas is kept well above the dew point temperature. This results in lowered over-all efficiency of the plant. It could also be expected that for a certain plant, some construction materials under certain operation conditions would have corrosion characteristics that may allow condensation on the surface without severe and unpredictable corrosion attack. However, by only using operation parameters and fuel composition, it is even harder to predict the composition of the condensate at different operation temperatures than to calculate the dew point temperature. If the dew point temperature was known with a greater certainty, the temperature of the flue gas could be kept lower, just above the estimated value of the dew point, without any increased risk for condensation. If, in addition, also the resulting composition of the condensate at different temperatures below the dew point is known, it can be predicted if the construction materials of the flue gas channel were compatible with the formed condensate. If they are compatible, the flue gas temperature can be further lowered from the dew point temperature with equal and small risk of corrosion, but with increased efficiency of the plant

  7. Analysis of markets for biofuels - Theme: Vehicle gas market; Analys av marknaderna foer biodrivmedel - Tema: Fordonsgasmarknaden

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2013-07-01

    In 2011 the Energy Agency was given an annual mission, which involved analyzing the current and future markets for ethanol and bio diesel. The mission resulted in a report that did a thorough analysis of price and market mechanisms in the Swedish and international market. This year's report aims to provide a situation analysis of the markets for ethanol and bio diesel, both first and second generation, with additional focus on certain market issues. This time, the Agency has also been asked to consider the market for vehicle gas, something that was not part of the original mandate from 2011. Regarding ethanol and bio diesel so have indentations made primarily on European protection duties.

  8. Energy statistics of apartment buildings in 2012; Energistatistik foer flerbostadshus 2012

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2013-07-01

    This report presents data regarding energy used for heating and hot water in Swedish apartment buildings (2012) in terms of heated floor area, use of energy (totals and averages) and use of fuels (totals and averages) for the total population and for various subDivs.

  9. Pretreatment of different waste streams for improvement in biogas production; Foerbehandlingsteknikers betydelse foer oekat biogasutbyte

    Energy Technology Data Exchange (ETDEWEB)

    Sarvari Horvath, Ilona (Hoegskolan i Boraas (Sweden)); del Pilar Castillo, Maria (JTI (Sweden)); Loren, Anders; Brive, Lena; Ekendahl, Susanne; Nordman, Roger (SP, Boraas (Sweden)); Kanerot, Mija (Boraas Energi och Miljoe AB (Sweden))

    2010-07-01

    Biological breakdown of organic municipal and industrial waste to biogas is already in use today. The technology is of outmost importance to attain the environmental goals that our society has set regarding to sustainable development. Of decisive economic importance is the ability to obtain an increased amount of biogas from the same amount of substrate. Alternative resources for biogas production are at the same time of great interest in order to enable a large expansion of biogas production. The goal of applying a suitable pre-treatment step before anaerobic digestion is to open up the molecular structure of inaccessible biopolymers in order to facilitate access to the carbon for microorganisms involved in biological breakdown and fermentation to biogas. Our study shows that introducing a pretreatment step opens new perspectives for biogas production. Treatment of paper residuals by steam explosion increased methane production up to 400 Nm3/ton dry matter, to a double amount of methane yield compared to that of untreated paper. A novel method for pretreatment with an environment-friendly solvent N-methylmorpholine-N-oxide (NMMO) was also tested on lignocellulose-rich waste fractions from forest and agricultural. The NMMO-treatment increased the methane yields of spruce chips and triticale straw by 25 times (250 Nm3/ton dry matter), and by 6 times (200 Nm3/ton dry matter), respectively, compared to that of the untreated materials. Keratin-rich feather waste yielded around 200 Nm3 methane/ton dry matter, which could be increased to 450 Nm3/ton after enzymatic treatment and to 360 Nm3/ton after either chemical treatment with lime, or after biological treatment with a recombinant bacterial strain of Bacillus megaterium. However, the gain in increased amount of methane after a pretreatment step should be weighted against a possible increase in energy usage generated by the pretreatment. We have therefore performed a case study in which the energy balance for a biogas plant was calculated. We have calculated the changes that occur if a pretreatment step was included in the process. For the calculations data obtained during anaerobic digestion of paper waste treated by steam explosion were used. The results showed that while the methane production is increasing by 7,5 % the energy need of the process is decreasing by 21% when a pretreatment step by steam explosion is used instead of a hygienisation step. Batch anaerobic digestion gives methane yields and breakdown rates on pretreated and untreated material, which then can be compared, while continuous anaerobic digestion experiments enable evaluation of the long-term effects of the pretreatment. During the continuous anaerobic digestion experiments untreated or pretreated paper waste was tested in a co-digestion process with an existing waste mixture from Sobacken's biogas plant. However, it was hard to discern the effects of the treatment because the composition and characteristics of the waste mixture had larger impact on the co-digestion process than the pretreatment of the paper fraction part by itself. Nevertheless, our results of the continuous digestion most interestingly showed that a change in substrate composition can stabilize the digestion process with the effect of a 30 % increase in methane production compared to that of the existing original waste mixture. This raises new specific questions on how the composition of mixed-flows influences the biogas production and on how the structural and chemical characteristics of substrate resources, pretreated or untreated, affect the anaerobic digestion. These questions can be central points in future strategic research within the biological waste management area

  10. Digital analysis of air photography for sustainable forest management; Digital flygbildsteknik foer uthaallig skogsskoetsel

    Energy Technology Data Exchange (ETDEWEB)

    Ekstrand, Sam; Loefmark, Magnus; Johansson, Desiree

    2001-02-01

    The objective of this project was to develop methods for estimation of forest stand variables using digital analysis of near infrared air photography. Near Infrared air photography covering an area 200 km northwest of Stockholm was scanned and ortho rectified. Methods for digital classification, normalisation of view angle effects and estimation of parameters such as timber volume, stand density, crown coverage, species composition, defoliation and number of dead or dying trees have been developed. Major results were that the functions for normalisation on view angle effects on tree size as viewed from the focal point strongly improved the stand estimates. Timber volume, stand density, species composition as well as the ecological variables were estimated with accuracies comparable to those of subjective field inventory methods. In spite of the photography being of high quality, differences in colour between flight lines gave problems with separation of pine and spruce. This may be solved using post-classification manual editing, but will cause an increase in costs. In the future, digital cameras or calibration lamps within the photograph could further reduce this problem.

  11. Intermedial Strategies of Memory in Contemporary Novels

    DEFF Research Database (Denmark)

    Tanderup, Sara

    2014-01-01

    In her article "Intermedial Strategies and Memory in Contemporary Novels" Sara Tanderup discusses a tendency in contemporary literature towards combining intermedial experiments with a thematic preoccupation with memory and trauma. Analyzing selected works by Steven Hall, Jonathan Safran Foer...

  12. The potential for heat pumps using industrial waste heat. Final report from a prestudy in the Energy Agency's program Effsys; Potentialen for vaermepumpar som utnyttjar industriell spillvaerme. Slutrapport fraan foerstudie i Energimyndighetens program Effsys

    Energy Technology Data Exchange (ETDEWEB)

    Gabrieli, Cecilia [Chalmers Univ. of Technology, Goeteborg (Sweden)

    2005-06-01

    The availability of industrial waste heat in Sweden is good, both at high temperatures (i.e. can be utilized through direct heat exchange) and low temperatures (i.e. heat pumps are needed to utilize the heat). The main sources are located within the pulp and paper industry and within the steel industry. Also other smaller sources, e.g. within food industry and chemical industry, are of interest, since they often are located closer to district heating networks. In Sweden, there are today about 60 cooperation agreements between industries and district heating companies, with an annual delivery of around 4.5 TWh heat to the district heating networks. In about 10 of these heat pumps are utilized delivering around 1 TWh annually. The cooperation agreements have usually been in power for many years and are working well. A rough estimate of the potential for increased use of heat pumps to utilize industrial waste heat is around 1 TWh, i.e. a doubling of today's delivery. Based on a questionnaire to district heating companies, two main competitors to waste heat utilizing heat pumps have been identified. They are bio-fuelled combined heat and power plants, who has received installation cost subsidies by the government, and the increased use of waste fuelled heat and power plants as a consequence of new legislation concerning waste deposits. This has already or is likely to decrease the number of working hours and even cause closing down of heat pump plants. There are, however, a number of other factors that influence the future competitiveness of heat pumps, e.g. changes in prices for bio-fuel and electric power, changes in government subsidies, changes in taxation of heat and power productions as well as of waste. The demand for district cooling is increasing, creating possibilities of dual use or combined usage of heat pump equipment. In Swedish industry, there are about 30 installations of compression-type heat pumps with a heat delivery capacity of more than 500 kW. They are primarily used for space and tap water heating. There are also about 20 mechanical vapour compression plants, usually connected with evaporators. However, the internal use of heat pumps in industry is only about 10 % of the total heat delivery from heat pumps. This might increase if 'long-term agreements' between industry and government is introduced. The total heat delivery to district heating utilizing heat pumps is today about 7 TWh, out of which, as already mentioned, about 1 TWh comes from upgraded industrial waste heat. The most common heat sources are sewage water and sea or lake water. It is therefore recommended to include also such sources in a continuation of this work. Further studies are suggested within the following areas: What is the role of heat pumps under different future scenarios regarding prices and other measures, e.g. legislation. Is it possible, by increasing duty/effectiveness of heat pump systems, to increase the competitiveness of heat pumps compared to other means of heat production? Which is the best way to integrate the heat pump usage for district heating and district cooling. Identification of case studies.

  13. Pre-study of dynamic loads on the internals caused by a large pipe break in a BWR; Foerstudie av stroemningsinducerade laster paa interndelar vid brott i huvudcirkulationskretsarna i BWR

    Energy Technology Data Exchange (ETDEWEB)

    Marcinkiewicz, Jerzy; Lindgren, Anders [Det Norske Veritas Nuclear Technology AB, Stockholm (Sweden)

    2002-12-01

    Det Norske Veritas Nuclear Technology has performed a literature study of dynamic load on a BWR (Boiling Water Reactor) internals caused by a large pipe break. The goal of the study was to improve the knowledge about the physics of phenomena occurring in the RPV (Reactor Pressure Vessel) after pipe break in the main circulation system and also to make a review of calculation methods, models and computer programs including their capabilities when calculating the dynamic loads. The report presents description of relevant parts of a BWR, initial and boundary conditions, and phenomena determining the loads - rapid depressurization and propagation of pressure wave (including none-equilibrium). Furthermore, the report generally describes possible methodologies for calculating the dynamic loads on internals after the pipe break and the experiences from calculations the dynamic loads with different methods (computer programs) including comparisons with experimental data. Fluid-Structure Interaction methodology and its importance for calculation of dynamic loads on reactor internals is discussed based on experimental data. A very intensive research program for studying and calculating the dynamic loads on internals after pipe breaks has been performed in USA and Germany during the seventies and the eighties. Several computer programs have been developed and a number of large-scale experiments have been performed to calibrate the calculation methods. In spite of the fact that all experiments were performed for PWR several experiences should be valid also for BWR. These experiences, connected mainly to capabilities of computer programs calculating dynamic loads, are discussed in the report.

  14. Pre-study - compilation and synthesis of knowledge about energy crops from cultivation to energy production; Foerstudie - sammanstaellning och syntes av kunskap och erfarenheter om groedor fraan aaker till energiproduktion

    Energy Technology Data Exchange (ETDEWEB)

    Berg, Magnus; Bubholz, Monika; Forsberg, Maya; Myringer, Aase; Palm, Ola; Roennbaeck, Marie; Tullin, Claes

    2007-06-15

    Energy crops constitute a yet not fully utilized potential as fuel for heating and power production. As competition for biomass hardens the interest for agricultural fuels such as straw, energy grain, willow, reed canary grass and hemp increases. Utilization of the potential for energy crops as fuels demands that cultivation and harvest are coordinated with transportation, storage and combustion of the crops. Together, Vaermeforsk and Swedish Farmers' Foundation for Agricultural Research (SLF), have taken the initiative to a common research programme. The long-term aim of the programme is to increase production and utilization of bioenergy from agriculture to combustion for heat and power production in Sweden. The vision is that during the programme, 2006 - 2009, decisive steps will be taken towards a working market for biofuels for bioenergy from agriculture. This survey has compiled and synthesized available knowledge and experiences about energy crops from the field to energy production. The aim has been to give a picture of knowledge today, to identify knowledge gaps and to synthesize knowledge of today into future research needs. A proposal of a research plan has been developed for the research programme.

  15. Simulation and cost analysis of systems for handling of fuel straw - applied to a heating plant in Skaane; Simulering och kostnadsanalys av hanteringssystem foer braenslehalm - tillaempning foer en vaermeanlaeggning i Skaane

    Energy Technology Data Exchange (ETDEWEB)

    Nilsson, Daniel

    2010-05-15

    The following conclusions were drawn from this study: - The total costs for delivery of fuel straw to heating plants ranged from about 130 SEK/MWh to 180 SEK/MWh (1 SEK approx 0.14 USD), depending on the payment to farmers for the straw, the storage method used, the profit margins of the contractors, etc. - The area investigated, which covered parts of the municipalities of Svaloev, Esloev and Kaevlinge, has very good conditions for harvest of straw compared with other parts of Sweden. The yield of winter wheat (and straw) is high, the road network is well developed, the fields are concentrated and large, the straw crops ripen early, and security of supply between years is high. - For a harvest and handling system with an average capacity of about 8 000 tonnes of straw per year, the simulations showed that a machine system with six balers, two loaders in the field, four transporters (tractor), one loader at the stores and lorry transport to the heating plant was cost-effective with regard to system performance (for example, expressed as the average amount of straw baled per year with a moisture content below 18%, the average quantity of straw per year put into storage prior to 1 October, the average lying time for the straw between threshing and baling, etc.). - Harvesting straw from various crops (in this case winter rape, rye and winter wheat) instead of only winter wheat had no major impact on costs, but increased the chance to harvest 'greyer' straw with lower contents of alkali metals, chlorine, etc. Only including fields of at least 5 ha had a minor impact on costs. Noticeable cost savings occurred when the field size limit was set to 10 ha or more. Increasing the moisture content limit at baling to 20% made it possible to harvest more straw, especially in years with difficult weather conditions. - The storage method used had a decisive impact on costs. Outdoor storage decreased the total costs to 133 SEK/MWh (7% storage losses), compared with 154 SEK/MWh for an equivalent harvest system with storage in machine sheds (0% storage losses, 60% of the construction costs assigned to the straw, the rest for other uses). - Increasing the bale weight from 530 kg to 700 kg (with unchanged dimensions of 1.2 m x 1.3 m x 2.4 m) produced cost savings of 15%. Having bales with an unchanged weight of 530 kg, but with a height of 1.0 m so that three bales could be stacked on top of one another during transport, resulted in similar cost savings. - In-depth studies are needed regarding the capacity of modern harvest and handling machines, stoppage frequency, etc. (i.e. time studies), the impact of various weather parameters on straw quality, the costs and storage losses for different storage methods, etc. - Dynamic event simulation is a useful method for analysing complex logistics systems where weather, plant biology, geography, soil characteristics, etc. have a major impact on the outcome

  16. Forecasts and restrictions on vibrations from rock excavation and transportation. Encapsulation Plant and Repository for spent nuclear fuel, Laxemar; Prognoser och restriktioner foer vibrationer fraan bergschaktning och transporter. Inkapslingsanlaeggning och slutfoervar foer anvaent kaernbraensle, Laxemar

    Energy Technology Data Exchange (ETDEWEB)

    Lind, Carl; Johansson, Sven-Erik (Nitro Consult AB (Sweden))

    2010-12-15

    This study describes the impact on the surroundings that may occur during rock excavation activities for the final repository for spent nuclear fuel in Laxemar and the encapsulation facility in Simpevarp. The study also includes vibrations created by heavy shipments related to activities at the final repository. The study will provide input to the environmental impact assessment and future design work. The survey area for buildings and facilities covered by the study extends approximately 1,000 metres from the proposed location of the final repository. For the encapsulation facility the survey area has been limited to residential buildings and summer houses within 1,000 metres of the proposed location. In addition, residential buildings along road 743 have been surveyed with regard to the impact of heavy shipments between Laxemar and Faarbo. The results of the surveys and information on planned rock excavation activities have been used to formulate preliminary restrictions and predictions of vibrations and air shock waves from blasting, as well as noise from rock drilling. Predictions have also been made of vibrations from heavy shipments, and a reference survey has been carried out in a residential building near road 743. The predictions of vibrations from blasting rounds reveal low or very low levels. No risk of damage to buildings or equipment is expected. Vibrations from blasting may, however, be perceptible within large parts of the study area, since the human perception threshold for vibration is very low. They will hardly be regarded as disturbing, however. When the accesses to the final repository have been built and rock excavation continues at repository level, the impact on the surroundings is expected to be minimal. The main reason for this is that the blasting will then occur at a depth of about 500 metres, at an ample distance to buildings at surface level. Predictions of air shock waves from blasting rounds indicate low levels. There is no risk of damage but air shocks may be audible at great distances during the first few years when surface facilities are being built and blasting is being done for the ramp and sunk shafts. They are not expected to be perceived as disturbing, since the blasting will be limited to a few times per day during the most intensive period. Structure-borne noise from rock drilling for the repository will not be audible due to large distances to buildings. Noise from above-ground drilling may be audible, but below guideline values. Also, the drilling is limited to a relatively short period of time. In Clab, indoor guideline values may be exceeded during drilling for the encapsulation facility. There is no risk of flyrock from blasting that could cause damage to the surroundings. The scope and nature of flyrock protection will be determined at a later stage, but as a general rule the initial blasting rounds, when the risk of flyrock is the greatest, will be carried out as controlled blasting. Vibrations in surrounding buildings caused by heavy shipments to and from the final repository are not expected to cause any damage, mainly due to the fact that the supporting ground along the transport routes is dominated by rock or till. The reference survey carried out in Oevrahammar verifies this and shows low vibration levels. If the future status of the concerned parts of road 743 is the same as today, disturbing vibrations are unlikely to occur, even if the heavy shipments increase in number. In summary, it is concluded that the guideline values and limit values stipulated in applicable standards, recommendations and guidelines for vibrations, air shock waves and noise from blasting activities, as well as noise from drilling and boring will be met by ample margin. The impact on the surroundings from blasting activities during the construction of the final repository and the encapsulation facility is therefore expected to be very limited

  17. Insulating product of mineral fibre wool, intended in particular for heat insulation of pipes and method for preparing this product; Isoleringsprodukt av mineralfiberull, avsedd i synnerhet foer vaermeisolering av roer, och foerfarande foer framstaellning av denna produkt

    Energy Technology Data Exchange (ETDEWEB)

    Talling, B.

    1991-10-04

    The invention relates to a heat insulation product of mineral fiber wool. The curable binding agent of the product is an aqueous suspension containing water glass and slag. The slag reacts hydraulically with the alkalis or the water glass yielding water resistant bonds. During the preparation of the product, the suspension of water glass and slag is agitated before being applied onto the product. The curing of tile binding agent can be carried out immediately or at a later time. Curing may be effected at room temperature or at an elevated temperature. (orig.)

  18. Roll pelleting. Evaluation of a new technique for producing pellets from bioash suitable for forest nutrient; Valspelletering. Utvaerdering och uppfoeljning av pilotprojekt omfattande ny teknik foer framstaellning av pellets foer aaterfoering av bioaska till skogsmark

    Energy Technology Data Exchange (ETDEWEB)

    Windelhed, Kjell [Sycon Teknikkonsult AB, Stockholm (Sweden)

    2000-05-01

    Roll pelleting has earlier been tested in laboratory scale as a technique for processing wood ash to a product suitable to be spread into forest and thereby returning mineral nutrients to forest soils. The roll pelleting technique for producing pellets has, in this project, been evaluated in full scale. A container-based pelleting machine has been tested during nine months in AssiDomaen Froevi and Stora Enso Fors. Totally about 1500 tons of pellets were produced. The project started with a laboratory leach study. This study showed that pellets produced in a laboratory pelleting machine has a very low leach rate, in fact so low that the pellets seems possible to be spread on clearcuts. The pelleting machine was designed for a capacity of 5 tons per hour but the test indicated that production of 10 tons per hour was possible. The evaluation showed that this technique is suitable for producing pellets intended for returning nutrients to forest soils. However, it is important to start with a well humidified wood ash and to connect the control system for the humidification mixer with the pelleting machine to get an automatic system. Further, spreading of the pellets with a common disc spreader has been tested. The test turned out successful.

  19. Multivariate (alarms) process control for reduced risk for bed agglomeration/defluidisation in FB boilers; Multivariat (alarm) processoevervakning foer minskad risk foer baeddagglomerering/defluidisering i FB-anlaeggningar

    Energy Technology Data Exchange (ETDEWEB)

    Oehman, M. [ETC, Piteaa (Sweden); Hoekfors, C. [Sigma iSoft AB, Piteaa (Sweden); Nordin, A. [Umeaa Univ. (Sweden). Dept. of Chemistry; Lundberg, L. [Skellefteaa Kraft AB, Skellefteaa (Sweden); Nordsvahn, L. [ETC, Piteaa (Sweden)

    2002-01-01

    Ash-related operational problems are one of the most common process-related disturbances during biomass combustion. Bed agglomeration (sintering) is especially problematic during fluid bed combustion. In most severe cases, agglomeration and blocking of the return-valves in CFB-plants could result in unplanned plant shut down. It would therefore be of considerable interest to find a method, which could predict initial problems in such a god time before a outset problem so that measure for prevention could be taken before it is to late. With traditional process control systems this has been difficult or impossible. The time from initial agglomeration of the bed material particles to a total defluidisation of the bed could be very short. It is therefore often too late to solve the problem when the operational personals have discovered that something is going on. The aim of the present work was therefore, in a full-scale FB-plant, to illustrate the benefits of multivariate process control and multivariate alarms for reducing the risk for agglomeration in the bed and/or in the return-valves, i.e. unplanned plant shut down. One biomass fired CFB-plant has participated in the project (Skellefteaa Kraft AB). Previous agglomeration experiences in this plant have been located to the cyclone and the return valves. Operational-parameters such as temperatures, pressures and gas-composition etc. were continuously taken out from the traditional process-system for external multivariate treatment by principal component analysis (PCA). Simultaneously, a diary was kept with characterisation of experienced ash related problems by the operational personal. The produced PCA-models have then been used for indicating deviations from 'normal' operation (multivariate alarms) for executed data taken before and in connection with the operational stop, caused by clogging of the cyclone-leg, during December 2000. The results strongly indicated that the produced PCA-model could predict the initial clogging of the cyclone-leg about 1,25 days earlier than when the operational-personal have been averred of the problem and about 1 day before a traditional alarm, set by the difference pressure over the return-leg, indicates clogging. More 'problem-occasions' are still needed to definitively determine the reliability of and to 'trim' the model. The transference of the model to other plants is, however, definitively limited but the methodology is highly recommended for similar boilers.

  20. RDandD Programme 2010. Programme for research, development and demonstration of methods for the management and disposal of nuclear waste; Fud-program 2010. Program foer forskning, utveckling och demonstration av metoder foer hantering och slutfoervaring av kaernavfall

    Energy Technology Data Exchange (ETDEWEB)

    2010-09-15

    The RD and D programme 2010 gives an account of SKB's plans for research, development and demonstration during the period 2011-2016. SKB's activities are divided into two main areas - the programme for Low and Intermediate Level Waste (the Loma program) and the Nuclear Fuel Program. The RD and D Programme 2010 consists of five parts: Part I: Overall Plan, Part II: Loma program, Part III: Nuclear Fuel Program, Part IV: Research on analysis of long-term safety, Part V: Social Science Research. The 2007 RD and D programme was focused primarily on technology development to realize the final repository for spent nuclear fuel. The actions described were aimed at increasing awareness of long-term safety and to obtain technical data for application under the Nuclear Activities Act for the final repository for spent fuel and under the Environmental Code of the repository system. Many important results from these efforts are reported in this program. An overall account of the results will be given in the Licensing application in early 2011. The authorities' review of RD and D programme in 2007 and completion of the program called for clarification of plans and programs for the final repository for short-lived radioactive waste, SFR, and the final repository for waste, SFL. This RD and D program describes these plans in a more detailed way

  1. Enzymatic pretreatment of wood chips for energy reductions in TMP production. A method for ranking of enzymes; Enzymatisk foerbehandling av flis foer energibesparing vid TMP tillverkning. Metod foer rankning av enzymer

    Energy Technology Data Exchange (ETDEWEB)

    Viforr, Silvia

    2010-11-15

    The production of thermomechanical pulp (TMP) demands high levels of energy. This, together with current expensive energy prices of nowadays results in significant costs, which is the reason why there is a demand for processes that require less energy. One way of reducing energy consumption in TMP refining could be to pretreat the wood chips with enzymes before the subsequent refining step. However, enzymes molecules are relatively large, which limits the impregnation process, and so the pores in the fibre walls are not large enough to fit the size of the enzymes. By mechanically pretreating wood chips in a screw feeder and press equipment, this opens the wood structure significantly which increases enzyme penetration. If enzymes are used for reducing energy consumption in TMP processes, it is necessary to optimise the enzymatic effect during the pretreatment of wood chips. It is very expensive to evaluate completely the effect of enzymes in large scale refining. Thus there is a need for other relevant methods for rapidly and effectively evaluating the energy saving effects when it comes to refining enzymatic pretreated wood chips. The aim of this project was to find a method for ranking of enzymes for pretreatment of chips for energy savings at TMP production. This method was to be independent of the type of enzyme used and of the type of pretreated wood chips involved. In order to asses the method for ranking enzymes being used in the pretreatment of chips to reduce energy input during refining, a comparison between the method and a mill trial was carried out in the mill trial. A known chemical pretreatment was used; here it was sulphonation of the wood chips before refining with low sulphite levels. Further, a laboratory wing refiner was used as an evaluation equipment. The trial started with the running conditions for a wing refiner that the best correspond with industrial refining. An evaluation was made on the effect of enzymatic pretreatment on energy savings during refining, when an industrial enzyme was used, here a pectinase. An assessment of the method used in the mill trial showed that the method for ranking enzymes in the pretreatment of wood chips could benefit from using a wing as the laboratory refiner. The enzymatic pretreatment of wood chips with pectinases indicated a positive result when it come to the effect of the enzymes on reduction in energy consumption during TMP production. A wing refiner can be used as a tool for evaluation and ranking enzymes, when pretreating chips for reducing energy consumption. A survey of enzymes that are effective in the pretreatment of wood chips in order to reduce the energy input at TMP production is recommended to be done. The experimental costs for mapping the enzymes suitable for pretreatment of wood chips at TMP production using the evaluation method developed in this work may be significantly reduced

  2. The EU system for emissions trading after year 2012; EU:s system foer handel med utslaeppsraetter efter 2012

    Energy Technology Data Exchange (ETDEWEB)

    Normand, Mathias; Mjureke, David (eds.)

    2007-01-15

    The Government has instructed the Swedish Energy Agency and the Swedish Environmental Protection Agency to put forward a proposal for how the EU Emissions Trading Scheme (EU ETS) should be developed after 2012, subject to the overall objective of continuing to reduce emissions with the aim of achieving the long-term objectives of the Convention on Climate Change. In its Council Conclusions (7619/1/05) the EU has interpreted the long-term objectives of the Convention on Climate Change as aiming to achieve emission reductions of 15-30 % in the industrialised countries by 2020. According to Council Conclusions (13435/05), the EU has also decided that the Emissions Trading Scheme should continue after 2012. The starting point for this report is that, after 2012, the Scheme will be a key instrument in achieving cost-efficient emission reductions, not only within the EU but also globally, and regardless of whether, with effect from 2013, the Scheme has become a part of an international climate regime, or is serving as a transition to some future new international climate regime. The purpose of this report is to provide a proposal for how the Emissions Trading Scheme should be developed after 2012. The aim is to construct a system that helps to reduce global emissions of greenhouse gases (maintaining climate integrity), that assists measures being taken where they are cheapest (cost efficiency), that is accepted by parties concerned and by the general public (confidence inspiring), and which does not adversely affect the competitiveness of business or industry (competition-neutral). The Agencies recommend that Sweden should adopt the following standpoints concerning development of the EU Emissions Trading Scheme after 2012. (Recommended changes to the system presuppose a harmonised implementation throughout the EU.): In connection with international negotiations, Sweden should press for the Emissions Trading Scheme to be developed in such a way as to make it possible to achieve emission reductions in line with Council Conclusions (7619/1/05) in the form of total emission reductions of the order of 15-30 % in the industrialised countries by 2020. Sweden should press for the Scheme to be linked with other trading schemes, subject to retention of climate integrity. Linking can strengthen global climate policy ties and influence countries not having internationally binding climate commitments towards participating in some climate policy agreement. Linking also helps to counter international distortion of competition. There should be considerable opportunities for the use of CDM (or equivalent) credits in the Scheme, given that the EU has strict commitments on emission reductions. In order to ensure the system's climate integrity and competition neutrality, efforts should be aimed at ensuring that the total quantity of allowances in the Trading Scheme is decided directly at EU level (i.e. top-down), instead of as today starting from national allocation plans (i.e. bottom-up). Sweden should promote continued expansion of the Scheme to other sectors and for other gases. In 2013, it should be expanded to include emissions of carbon dioxide and PFC from primary and secondary aluminium production, carbon dioxide from certain chemical industry sectors, nitrous oxide from certain chemical industry sectors and methane from active coal mines. The European road transport sector can be included in the Scheme. However, this will pose challenges in respect of the effects on industrial competitiveness and developments within the road transport sector. In order to be able to adopt a firm position in the matter of how the road transport sector should be treated in relation to the EU ETS, Sweden should initiate in-depth studies of consequences of different options, including a separate trading scheme for the European transport sector. Purely biofuelled combustion installations should be excluded from the Scheme, and the monitoring requirements for pure biofuel streams in combustion installations that partly use biofuels should be abolished. Sweden should press for a broad and harmonised definition of the term 'combustion installation', bearing in mind the possible consequences for small installations. Efforts should be made to encourage auction procedures as the basis of allowance allocation for all sectors within the Scheme. However, until competitors outside the EU encounter some form of cost in connection with their carbon dioxide emissions, industry covered by the Scheme can continue to be allocated free allowances, preferably according to benchmarks common to the entire EU. The electricity and district heating sectors within the EU should not be allocated free allowances. These sectors' allowances should be distributed to the market by means of auctions that are open to all parties within the EU ETS. New entrants of the electricity and district heating sectors should be required to purchase their allowances on the market. Until auction procedures are introduced for existing industrial participants in the scheme, new entrants in the industrial sector should be allocated free allowances in accordance with common EU benchmarks where possible. Any surpluses from reserves kept for new entrants should be cancelled. If reserves are maintained for free allocation to new entrants, allocation of allowances to plants that have closed should cease.

  3. Measures for simultaneous minimisation of alkali related operating problems; Aatgaerder foer samtidig minimering av alkalirelaterade driftproblem. Ramprogram

    Energy Technology Data Exchange (ETDEWEB)

    Davidsson, Kent; Eskilsson, David; Gyllenhammar, Marianne; Herstad Svaerd, Solvie; Kassman, Haakan; Steenari, Britt-Marie; Aamand, Lars-Erik

    2006-12-15

    Combustion of biofuel and waste wood is often accompanied by chlorine and alkali related operating problems such as slagging, deposit formation and corrosion on heat exchanger surfaces and bed agglomeration in fluidised bed boilers. In order to gain a greater insight into possible measures to overcome alkali related operating problems studies were carried out during 2005-2006. The results of the studies are presented in this report which includes work performed in the two following projects: 1 A5-509 Frame work - measures for simultaneous minimisation of alkali related operating problems 2 A5-505 Bed agglomeration risk related to combustion of cultivated fuels (wheat straw, red canary grass, industrial hemp) in commercial bed materials Full-scale experiments were carried out at Chalmers 12 MW{sub th} CFB boiler within the project A5-509. The purpose was to study the effect of various measures on bed agglomeration and deposit formation in connection with co-combustion of wood and straw pellets. The various measures included changing the bed material (blast furnace sand and olivine sand), adding various additives (kaolin, ammonium sulphate, elemental sulphur) and also co-combustion with sewage sludge. Furthermore results from kaolin experiments at the 26 MWth CFB boiler owned by Naessjoe Affaersverk were made available during the project and are also presented in this report. The results from the experiments at Chalmers revealed that, already at the lowest dosage of kaolin, approx. 2 kg/MWh, the bed material agglomeration temperatures increased significantly. The dosage of kaolin can presumably be reduced somewhat further while still maintaining the high agglomeration temperature. Experiments with a higher dosage of kaolin, 7 kg/MWh, proved that kaolin could also reduce the risk of deposit problems. The experiments at Naessjoe showed also that addition of kaolin increased the agglomeration temperature of the bed material. Addition of sulphur in any form resulted in a reduced chlorine content in the deposits. Ammonium sulphate was more effective than elemental sulphur on the basis of added sulphur. However, no significantly positive effect was observed on the bed agglomeration. The risk for both agglomeration and deposits problems were reduced during co-combustion with sewage sludge. Further results from the experiments at Chalmers revealed that the effect of changing bed material was dependent on the type of bed material chosen. The blast furnace sand had a greater effect than olivine sand when reducing the risk of bed agglomeration. The content of alkali chlorides in the flue gas and in deposits were doubled when changing the bed material to olivine sand, compared to the reference case (a silica sand named silversand). Even in the experiments with blast furnace sand, the alkali chloride content in the deposits increased, but not as much as in the case with olivine sand. According to approximate estimations, the costs of the various measures will be in the range of 3-30 SEK/MWh. Simultaneous addition of sulphur and kaolin is an interesting approach which will be investigated in stage 2. Within the project A5-505, laboratory experiments were performed in a 5 kW bubbling fluidised bed reactor where the tendencies of bed agglomeration for wheat straw, red canary grass, industrial hemp were studied in combination with different commercial bed materials. The results showed that straw had the greatest agglomeration tendency followed by red canary grass and industrial hemp. Furthermore the experiments showed that the fuel ash appeared in the bed as sticky separate ash particles and that the composition of the bed material had no significant effect on the agglomeration tendencies of the different fuels

  4. Development of a dynamic drying model for for a combustion grate; Framtagande av en dynamisk torkmodell foer en foerbraenningsrost

    Energy Technology Data Exchange (ETDEWEB)

    Broden, Henrik; Ramstroem, Erik [TPS Termiska Processer AB, Nykoeping (Sweden)

    2005-02-01

    Combustion of wet wood fuel at high grate loading requires good control of the burnout position to avoid unacceptably high content of unburnt fuel in the ash. To control the burn-out position, control actions on the grate feeding must be made with sufficient range and anticipation. One way to improve the understanding of the dynamic fuel bed response on changes in control system parameters is mathematical modelling. The research task has been to develop a mathematical model of a drying fuel bed on a moving grate. The model includes a simplified description of drying, pyrolysis and char combustion and also pusher/grate movement and primary air flow/distribution. The objectives of the project have been to establish the most likely mechanism for drying and ignition of a wet fuel bed on a moving grate by the use of mathematical modelling and also to create a tool for simulation of control system step responses. The target group for the project are individuals working in the area of control system development of grate fired boilers. Three different assumptions on drying and ignition front propagation in a bio fuel bed with 50 and 53 % moisture have been modelled: 1. Drying and ignition from an underlying char layer in a co-current primary air flow 2. Drying and ignition from an overlaying char layer in counter-current primary air flow 3. Drying and ignition from both an underlying and overlaying char layer The model with drying and ignition driven by an underlying char layer is the projection, which gives the fastest and time-wise the most similar course to what one normally sees in grate fired boilers. The model with drying and ignition from above is not capable of upholding a stable diffusion controlled burning char layer since too small quantities of heat is transferred into the fuel bed. The model with drying and ignition from both directions results in similar combustion rate as the first model. The similar course of combustion is due to the energy for drying mainly transported by convection. This model exhibit the same difficulty as the second model maintaining a burning char layer on the topside. A number of control system step responses have been calculated. The results show that control actions, which but comprise grate feeding only temporarily changes the fuel bed extension. After a course of curving in, the bed take in a steady state, which is almost identical to the initial position. The step answer analysis indicates that actions, which also include changes in primary air stoichiometry are more efficient methods to permanently change the bed extension and course of drying. By combining combustion theory with knowledge on fuel bed feeding the project has created a novel tool to estimate the short and long term consequences of control actions during grate combustion. The primary field of application for the model in its present design is step answer analysis.

  5. Suggestion for a course of action on recycling wood ash to forests; Foerslag till handlingsplan foer askaaterfoering

    Energy Technology Data Exchange (ETDEWEB)

    Bjurstroem, Henrik [AaF-Energi and Miljoe AB, Stockholm (Sweden)

    2002-10-01

    The purpose of the study reported here is a suggestion for a course of action that could be adopted by The Swedish Thermal Research Institute, within its program 'Environmentally correct utilization of ashes', with regard to recycling wood ashes to forest soils. Past and present activities concerning recycling to forests, incl. R and D, have been reviewed as a first step towards this goal. Thereafter, the present situation is discussed and some important actions are proposed. The assumption underlying the study is that wood ash shall be recycled, i.e. spread on forest soils, in order to compensate for the removal of mineral nutrients when whole trees are harvested. Account is taken neither of the discussion whether recycling ashes is necessary nor of alternative uses which might be more economically interesting. Actions that the producers of ashes might consider are the following: to establish a structured procedure to identify obstacles and actions to remove these. The question why ashes are recycled or not is complex, and it may be difficult to reduce it to a single question and answer. Actions that may be considered could be more information, improved organizational procedures, etc. depending on the obstacle: to try to build up more interest for recycling ashes by identifying areas where also a short term benefit for growth can be demonstrated and promoting the spreading of ashes there. It should be noted, though, reservations stated by the National Board of Forestry and the Swedish Energy Agency: spreading ash to peat soil is not recycling and spreading to nitrogen-burdened soil is not desirable; to develop methods for quality assurance, which would lead to consistent and better-known properties for the wood ashes. This includes standardization; to take part in the work aiming at the requirements on leaching properties that probably will be included in revised guidelines from 2005, or to perform parallel work in order to build up necessary know-how or technical development of the 'product': its handling (incl. during spreading), its function when the ash has been spread.

  6. Guidance to regulations on trade with emission permits for carbon dioxide; Vaegledning till lagstiftning om handel med utslaeppsraetter foer koldioxid

    Energy Technology Data Exchange (ETDEWEB)

    2008-07-15

    This guidance is intended to facilitate application of the rules on emissions trading. The guidance is principally concerned with issues relating to permit appraisal and monitoring, but also discusses some terms common to permits and allocations, such as installation and operator. The guidance follows the same structure as the Swedish Environmental Protection Agency regulations (NFS 2007:5) in order to provide direct support for the rules. The focus is on providing a general description of the responsibilities of the operator and application of the rules. In addition, some difficult terms and relationships are explained. However, no exhaustive description of the operator's responsibilities is given, nor are the rules on verification described. We therefore recommend that the guidance should be read in conjunction with the Trading Act, the Trading Ordinance and the Swedish Environmental Protection Agency regulations. The first chapter presents a brief description of the purpose of the trading scheme, and is followed by a chapter in which the rules on applying for permits and the application procedure are reviewed. The next chapter gives a description of how the operator should monitor emissions and how the rules for the monitoring plan work, as well as the options that exist for simplified monitoring. The next chapter looks at notifications the operator might have to make and what they should contain. Guidance is also provided on how the county administrative board should process these notifications. The conditions of the permit decision are also briefly described. This is followed by a short chapter on the emissions report and the materiality threshold. The final chapter comments on certain parts of the annexes to the regulations. The EU Emissions Trading Directive has been implemented in Sweden through the Emissions Trading Act (2004:1199) (the Trading Act), the Emissions Trading Ordinance (2004:1205), the Swedish Environmental Protection Agency regulations (NFS 2007:5) and general recommendations on carbon dioxide emission allowances and the Swedish Energy Agency regulations (STEMFS 2004:8) on an emission allowance registry. All these documents can be found at www.utslappshandel.se

  7. Plan 2004. Costs for management of the radioactive waste from nuclear power production; Plan 2004. Kostnader foer kaernkraftens radioaktiva restprodukter

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2004-06-01

    The cost estimates are based on different scenarios and make allowances for uncertainties, variations and disturbances in the various projects. Costs for reactor decommissioning and for research and demonstration throughout the different stages of the waste handling and disposal are included. The total cost for handling the waste from 40 years operation of the 11 Swedish reactors in operation and Barsebaeck-1 which already is taken out of operation, amounts to about 70 billion SEK (about 9.3 billion USD). 18 billion SEK has already been used for building and operating the existing plants, and for research and development. The future costs amounts to 51.5 billion SEK. The cost are financed by the nuclear utilities in the form of a special charge on the electricity produced by the nuclear power plants. At present this charge is, on average, 0.005 SEK/kWh (about 0.0007 USD/kWh)

  8. Electricity utilization for ventilation purposes in new and old offices; Elanvaendning foer ventilation i nya och gamla kontor

    Energy Technology Data Exchange (ETDEWEB)

    Westerberg, J. [Stockholm Univ. (Sweden)

    1995-12-31

    The consumption of electric power for ventilation purposes in new office buildings is compared with an investigation made 1990-91. This study will be used in two planning scenarios, `frozen efficiency` and BaU (Business as Usual). With the technology of 1980s the power used for ventilation will increase from 190 GWh in 1991 to 210 GWh in the year 2010. The technology of the 1990s will give an increase to 205 GWh in the year 2010. 21 refs, 21 figs, 2 tabs

  9. The energy logistic model for analyses of transportation- and energy systems; Energilogistikmodell foer systemberaekningar av transport- och energifoersoerjningssystem

    Energy Technology Data Exchange (ETDEWEB)

    Blinge, M.

    1995-05-01

    The Energy Logistic Model has been improved to become a tool for analysis of all production processes, transportation systems and systems including several energy users and several fuels. Two cases were studied. The first case deals with terminal equipment for inter modal transport systems and the second case deals with diesel fuelled trucks, cranes and machines in the Goeteborg area. In both cases, the environmental improvements of the city air quality are analyzed when natural gas is substituted for diesel oil. The comparison between inter modal transport and road haulage shows that the environmental impacts from the operations at the terminal are limited, and that the potential for environmental benefits when using inter modal transport is improving with the transportation distance. The choice of electricity production system is of great importance when calculating the environmental impact from railway traffic in the total analysis of the transportation system. 13 refs, 27 tabs

  10. Gasification for fuel production in large and small scale polygeneration plants; Foergasning foer braensleproduktion i stor- och smaaskaliga energikombinat

    Energy Technology Data Exchange (ETDEWEB)

    Rodin, Jennie; Wennberg, Olle

    2010-09-15

    This report investigates the possibility of integrating biofuel production through gasification with an existing energy production system. Previous work within Vaermeforsk (report 904, 1012) has concluded that gasification for motor fuel production as a part of a polygeneration plant seems promising when looking at the energy efficiency. However, comparable data between different types of integration, energy plants and fuels was found to be needed in order to get a better understanding of how a gasifier would affect an energy system. The systems studied are the heat- and power production of a bigger city (Goeteborg) and a medium sized city (Eskilstuna), and a pulp mill (Soedra Cell Vaeroe). The latter already runs a commercial gasifier for burner gas production, where the gas is used in the lime kiln. The different types of polygeneration plants have been studied by setting up and evaluating mass- and energy balances for each system. The fuel products that are looked upon in this project are DME, methane, methanol and burner gas. The burner gas is used on site. The case studies have been evaluated based on energy efficiency for fuel production, electricity and district heating. The efficiency is foremost calculated for the higher heating value. In the case of the boiler integrated gasifier in Eskilstuna, the efficiencies have been calculated on the marginal fuel. We have also let the district heating remain unchanged

  11. Measures for simultaneous minimisation of alkali related operating problems; Aatgaerder foer samtidig minimering av alkalirelaterade driftproblem. Ramprogram

    Energy Technology Data Exchange (ETDEWEB)

    Davidsson, Kent; Eskilsson, David; Gyllenhammar, Marianne; Herstad Svaerd, Solvie; Kassman, Haakan; Steenari, Britt-Marie; Aamand, Lars-Erik

    2006-12-15

    Combustion of biofuel and waste wood is often accompanied by chlorine and alkali related operating problems such as slagging, deposit formation and corrosion on heat exchanger surfaces and bed agglomeration in fluidised bed boilers. In order to gain a greater insight into possible measures to overcome alkali related operating problems studies were carried out during 2005-2006. The results of the studies are presented in this report which includes work performed in the two following projects: 1 A5-509 Frame work - measures for simultaneous minimisation of alkali related operating problems 2 A5-505 Bed agglomeration risk related to combustion of cultivated fuels (wheat straw, red canary grass, industrial hemp) in commercial bed materials Full-scale experiments were carried out at Chalmers 12 MW{sub th} CFB boiler within the project A5-509. The purpose was to study the effect of various measures on bed agglomeration and deposit formation in connection with co-combustion of wood and straw pellets. The various measures included changing the bed material (blast furnace sand and olivine sand), adding various additives (kaolin, ammonium sulphate, elemental sulphur) and also co-combustion with sewage sludge. Furthermore results from kaolin experiments at the 26 MWth CFB boiler owned by Naessjoe Affaersverk were made available during the project and are also presented in this report. The results from the experiments at Chalmers revealed that, already at the lowest dosage of kaolin, approx. 2 kg/MWh, the bed material agglomeration temperatures increased significantly. The dosage of kaolin can presumably be reduced somewhat further while still maintaining the high agglomeration temperature. Experiments with a higher dosage of kaolin, 7 kg/MWh, proved that kaolin could also reduce the risk of deposit problems. The experiments at Naessjoe showed also that addition of kaolin increased the agglomeration temperature of the bed material. Addition of sulphur in any form resulted in a reduced chlorine content in the deposits. Ammonium sulphate was more effective than elemental sulphur on the basis of added sulphur. However, no significantly positive effect was observed on the bed agglomeration. The risk for both agglomeration and deposits problems were reduced during co-combustion with sewage sludge. Further results from the experiments at Chalmers revealed that the effect of changing bed material was dependent on the type of bed material chosen. The blast furnace sand had a greater effect than olivine sand when reducing the risk of bed agglomeration. The content of alkali chlorides in the flue gas and in deposits were doubled when changing the bed material to olivine sand, compared to the reference case (a silica sand named silversand). Even in the experiments with blast furnace sand, the alkali chloride content in the deposits increased, but not as much as in the case with olivine sand. According to approximate estimations, the costs of the various measures will be in the range of 3-30 SEK/MWh. Simultaneous addition of sulphur and kaolin is an interesting approach which will be investigated in stage 2. Within the project A5-505, laboratory experiments were performed in a 5 kW bubbling fluidised bed reactor where the tendencies of bed agglomeration for wheat straw, red canary grass, industrial hemp were studied in combination with different commercial bed materials. The results showed that straw had the greatest agglomeration tendency followed by red canary grass and industrial hemp. Furthermore the experiments showed that the fuel ash appeared in the bed as sticky separate ash particles and that the composition of the bed material had no significant effect on the agglomeration tendencies of the different fuels

  12. Method for estimations of the local forest bio-fuel resource; Metodik foer skattning av lokala skogsbraensleresurser

    Energy Technology Data Exchange (ETDEWEB)

    Baaaath, Haerje; Gaellerspaang, Andreas; Hallsby, Goeran; Lundstroem, Anders; Loefgren, Per; Nilsson, Mats; Staahl, Goeran [Swedish Univ. of Agricultural Sciences, Umeaa (Sweden). Dept. of Forest Resource Management and Geomatics

    2000-05-01

    A new method for detailed estimation of local above-ground woody biomass is presented. The procedure has been developed with the aim to support large and small scale strategic planning, from various aspects of bio energy utilisation in Sweden. Important features of the method are options to deal with areas defined by the user, and to include local harvest restrictions. A planning tool suitable for local forest owners, municipalities, and bio energy enterprises has previously not been available since costume-made local estimates of woody biomass have lacked sufficient precision or been considered to costly. In the suggested method satellite image data and a sample of field plots from the Swedish National Forest Inventory (NFI) are combined using the 'k Nearest Neighbour' method (kNN). The results are transferred to the forestry planning system Hugin which provides estimates of the present and future potentials of forest bio-fuels. In the Hugin system there are great possibilities to take into account various local interests and restrictions that influence the potential of woody biomass utilisation. As an example, the priority and the intensity of forestry treatments such as establishment of new stands, pre-commercial thinning, thinning, and final cut can be considered. Other factors that can be incorporated are harvest restrictions for specific areas like nature preservation areas or riparian zones. In addition minimum requirements for harvest amounts per hectare can be set as general restrictions. In the initial steps geographical objects like roads, railroads, or forests at a specified distance from roads can be excluded from further calculations. As a demonstration example the above-ground woody biomass was calculated for the municipality AeIvsbyn in northern Sweden. The estimates were based on traditionally performed cutting operations and results can be presented separately for different species by tree fractions (bark, needles, branches and tops). The influence of distance to road was demonstrated in a separate estimate where the maximum terrain transport distance was set to 300 m. Calculations were made for the present state of the forest and the state during the following five ten-year periods. In order to get a Relative root mean squared error (RMSE) for mean wood volume of <10% using only the NFI data, the area for which the mean value is calculated must be at least 100.000 ha. With the presented method it will be possible to estimate wood volume and biomass volume for areas as small as 200 - 450 ha with acceptable RMSE.

  13. Process for increased biogas production and energy efficient hygienisation of sludge; Process foer oekad biogasproduktion och energieffektiv hygienisering av slam

    Energy Technology Data Exchange (ETDEWEB)

    Rogstrand, Gustav; Olsson, Henrik; Andersson Chan, Anneli; Johansson, Niklas; Edstroem, Mats

    2012-07-01

    In Sweden there is a need to increase biogas production to meet the rising demand for biomethane as vehicle fuel but the amount of domestically available biomass to digest is limited. One way to help meet current and future demand for methane is to enhance the digestion of the substrates that are currently utilized. Vaexjoe municipality in southern Sweden is in the process of upgrading their facilities for biogas production at the Sundet waste water treatment plant. Their aim is to produce more biogas in order to meet the demand from an increasing methane-based local transit fleet. This is the backdrop to a joint project between JTI and Vaexjoe municipality where JTI's mobile pilot plant was used to study the possibility of extracting more biogas from the existing sewage sludge. In the future, Vaexjoe municipality also plans to co-digest source separated municipal organics with the sewage sludge, which will likely result in stricter demands in terms of hygienization of all utilized substrates. The goal of the project at hand was to demonstrate the possibility to produce more than enough additional biogas from existing sewage sludge to yield a net energy profit even with the added energy demand of ensuring the hygienic quality of the digestate through conventional pasteurization. Although the project was focused on the conditions at Sundet waste water treatment plant, the issues dealt with are general and the results are relevant to many waste water treatment plants in Sweden. The research, conducted between June 2011 and January 2012 were divided into two trials. The two trials, described schematically in Figure 1, represented two possible process configurations designed to reach the goal stated above. The key component of both process configurations is the addition of a post-digestion step to the existing single-step digestion process. In trial 1 the additional feature of dewatering between the two digestion steps served to reduce energy demand for pasteurization and increase the organic loading rate of the post-digester.

  14. Treatment of biofuel ashes for forest recycling; Behandling av aska fraan biobraenslen foer spridning paa skogsmark - etapp 1

    Energy Technology Data Exchange (ETDEWEB)

    Bjurstroem, H.; Sjoeblom, R. [AaF-Energikonsult, Stockholm (Sweden)

    1997-03-01

    Logging residues are the easiest available fuel for an increased production of energy in Sweden from renewable sources. A consequence of their removal from the forest is that the cycle of mineral nutrients is broken. The purpose of recycling the ash after this fuel to forest land is to compensate for the removal and close again the nutrient cycle. Recycling nutrients and returning the inorganic components of the biomass removed from the forest should be performed in accordance with general principles of environmental protection, health considerations and the good house-keeping of natural resources. The activities should also be carried out in accordance with the needs of the forest and energy plant owners regarding good technology and economy. This implies that functional requirements originating from these principles and needs should be clearly structured and formulated and that such requirements should provide a basis for the continued development work as well as for the implementation of suitable, economical and efficient systems. Returning inorganic constituents implies that the principle of recirculation is followed as well as that nutrients are brought back which improves accretion in the forest. At the same time, the risk of damage to the forest can be assessed as insignificant. Furthermore the risks to human health are also assessed to be insignificant provided that pertinent precautions are taken to avoid dusting. In the present report, technical and economical aspects of importance for the selection of method as well as for the establishment of a system are described and discussed. The need for further development work is identified in the following areas: functional requirements - operational requirements, sampling, testing and quality assurance, granulation, curing processes and drying/sintering. 102 refs, 1 fig, 2 tabs

  15. Final summary report of the Nordic Nuclear Safety Research Program 1994 - 1997; Sammanfattning av det nordiska forskningsprogrammet foer kaernsaekerhet

    Energy Technology Data Exchange (ETDEWEB)

    Bennerstedt, T.; Lemmens, A. [eds.

    1999-11-01

    This is a summary report of the NKS research program carried out 1994 - 1997. It is basically a compilation of the executive summaries of the final reports on the nine scientific projects carried out during that period. It highlights the conclusions, recommendations and other results of the projects. (au)

  16. Repository for spent nuclear fuel. Plant description layout D - Forsmark; Slutfoervarsanlaeggning foer anvaent kaernbraensle. Anlaeggningsbeskrivning layout D - Forsmark

    Energy Technology Data Exchange (ETDEWEB)

    2010-07-15

    This document describes the final repository for spent nuclear fuel, SFK, which is located at Forsmark, in Oesthammar. The bedrock at the site is part of a so-called tectonic lens, in which the rock composition is relatively homogeneous and less deformed than outside the lens. The bedrock consists mainly of granite with high quartz content and good thermal conductivity. The central parts above ground are grouped in an operations area, located at the Soederviken on the south side of the intake duct for cooling water for nuclear power plant. Operating area is divided into an internal, secured portion, where the canisters of fuel are handled and there are links to the underground part, and a outer part, where the buffer, backfill and sealing used in the repository's barriers are produced. The above-ground part of the plant and also include storage of excavated rock, ventilation stations, and supplies of bentonite. The underground portion consists of a central area and a storage area. Caverns of the central area contain features for the underground operation. It communicates with the internal operating range above ground via a spiral ramp and several shafts. The ramp used to transport capsules of spent fuel and other heavy or bulky transport. The shafts are used to transport rock, buffer, backfill and staff, as well as for ventilation. The largest part of the space below ground is the repository where the canisters with the spent fuel are disposed. The capsules are deposited in vertical holes in the tunnels. When the deposit in a tunnel is complete, the tunnel is re-filled. The two main activities underground is rock work and disposal work, which are conducted separately from each other. Rock works covers all steps required to excavate tunnels and drill deposition holes, as well as to make temporary installations in the tunnels. To the landfill works count, besides the deposit of the capsule, the placement of the bentonite buffer in the deposition hole and backfilling and plugging of the deposition tunnels

  17. Combustion plants and the Water Framework Directive. Methodology for consequence assessment; Vaermeanlaeggningar och Vattendirektivet. Metodik foer konsekvensbedoemning

    Energy Technology Data Exchange (ETDEWEB)

    Rossander, Annelie; Andersson, Jonas; Axby, Fredrik; Schultz, Emma; Persson, Maarten; Svaerd, Sara [Carl Bro AB, Kristianstad (Sweden)

    2007-04-15

    The project can be regarded as a natural continuation to the Vaermeforsk project M4-324 by Axby and Hansson: 'Practical consequences of the Water Framework Directive implementation for combustion plants - New water cleaning technologies and methods for improvement of effluent discharges'. The six different combustion plants studied in this project have been chosen mainly on the basis of their varying size, fuel, cleaning equipment and recipient. The significance of water as a finite resource in the global ecosystems has been more pronounced recently. In the light of the growing stresses on the water resources the European Parliament accepted the Water Framework Directive in year 2000. The main purpose with the directive is to achieve and preserve a 'good water status', among other things through a long term protection of available water resources. Enclosure X of the Framework Directive contains a list of chemical substances where 33 'prioritized substances' and 'prioritized, dangerous substances' are specified. The objective of the list is to reduce the discharges of prioritized substances, and to fully eliminate the prioritized, dangerous substances both from industry and other contexts. Twelve of the substances mentioned on the prioritized list can or could be found in the water coming out from combustion plants. A predominant part of these substances are to be totally phased out in the foreseeable future according to the Water Directive. This can result in restrictions in the permissions to let out water from combustion plants to the surroundings. The substances concerned are the heavy metals lead, cadmium, mercury and nickel, both as pure substances and included in compounds, as well as a number of different polyaromatic hydrocarbons (PAH). The intent of the project has been to use an accepted computational model to create an analytic method (an ecotoxicological risk assessment), with the aim to meet the new requirements from the Water Framework Directive. The method was created for and in cooperation with plant owners. The result is a model to analyze the stress on the recipient caused by the discharges from the plant. Within the project samples of water from the plants and the recipient have been taken out and analyzed. In the evaluation step of the project a comparison has also been made between results from the analyzes and values measured according to the ordinary control program of the plants. The current test procedures at the plants are considered as sufficient regarding metals, but should be extended with PAH analysis. Through an ecotoxicological risk assessment of the discharged water from a plant the plants real influence on the recipient can be mapped. Based on this risk assessment an estimation of the possible future water fees which the plant could be ordered to pay can also be made. The preparation of the Frame Water Directive is an ongoing process, which will continue until year 2015. The Frame Water Directive of today does not constitute any hindrance to the activities pursued at the examined plants. If the further development of the directive involves stricter discharge limits, most of the plants will manage this with their current production and water purification equipment, at least regarding their discharge of metals. When it comes to a possible PAH occurrence in the discharged water, it is uncertain what the ecotoxicological consequences are.

  18. Review study 1995. Localization of the repository for spent nuclear fuel; Oeversiktsstudie 95. Lokalisering av djupfoervar foer anvaent kaernbraensle

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1995-10-01

    This report gives an overview of the studies performed by SKB pertinent to selection of a site for the Swedish repository for spent nuclear fuels, and is written for both experts in the various fields involved, decision-makers and the interested general public. The review can not comprise all detailed factors necessary for deciding the localization, but deals mainly with conditions on the land surface and can point out areas which are not well suited or less interesting as a site. It also treats several scientific, technical and social bases in different parts of the country. 120 refs, 53 figs.

  19. Are there barriers to competition on the market for energy services?; Finns det konkurrenshinder paa marknaden foer energitjaenster?

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2012-07-01

    Under orders from the Government, offices of Swedish Energy Authority conduct an in-depth analysis of the competitive conditions in various segments of the energy services market. In particular, the competitive relationship between energy suppliers and on the other hand, other companies providing energy services. Also the relationship between municipal-owned companies and other companies providing energy services should be analyzed. The institutional framework is already known, as well as much of the activity in the market. However, there still seems to be perspective on actors' own perceptions of market conditions that should be clarified. For this reason, the starting point for this investigation was the companies' own statements and comments, which were obtained partly through a questionnaire and interviews. A basic assumption has been that the opinions and beliefs also guide companies actions. This means that the actors' own voices form a kind of recurring theme in the study and contributes to a deeper understanding of the actors' motivations. It should be noted that Energy Agency does not necessarily share the views that emerge in this context.

  20. External costs of emissions to air from current maritime transport - economic consequences; Miljoekostnader foer sjoefartens avgasutslaepp - ekonomiska konsekvenser

    Energy Technology Data Exchange (ETDEWEB)

    Johansson, Joakim; Farelius, Johanna; Hoeoek, Charlotta (WSP Analys and Strategi, Stockholm (Sweden))

    2010-06-15

    An important feature of Swedish national transport policy is to base the usage of fees, charges and subsidies on the principle of economic efficiency. The implication is that marginal cost pricing should be applied, internalizing the external costs of transport. Examples of external costs of transport are the damage costs caused by emissions of pollutants to air. These costs could be internalized by imposing fees that equal the marginal external costs. A polluter-pay principle should be applied, implying that the costs to society should be borne (paid) by the ones causing them. Earlier studies indicate that heavy ships (maritime transport) typically bear the marginal costs to society caused by transports carried out in Swedish territorial water - by paying differentiated fairway dues. However, these ships typically carry out the majority of their transports outside of Swedish territorial water, implying that the ship owners normally do not pay the full marginal external costs if a wider geographic area is considered. The purpose of this study is to show to what extent the costs of transports would be affected if fees and charges were used to internalize the external costs of emissions of pollutants to air in wider geographic contexts. The study has been carried out by calculating/estimating the following: 1. Damage costs caused by emissions of pollutants to air by current maritime transports to/from Swedish ports. 2. Effects on costs of transports by internalizing the external damage costs 3. Effects on costs of transports by undertaking cost efficient emission reducing measures

  1. The EU system for emissions trading after year 2012; EU:s system foer handel med utslaeppsraetter efter 2012

    Energy Technology Data Exchange (ETDEWEB)

    Normand, Mathias; Mjureke, David (eds.)

    2007-01-15

    The Government has instructed the Swedish Energy Agency and the Swedish Environmental Protection Agency to put forward a proposal for how the EU Emissions Trading Scheme (EU ETS) should be developed after 2012, subject to the overall objective of continuing to reduce emissions with the aim of achieving the long-term objectives of the Convention on Climate Change. In its Council Conclusions (7619/1/05) the EU has interpreted the long-term objectives of the Convention on Climate Change as aiming to achieve emission reductions of 15-30 % in the industrialised countries by 2020. According to Council Conclusions (13435/05), the EU has also decided that the Emissions Trading Scheme should continue after 2012. The starting point for this report is that, after 2012, the Scheme will be a key instrument in achieving cost-efficient emission reductions, not only within the EU but also globally, and regardless of whether, with effect from 2013, the Scheme has become a part of an international climate regime, or is serving as a transition to some future new international climate regime. The purpose of this report is to provide a proposal for how the Emissions Trading Scheme should be developed after 2012. The aim is to construct a system that helps to reduce global emissions of greenhouse gases (maintaining climate integrity), that assists measures being taken where they are cheapest (cost efficiency), that is accepted by parties concerned and by the general public (confidence inspiring), and which does not adversely affect the competitiveness of business or industry (competition-neutral). The Agencies recommend that Sweden should adopt the following standpoints concerning development of the EU Emissions Trading Scheme after 2012. (Recommended changes to the system presuppose a harmonised implementation throughout the EU.): In connection with international negotiations, Sweden should press for the Emissions Trading Scheme to be developed in such a way as to make it possible to achieve emission reductions in line with Council Conclusions (7619/1/05) in the form of total emission reductions of the order of 15-30 % in the industrialised countries by 2020. Sweden should press for the Scheme to be linked with other trading schemes, subject to retention of climate integrity. Linking can strengthen global climate policy ties and influence countries not having internationally binding climate commitments towards participating in some climate policy agreement. Linking also helps to counter international distortion of competition. There should be considerable opportunities for the use of CDM (or equivalent) credits in the Scheme, given that the EU has strict commitments on emission reductions. In order to ensure the system's climate integrity and competition neutrality, efforts should be aimed at ensuring that the total quantity of allowances in the Trading Scheme is decided directly at EU level (i.e. top-down), instead of as today starting from national allocation plans (i.e. bottom-up). Sweden should promote continued expansion of the Scheme to other sectors and for other gases. In 2013, it should be expanded to include emissions of carbon dioxide and PFC from primary and secondary aluminium production, carbon dioxide from certain chemical industry sectors, nitrous oxide from certain chemical industry sectors and methane from active coal mines. The European road transport sector can be included in the Scheme. However, this will pose challenges in respect of the effects on industrial competitiveness and developments within the road transport sector. In order to be able to adopt a firm position in the matter of how the road transport sector should be treated in relation to the EU ETS, Sweden should initiate in-depth studies of consequences of different options, including a separate trading scheme for the European transport sector. Purely biofuelled combustion installations should be excluded from the Scheme, and the monitoring requirements for pure biofuel streams in combustion installations that partly use biofuels should be abolished. Swe

  2. Environmental systems analysis for the beneficial use of ashes in constructions; Miljoesystemanalys foer nyttiggoerande av askor i anlaeggningsbyggande

    Energy Technology Data Exchange (ETDEWEB)

    Kaerrman, Erik; Olsson, Susanna; Magnusson, Ylva; Peterson, Anna [Ecoloop, Stockholm (Sweden)

    2006-02-15

    All building materials have an impact on the environment, conventional materials as well as recycled materials. But, since recycled materials are classified as waste, the use of them is more strongly restricted. The potential of saving natural materials and energy by the use of recycling materials are rarely considered. This report presents a method for environmental systems analysis considering the use of recycled materials in a wide perspective. Various scenarios for beneficial use or disposal of the residuals that occur in a region (province, county or municipality) are analysed. The method considers emissions to air and water as well as conservation of natural resources and energy. Two case studies have been carried out for the Uppsala County in Sweden. Case study 1 dealt with municipal solid waste incineration (MSWI) bottom ash, where scenarios for beneficial use of ashes in 1) drainage layers in covering of landfills and 2) road construction were compared. Also a third scenario was included as a reference where the MSWI bottom ash was landfilled. The result of case study 1 showed that the use of ashes in road construction was the most beneficial alternative in terms of conservation of natural resources and energy, and also in terms leakage of several metals. The leakage of Arsenic and Zink were however more favourable in scenario 1 and the leakage of copper was more favourable in scenario 3. The second alternative where the ashes were used in drainage layer did not save as much natural resources and caused more emissions of heavy metals to water compared to the road construction application. In case study 2 the beneficial use of fly ash from peat combustion was analysed, including 1) the use of peat ash as a construction material in small county roads, 2) the use of peat ash mixed with sewage sludge as a covering material on landfills. Also this case study included a reference scenario in which the peat ash, generated in Uppsala County, was landfilled. The result from case study 2 indicated that the use of fly ash for county roads had on the one hand the largest use of crushed rocks but was on the second hand the most beneficial alternative regarding leakage of metals. From an energy point of view the alternative with covering of landfills was the most beneficial alternative up to a transport distance of 60 km for the ashes. All results are site-specific. From the synthesis of the whole project it was concluded that the developed method for environmental systems analysis has a potential to be a tool for strategic environmental assessments in regional natural resources plans, municipal planning and EIA. A weakness with this study is that water emissions are mostly based on laboratory leachate tests while data from full-scale studies would have been more relevant. Full scale tests are however rare and must be used with carefulness since they are very dependant on local conditions.

  3. Study of flue gas condensing for biofuel fired heat and power plants; Studie av roekgaskondensering foer biobraensleeldade kraftvaermeanlaeggningar

    Energy Technology Data Exchange (ETDEWEB)

    Axby, Fredrik; Gustafsson, J.O.; Nystroem, Johan; Johansson, Kent

    2000-11-01

    This report considers questions regarding flue gas condensing plants connected to bio-fuelled heat and power plants. The report consists of two parts, one where nine existing plants are described regarding technical issues and regarding the experience from the different plants. Part two is a theoretical study where heat balance calculations are made to show the technical and economical performance in different plant configurations and operating conditions. Initially the different parts in the flue gas condensing plant are described. Tube, plate and scrubber condensers are described briefly. The different types of humidifiers are also described, rotor, cross-stream plate heat exchanger and scrubber. Nine flue gas-condensing plants have been visited. The plants where chosen considering it should be bio-fuel fired plant primarily heat and power plants. Furthermore we tried to get a good dissemination considering plant configuration, supplier, geographical position, operating situation and plant size. The description of the different plants focuses on the flue gas condenser and the belonging components. The fuel, flue gas and condensate composition is described as well as which materials are used in the different parts of the plant. The experience from operating the plants and the reasons of why they decided to chose the actual condenser supplier are reported.

  4. Recommendations for conversions of grate fired boilers to fluidising beds; Anvisningar foer konvertering av rosterpannor till fluidiserad baeddteknik

    Energy Technology Data Exchange (ETDEWEB)

    Eriksson, Lars; Ingman, Rolf [AaF Energikonsult AB, Stockholm (Sweden)

    2001-03-01

    This report gives advice and recommendations for retrofitting of grate fired boilers to fluidising beds. Nine plants have been visited and experiences from these conversion projects have been gathered and analysed. Among the important points planning, fuel specification, heat balance calculations and clarifying of delivery limits can be mentioned. It is also important not to underestimate the need for education of the operational staff.

  5. Initial study of a method for IR measurements in boilers; Inledande studie av metod foer IR-maetning i aangpannor

    Energy Technology Data Exchange (ETDEWEB)

    Sandberg, Martin; Joensson, Magnus; Lundin, Leif [Swedish National Testing and Research Inst., Boraas (Sweden)

    1999-10-01

    The tubes in steam boilers are required to be regularly inspected, in order to find water-side deposits, thinning of walls or material defects. This is for safety, problem-free operation and high availability. No non-destructive method of inspection is available today for finding deposits on the insides of boiler tubes. Nor is there any method that can not only detect deposits on the insides of the tubes but also monitor the tubes' wall thicknesses. A suitable method - reliable, safe, easy to use and cost-efficient - is therefore needed. One such method is to measure the surface temperature of a larger area of the diaphragm wall, using a non-contact method, and from the resulting information to assess the material thickness and possible water-side or steam-side deposits. An IR camera is used for non-contact measurement of the radiated energy from several adjacent surface elements, and thus also of their temperature. The temperature is displayed on the camera's screen to produce a picture of the temperature distribution. This is a well-established method today, and is used in applications such as the steel industry, the electricity industry, electronics and health care. The surface temperatures of the tube walls can be measured by inserting an IR camera on an arm into the combustion chamber, without anyone having to get inside the boiler. The combustion chamber is the part of the boiler that is of main interest for inspection, as it is the easiest to reach. Measurements are facilitated by higher temperatures and thus higher heat fluxes through the tube walls. Diaphragm wall temperatures can be measured quickly and rationally over large areas. Points of interest in inspections include determining where there are water-side deposits in the tubes, where tubes are thin, where flow is obstructed and where there might be material defects. With the exception of material defects, all of these mechanisms result in changes in the surface temperature, which in many cases are substantial and can easily be detected by the sensitive IR camera. This means that the data provides a good basis for reliable analyses. It must not be expected, however, that thermography alone can identify how thick a deposit is or when it needs to be removed, or how thin a tube is. The results must be checked by other methods. Thermography cannot be used as a replacement for invasive testing methods such as the removal of tube samples. What it can do, however, is to show which areas of a boiler need to be inspected more closely. It can also reduce the number of tube samples, and confirm that they have been taken from the correct level and correct part of the boiler, which reduces the time required for inspection. It can also be expected to find greatly thinned tubes and blocked tubes. Today's thermography technology is highly flexible and is often used in special applications. Thermography of the inside of a boiler is just one such special application. However, further work is needed if inspections are to produce reliable results.

  6. Programme for the Environmental Control at the Swedish Nuclear Facilities, Revision; Omgivningskontrollprogram foer de kaerntekniska anlaeggningarna, revision

    Energy Technology Data Exchange (ETDEWEB)

    Linden, Ann-Marie

    2004-12-01

    This report contains a revised version of the Environmental Monitoring Programme for the Swedish Nuclear Facilities. The revision is based on earlier experiences and evaluations. Some samples have been excluded. Some have been added, for example spruce cone and the food products apple and currant. The sediment samples of 2 cm length have been completed with samples of 10 cm length every fourth year to follow the migration of radio nuclides down the sediment layers over time. The revised Environmental Monitoring Programme is valid from the 1st of January 2005.

  7. National responsibility in an enlarged European Union?; Nationellt ansvar foer anvaent kaernbraensle i en utvidgad Europeisk Union?

    Energy Technology Data Exchange (ETDEWEB)

    Cramer, Per; Stendahl, Sara; Erhag, Thomas [Dept. of Law, School of Business, Economics and Law, Goeteborg Univ. (Sweden)

    2007-04-15

    The principle of national responsibility has two sides: One about how Sweden takes responsibility for the wastes that arise in the country from nuclear power generation. The other side about the rights Sweden considers itself to have to prevent that spent nuclear fuel from other countries are disposed or stored in Sweden. The last aspect of the principle has been regulated in an explicit law against final waste disposal and intermediate storage of foreign spent nuclear fuel in Sweden. The question about how Sweden will take responsibility for the spent nuclear fuel that arises within the country is not regulated in law in a corresponding way. It can be argued that such a discrepancy in interpretation of the principle does not favour its legal strength. On the multilateral level, the question is regulated through the Non-proliferation treaty from 1970 and the convention about the safety in handling spent nuclear fuel and radioactive wastes that were added within the framework of IAEA 1997. Non-proliferation confirms the right of all States to develop a national civilian nuclear power industry and within the framework of this right lies also the competence to decide about the policy for the back end of the nuclear fuel cycle. That is to say, the States have, according to the agreement, the freedom to apply a principle about exclusive national responsibility for managing the spent nuclear fuel and the radioactive wastes, as is clearly confirmed in the IAEA-convention. It should however be noted that the IAEA, since the beginning of the 1990s, has initiated several studies concerning the legal, political and the physical conditions for establishing multinational plants for intermediate storage or final waste disposal of spent nuclear fuel or high-level nuclear wastes. In reports a series arguments been presented which speaks for such a development. At the core of these arguments is the interest of winning economic and technological scale advantages, and the non-proliferation aspects. The political decision to take part in such international cooperation lies however without any doubt within the national competence. In the European Union the question about responsibility for spent nuclear fuel is not directly regulated. Common legislation initiatives from the commission concerning methods for disposal and storage of spent nuclear fuel has been blocked by member states. The EURATOM-treaty and the EU treaty have a potential reach to national regulation about handling of nuclear wastes and spent nuclear fuel. It should also be noted that there is no binding community legislation where the principle of national responsibility comes to expressions, although the the national legislation competence in the area is expressed in miscellaneous political documents. There exists a hypothetical possibility that the question about the member states' right to maintain a principle of national responsibility can be examined of the EU Court of Justice.

  8. To eliminate or not. The minute of truth for nuclear power; Att avveckla eller inte. Sanningens minut foer kaernkraften

    Energy Technology Data Exchange (ETDEWEB)

    Edin, K.A.

    1995-12-31

    The book describes the political situation concerning nuclear power in Sweden. After the referendum 1980 the Swedish parliament has made a declaration that nuclear power should be phased out by 2010 and replaced by renewable energy, but no legislation or schedules have been proposed. In the meantime targets for reducing carbon dioxide emission have been set, that seem to be in conflict with the phaseout. The book goes through all the decisions that have to be made by the parliament and the different alternatives that should be available when a phaseout is planned. Financial compensation for the reactor owners, and lack of economic alternative power sources are seen as major obstacles. The author pleads that detailed governmental propositions for an elimination of nuclear power (including plans for substitutional power sources) should be made public to facilitate a realistic debate. 19 figs.

  9. Capacity for management of combustible and organic wastes; Kapacitet foer att ta hand on braennbart och organiskt avfall

    Energy Technology Data Exchange (ETDEWEB)

    Sundberg, Johan [Profu AB, Goeteborg (Sweden)

    2000-10-01

    A ban on deposition of combustible wastes will be introduced in 2002. A similar ban concerning organic wastes will be introduced in 2005. Because landfilling is the most common treatment today, we need new forms of waste treatment within a couple of years.The aim of this investigation is to map and analyse supply and demand for wastes covered by the new bans.

  10. Handbook for replacement of process control systems in thermal power plants; Handbok - Utbytesbehov i kontrollsystem foer vaermekraftverk

    Energy Technology Data Exchange (ETDEWEB)

    Tuszynski, J. [Sydkraft Konsult AB, Malmoe (Sweden); Eriksson, Tage [Vattenfall Energisystem AB, Stockholm (Sweden)

    1996-12-01

    Modernization of control equipment in more complex power plants, such as thermal power plants, requires special attention due to the almost complete change-over to new computerised technology. The introduction of new technology gives rise to great changes in both the process control systems and in operation and maintenance routines. The change-over to computerised technology also causes lack of spare parts and service for older equipment. The older technology becomes obsolete due to the great advantages that comes with new technology. Therefore, the lifetime of control equipment is not only coupled to traditional ageing and wear, such as oxidation and fatigue of material, but also to the fact that the old equipment is getting out of date. It becomes more and more common that this out-of-date factor, rather than ageing, sets the limit for the useful life of the equipment. The Handbook for replacement of process control systems in thermal power plants is thought to be a first help for engineers and managers who has the responsibility for process control modernization. The Handbook points out the factors that determines the service life of the control equipment. It also suggests what information is required in order to take a decision on modernization. The Handbook at its present form constitutes a first approach that leaves room for an extension later on. Any request to expand the Handbook should be put forward to Vaermeforsk or its partners

  11. Foreign materials in a deep repository for spent nuclear fuels; Fraemmande material i ett djupfoervar foer anvaent kaernbraensle

    Energy Technology Data Exchange (ETDEWEB)

    Jones, C.; Christiansson, Aa.; Wiborgh, M. [Kemakta Konsult AB, Stockholm (Sweden)

    1999-12-01

    The effects of foreign substances introduced into a spent-fuel repository are reviewed. Possible impacts on processes and barrier-functions are examined, and the following areas are identified: Corrosion of the spent-fuel canister through the presence of sulfur and substances that favor microbial growth; impacts on the bentonite properties through the presence of cations as calcium, potassium and iron; radionuclide transport through the presence of complex-formers and surface-active substances.

  12. Evaluation of the Swedish biogas standard - basis for a future audit; Utvaerdering av svensk biogasstandard - underlag foer en framtida revision

    Energy Technology Data Exchange (ETDEWEB)

    Svensson, Mattias

    2011-04-15

    This report is intended to constitute a basis for a future revision of the SS 15 54 38, 'Motor fuels - Biogas as fuel for high-speed otto engines.' When it was published in 1999, it was not deemed appropriate to source compressed biomethane from landfill gas, because of its wider range of trace elements, often in relatively high concentrations, such as siloxanes and halogenated hydrocarbons. Siloxanes are also present in the gas from waste water treatment plants, but the assessment was made that upgrading methods available at the time reduced these levels sufficiently. By putting a maximum limit on the nitrogen content, landfill gas was effectively shut out. Technical Development (cryogenic upgrading making it possible to clean landfill gas to biomethane quality; stricter emissions standards for vehicles that has led to a higher level of sophistication in engine and aftertreatment technologies) has now made it necessary to better control the levels of all trace elements. The state of standardization is not satisfactory for CNG in general and renewable CNG (biomethane) in particular. Standardization at the international level is mostly qualitative. Most standards are at the national level and with the exception of Sweden biomethane is only standardized for injection on the natural gas network. A mandate (M/475, 2010) from the European Commission to develop the CEN standards for biomethane fed into the grid, or used directly as renewable CNG, may change this, and the issue will be addressed in a new committee (CEN/TC408 'Project Committee - Biogas for use in transportation and injection into natural gas pipelines'). A variety of trace elements has been discussed for inclusion in the new standards, where countries such as Holland and France stand out as supporters of more stringent and comprehensive regulations. This report's working group considers it like the regulation of substances such as siloxanes and halogenated hydrocarbons will lead to removal methods, which sufficiently lowers also the levels of many of the other trace elements discussed. With respect to microorganisms, it is likely that the current requirement of a 1 micron filter may be sufficient to reduce the levels of these to harmless levels. If pathogens would be present, then the absorbed dosage would be too small to constitute any real risk. Lowering the maximum level for total sulfur content is an important revision, because the high content of sulfur dioxide in exhaust gases has an inhibitory and aging impact on catalysts, with lean-burn engine applications as the most sensitive. It is clear that most of the sulfur has its origin in the odorization, THT being utilized in Sweden (tetrahydrothiophene, about 6 mg S/Nm3). More sulfur-poor and even sulfur-free alternatives are available on the market, where the sulfur-free option is a less likely candidate, due to its uncharacteristic odor. Siloxanes are suspected as accountable for many of the undiagnosed operational problems in NGV's, since they precipitate as solid silica during combustion. Problems with clogging of the lambda sensors have been attributed to the presence of elementary silicon in petrol. It is unknown whether similar problems might arise from the presence of siloxanes in compressed biomethane. Reported total concentrations of siloxanes after upgrading fall below 0.6 mg Si/Nm3. Whether to regulate volatile heavy metals such as mercury and arsenic or not is an issue that risks becoming a stumbling block in the discussions between the Swedish vehicle manufacturers, who want to see quantitative regulation of these, and the CNG industry, which believes that the level of these rarely reach above the detection level even in the raw gas, and even less so in upgraded gas. As in the case of siloxanes and halogenated hydrocarbons, a possible recourse is to standardize/certify according to substrate source, heavy metals being present in principle only in landfill gas. In addition to the biologically derived trace elements it is also evident that there is a need to more cl

  13. Guidelines for water and steam adapted to Swedish energy plants; Riktvaerden foer vatten och aanga anpassade till svenska energianlaeggningar

    Energy Technology Data Exchange (ETDEWEB)

    Hellman, Mats [Hellman Vatten AB, Haegersten (Sweden)

    2006-02-15

    The project summons a revision of the Swedish Cycle Chemistry Guidelines with the purpose to create guidelines that are more explicit and thereby easier to adapt to in daily operations. The objective in general has not been to tighten the limiting values; some are stricter but some others are less strict. The boilers of today are usually fed with demineralised water as make-up water which has been reflected in the guidelines. In this project consideration has been taken upon the fact that many boilers, mostly industrial, have been in operation for many years according to old guidelines, without problems. In these cases the boilers may very well continue to operate without any costly reinvestments due to the new guidelines. The most important revisions in the guidelines are: Action levels have been introduced for the core parameters in the water-steam cycle. With action levels the operators will have some guidance to correct deviations in the cycle chemistry. The action levels are progressive in the sense that the more serious deviation from the guidelines, the shorter time to correct the problem. Guidelines for boilers up to 6.0 MPa operating on softened make-up water have been adjusted slightly and introduced with action levels. New guidelines for boilers with demineralised make-up water have been compiled. Within the project group there is a consensus that demineralised make-up water is preferable even for low pressure boilers. Varying chemistry regimes are used in the industry today. This report gives guidelines for the three dominating in Sweden; All Volatile Treatment (AVT), Caustic Treatment and Phosphate Treatment. Cation conductivity is a core parameter for supervision of steam quality for turbine operation, and in all international guidelines cation conductivity is included. However, the cation conductivity can rise above limits if organic dosing agents are used. This may be accepted as long as the pH-value is within the specifications and it can be shown that the high cation conductivity is not caused by excessive levels of aggressive salts.

  14. Time for final disposal of nuclear waste - society, technology and nature; Tid foer slutfoervaring. Samhaelle, teknik och natur

    Energy Technology Data Exchange (ETDEWEB)

    Forsling, Willis; Andersson-Skog, Lena; Haenninen, Hannu; Knutsson, Gert; Ma ttsson, Soeren; Stigh, Jimmy; Soederberg, Olof; Bolin, Bert; Nordlund, Erling

    2007-05-15

    This report consists of a number of independent contribution that treat different aspects of the nuclear waste complex, with the time perspective as a common starting point. The review does not pretend to cover the entire area, but the selected issues addressed are those of large general interest. First a general overview is given of how the nuclear waste issue has been treated in Sweden since the plans to use nuclear power begun be planned in the middle of the 1940s. The complex of problem around the nuclear waste issue is linked to our natural aversion against the development of nuclear weapons during they last 60-70 years, but also to the controversies around the peaceful use of the nuclear power that has happened during the latest 30-40 years. In chapters 3 the time perspective is considerably shorter, approximately 20 years. Here, construction and operation of an underground repository for nuclear waste is discussed. Such an undertaking has many resemblances with establishing an underground mine and there is much experience to learn from. In chapters 4 questions about the technical barriers are treated, the copper container, bentonite buffer and the backfilling. The copper container and bentonite buffer both have key roles to prevent ground water to come in contact with the spent fuel and that radioactivity is transported out into the environment. They must both fulfil their functions during the period when the fuel is dangerous, i.e. over 100,000 years. Different processes affects the repository, some during short periods, some during several 10,000 years. Specific intervals (from 10 years and up to 100,000 years) are indicated for the different processes, almost all with the starting point at the deposition of the waste. The possibility to gain experiences from natural analogies is treated in chapters 5. They can be seen as a prolonged experiment in natural systems where one reactor zone has been active for more than 100,000 years. The time perspective stretches itself millions of years backward in the time. In chapters 6, Geologic development, time periods on millions years backward are considered. Crystals that formed more than 1,700 million years ago can be studied today. The future climate development is an increasingly central question in the debate. The climate is governed of an ensemble of interacting astronomical factors that vary on time scales from 10,000- 100,000 years, and changes in the atmosphere's carbon dioxide concentration happen on time scales from 100 to a few thousand years, and may be caused of the man and/or nature.

  15. Process and sensor diagnostic: Data reconciliation for a flue gas channel; Process- och sensordiagnostik: Dataaaterfoerening foer ett roekgastaag

    Energy Technology Data Exchange (ETDEWEB)

    Karlsson, Christer; Dahlquist, Erik [Maelardalen Univ., Vaesteraas (Sweden). Dept. of Public Technology

    2003-10-01

    The project has shown that model-based data reconciliation can be used in heat and power plants, but it needs support of soft sensors. Generally power plants are not equipped with more sensors than required by control systems, environment and financial reports. Soft sensors are needed to compensate for lack of redundancy in mass-flow sensors. Redundancy makes it possible to isolate gross errors. The smallest error needed to be determined sets the requirement on the process model accuracy. Tools available today from this project are; classification of different process sections with redundancy analysis and gross error detection. Quantification of the errors with the mass balance model has not been successful and this part needs further development. Theoretical comparison of the three different methods presented resulted in favour of data reconciliation based on a mass balance model. The mass balance model has a structure based on physical reality. The searches for gross errors are transparent to the user. It can handle sensor failure. The statistical linear model is preferred for smaller process sections when transparency is not needed and focus is on fast, simple and cheap implementation. Data reconciliation based on steady-state energy balance has the same origin as the mass balance model. Data reconciliation based on energy balance is harder to compute and its sensors difficult to classify. The drawback is complexity, but the strength is that the large number of temperature sensors can be used in the data reconciliation. Large gross errors are detected and quantified for most process mass flows with acceptable accuracy. Performances for small errors are not as good. Performance of the data reconciliation is strongly dependent on precision in the process models. This conclusion is drawn from comparison with other studies that show good performance for laboratory simulations. There are still many parts to develop further as: Soft sensors, tests for identification of gross errors, computation of covariance matrix, quantification of gross errors.

  16. Syndrome, Symptom, Trauma-chains in Post-9/11 Novels: Safran Foer, Ken Kalfus and Don DeLillo

    DEFF Research Database (Denmark)

    Sørensen, Bent

    Perhaps Slavoj Zizek's famous or notorious exhortation ‘Enjoy Your Symptom!' set forth in a 1992 book of that title, containing his Lacanian analyses of Hollywood film, should more properly, esp. post 9/11, be formulated ‘enjoy your syndrome!' Certainly a whole new batch of trauma literature...

  17. Nordic 1000 plant 2, demonstration plant for wind power. Final report; Nordic 1000 aggregat 2, demonstrationsanlaeggning foer vindkraft. Slutrapport

    Energy Technology Data Exchange (ETDEWEB)

    Schoen, J. [Renewable Energy in Sweden AB, Malmoe (Sweden)

    2001-06-01

    In 1995 Nordic Windpower AB erected the prototype of a 1 MW wind turbine, Nordic 1000. In September 1999 the National Energy Administration (STEM) decided to support Renewable Energy AB for demonstration of a Nordic 1000 wind turbine adapted for offshore conditions. STEM also decided to support the purchase of a Nordic 1000 by Vattenfall AB. Additional support was received from the Thermie programme of the European Union. The design work that started in 1999 aimed at achieving a design that is adapted for series production, to solve a noise problem and to adapt the design for offshore use. According to the initial time plan the Renewable wind turbine was to be erected during the spring of 2000, before the one of Vattenfall. The Vattenfall turbine was erected in June 2000 and has since the commissioning produced electrical power with a 95% availability. Due to an appeal, the building permit of the Renewable turbine was not granted until September 2000. Thus this turbine was erected after the one of Vattenfall and was finally installed during the end of May 2001, after further severe delay due to the gear box delivery. During the commissioning some minor problems in connection with the control system were solved.

  18. Analysis of environmental risks with an encapsulation plant and a final disposal repository; Miljoeriskanalys foer inkapslingsanlaeggning och slutfoervar

    Energy Technology Data Exchange (ETDEWEB)

    Andersson, Johan; Herly, Lucien; Pettersson, Lars [SwedPower AB, Stockholm (Sweden)

    2006-05-15

    This report covers non-radiological environmental risks related to an encapsulation plant and a final repository for spent nuclear fuel. All stages of the above are covered. This means construction, operation, demolition and sealing. A risk, in this report, is defined as a combination of probability and consequence of an undesired event. An extensive and systematic effort has been made in order to identify all risks. If risks remain undetected it should be low probability events. The risks are also evaluated to see which risks are the more serious ones. A large part of the existing risks are oil or diesel on the ground. In general the main risks occur during the construction phase and they are similar to normal risks at every large construction project. Most of the above are discharges of oil products on the ground within the construction area. With a good organisation and a high environmental profile these discharges can be minimized and when needed cleaned. For some of the other risks the same is valid - with a good preventive work they can be reduced considerably. One event which has a relatively high probability for occurrence and which may not easily be cleaned is a damaged lorry leaking oil. The resulting damage depends on where it occurs and maybe also when. Neither in Forsmark nor in Oskarshamn there are common sources of water supply in direct connection to where lorries pass and the probability for a lorry accident to cause damage to the environment is limited. After the assessment and evaluation of risk reducing measures there is one risk that appears serious even though the probability is low. This risk is the possible influence of the final repository on the subsoil water. It is most important that a large effort is put on reducing this risk. The probability of traffic accidents with injuries or fatalities will increase slightly, especially during the second phase of the construction period, since the amount of traffic is expected to increase then. Of the identified risks some differ depending on the localisation of the establishment. Primarily this applies to everything related to transports. The risk that nature is affected by leaking lorries is in principle depending on location. However the difference between a localisation in Forsmark or in Oskarshamn is minor. The only identified difference is that the exit on to road 76 in Forsmark implies a higher risk for accidents than the corresponding exit on to E22 in Oskarshamn. The risk for affecting the subsoil water may differ depending on localisation but this is not covered in this report since the geological conditions are very carefully examined in other studies. All other risks (with the definition used in this report) appear to be sufficiently equal not to affect the choice of localisation. The risk assessment should be updated later when the planning has come further. Then the design of the facilities and the location of the canister manufacturing plant are more defined. Risk reducing measures such as bankings, pump capacities etc will also be defined more clearly than at the present time. Changes of the risks may have occurred and suggested measures may also be more concrete than at this early stage.

  19. Function of all-metal separators for waste fuels. Phase 1; Funktion av allmetallseparatorer foer avfallsbraenslen. Etapp 1

    Energy Technology Data Exchange (ETDEWEB)

    Jacoby, Juergen; Wrangensten, Lars

    2004-08-01

    Various waste incineration facilities, which use different types of waste fuels, have difficulties with a high content of non-magnetic metal, especially aluminum in their fuels. Aluminum may melt on the grate and can lead to corrosion or fouling in the furnace. Additionally, a high content of aluminum in the flyash may cause difficulties in terms of storage or further use of the ash as e.g. construction material. The industrial demand for efficient separators for non-magnetic metals from a fuel stream is rather large. There is however some uncertainty in the performance and efficiency of metal separators. Two types of separators can be found, the first type is called eddy current separator, the other type is based upon a metal detector with a sorting unit in the form of a chute or similar afterwards. An eddy current separator consists of a fast rotating drum containing several permanent magnets with alternating polarity. Due to the rotation, the change in the magnetic field induces eddy currents in conducting materials. The eddy currents cause a force in non-magnetic metal, the Lorentz force, which repels the material away from the rotating drum while all other material follows the systems flow direction. Systems equipped with a metal detector activate a mechanical sorting device, separate chute or air nozzles, when a metal particle is detected. In contrast to eddy current separators all types of metals can be detected and sorted out by systems based on metal detector. Several technical solutions for metal separation supplied by various manufacturers are described in the report. The companies have been asked to supply product information on the working principle, technical data, efficiency and limits for different types of metals. Two reference power plants have been visited and their experiences with all-metal separators are described. Haendeloeverket in Norrkoeping uses eddy current separators for separation of non-magnetic metals from household waste. Igelstaverket in Soedertaelje applies a metal detector coupled with a chute for metal separation from return wood waste and peat. At Igelstaverket it was found that the existing system works sufficiently well for fuels used in the power plant. At Haendeloeverket, the amount of aluminum found in the bottom ash and fly ash is not negligible. Up to 3-4 wt % non-magnetic metal can be measured in the bottom ash. Separation of aluminum from the waste fuel should with regard to economical aspects as well as technical aspects be improved. Difficulties with metal separation and system design are also discussed in the report.

  20. Environmental guidelines for reuse of ash in civil engineering applications - phase 2; Miljoeriktlinjer foer askanvaendning i anlaeggningsbyggande - etapp 2

    Energy Technology Data Exchange (ETDEWEB)

    Bendz, David; Wik, Ola; Elert, Mark; Haakansson, Karsten

    2006-07-15

    Producers, authorities and users have acknowledged the need for common environmental guidelines for residues. The objective of this project has been to develop a proposal for common environmental guidelines for reuse of ash in civil engineering applications. The project has a narrow risk assessment perspective and focus on a set of substances where a well developed environmental policy and knowledge are available. Health aspects for construction workers are not covered in the project. The starting point in the risk assessment is the assumption that ashes may be used just like any conventional construction material. Special requirements or regulations regarding precautionary actions in the handling of ashes, regarding the site or surroundings will be avoided. The guiding principle has been the precautionary principle: reuse of ash is acceptable only if it constitute an insignificant risk to health and environment. The calculations are based on defined emission- and exposure scenarios. The concept of insignificant risk imply that the impact in the defined points of compliance does not exceed established health- and environmental criteria. The model address health risks associated with spreading of particles and exposure by dust, oral intake, dermal contact and intake by vegetables or wild grown berries and consumption of ground water. Off-site environmental effects in surface waters and in soil as well as health- and environmental risks in the post use phase are also considered. Exposure by dust is addressed in the same way as in the Swedish Environmental Protection Agency's guidelines for contaminated soil. The guidelines values for exposure by dust, oral intake, dermal contact and intake by vegetables or wild grown berries are total content, whereas the guidelines for exposure by consumption of ground water or environmental effects in surface waters are based on leaching properties of the ash. The guidelines rely on a conceptual model, defined emissions and exposure scenarios including exposure pathways and points of compliance. Risk evaluation becomes an issue of comparing the estimated (-modeled) increased concentrations at specified target points with general human and environmental toxicological criteria. Guidelines have been calculated for two different types of constructions, with or without an impermeable (asphalt-) pavement that prevents rain water from infiltrating into the road. Also the possible exposure of intruding ground water has been taken into account. A set of ashes, for which data on total content and leachability was available in the ALLASKA and MALTE database, have been classified according to three categories of applications/situations. The results show that due to lack of data it could not be assessed whether naphthalene, bens(a)pyren, antimony and selen in ashes imply an insignificant risk or not. Only guidelines for leachability could be calculated for antimony and selen, showing that 90% of the ashes fall below the guidelines and thus constitute an insignificant risk in a construction. Cadmium, copper, chromium, mercury, nickel and zinc show a large margin to the calculated guidelines for total content and leachability for most ashes. Thus, ashes in constructions constitute an acceptable risk with respect to these elements. Arsenic and lead in ashes fall below the guideline values for leaching, although with small margins in some cases. However, the total content of arsenic in some ashes exceeds the guideline values when used in an unpaved construction. Accordingly, it can not be excluded that the reuse of some ashes in some applications may imply a certain risk. Spreading as dust, deposition on vegetables and the subsequent intake has reveled itself as an important exposure pathway. Little data, theory and models are available on dust generation and transport, the calculations made here are rough and conservative. Also, guidelines for the ash construction left in place in the post use phase are difficult to determine. The health risk associated with intake of vegetables and accidentally oral intake are crucial. In both cases arsenic sets the limits. Model calculations indicate that fluoride constitute only an insignificant risk.. Chloride and sulfate in ashes may, depending on the construction, constitute a certain risk with respect to the drinking water quality in a local well. The comparison between the calculated guideline values and the ash data that was available showed that the majority of the ashes could be used in a road construction without implying a significant risk to health or environment. In the available set of ash data, each combination of incineration plant and fuel is only represented by few data. This makes it difficult to draw specific conclusions for a certain type of ash.. The model or framework for developing the general guidelines, presented herein, may also be used for site specific environmental risk assessments. If so, the model should be further developed to better describe the risk for exposure by dust.

  1. Optimal use of biofuels to reduce the contribution to the greenhouse effect; Optimal anvaendning av biobraensle foer minskning av vaexthuseffekten

    Energy Technology Data Exchange (ETDEWEB)

    Aasblad, A.; Franck, P.Aa.; Berntsson, T. [Chalmers Industriteknik, Goeteborg (Sweden). CIT Energiteknisk Analys

    1995-12-31

    This report analyses whether the use of biofuels in district heating systems is a cost effective measure to decrease the emissions of greenhouse gases in Sweden or not. We have taken the year 2005 as an average for the next 15 to 20 years and used prognosis from NUTEK to estimate the national electricity production system together with fuel and electricity prices. Three sizes of district heating systems have been considered with annual heat loads of 2, 60 and 300 GWh. We have identified the optimal mix of production techniques that produces heat to the lowest total cost for a given allowed level of greenhouse gas emissions. Conclusions about the individual technologies can be drawn by studying the change in the cost optimal production mix when the allowed level of emission changes. To get substantially lower carbon dioxide emissions, CHP-plants based on biofuels must be introduced. In Sweden, however, the carbon dioxide emissions associated with electricity production are low (even in the year 2005) and the prognosis for the electricity price does not make it profitable to introduce CHP-plants on economical grounds. This means that the cost for decreasing emission substantially below 50 kg/MWh with CHP-plants normally is expensive since the decrease in emissions is low and the increase in cost is high. 17 refs, 34 figs, 21 tabs

  2. Combined bio and solar heating system. Handbook for system design; Kombinerade bio- och solvaermesystem. Handbok foer systemutformning

    Energy Technology Data Exchange (ETDEWEB)

    Persson, Tomas

    2008-11-15

    The purpose of this report is to compile the knowledge available concerning combined pellets and solar system in order to support companies in their systems design. This publication deals with experience gained in research on solar and pellet heating, and gives proposals to system design, various technical solutions, and how systems should be controlled. When solar and pellets are combined, there are many possibilities to interconnect the systems. There are different traditions in different countries, which makes the system solutions vary from country to country. A general conclusion is that conventional Swedish boilers with built-in hot water heater are not appropriate for conventional solar systems. It gives rise to complex solutions and it is difficult to achieve good stratification in the water tank. In a solar system, it is important that the tank can be discharged in such a way that sharp stratification is obtained. This means that the tank bottom must be chilled to the temperature of incoming cold water and that the middle part must be cooled to the same temperature as the radiator return. If solar panels even in winter can work to preheat the cold water of 10 to 20 C, a much better efficiency is obtained on collectors than if the radiator return must be preheated, which at best is at a temperature level of between 30 and 40 C. To this end, the radiator return is placed well up from the bottom of the tank and the tap water is preheated in a loop that starts in the tank bottom. Another important parameter in the tank design is that heat losses are kept low, it is important that the solar heat can produce the hot water even during overcast periods in summer and to keep energy consumption low. In modern houses where the tank is placed in the living area, it is important to avoid high temperatures in the room where the tank is placed. To obtain a good isolation one must ensure that there is an airtight layer across the isolation that also closes tightly against connections. Involuntary self-circulation in connecting circuits capable of cooling and mix the tank is prevented by check valves. In the design of the solar collector system it is important that overheating and stagnation can be met without glycol degradation or other damage. Partial evaporation allows the fluid to boil in a controlled way so that only vapor remains in the solar collectors. The liquid is collected in a major expansion tank and the system is refilled when the liquid condenses. Drainage system with water only is also an possibility, but requires greater care in the design to avoid breaking from freezing. Pellet stoves provides good comfort and low electricity demand in electrically heated houses with an open plan, i e. if the heat from the stove can spread to all rooms. Even in low energy houses, the air heater may be appropriate. In houses with more enclosed layout, a water tank-equipped stove and a water-based heating system are necessary. It is important that such systems are designed correctly to achieve good heating comfort and low electricity consumption

  3. Development of methods for characterisation of landfill leachates - Final report; Utveckling av metoder foer karakterisering av lakvatten fraan avfallsupplag - Slutrapport

    Energy Technology Data Exchange (ETDEWEB)

    Oeman, Cecilia; Malmberg, Marianne; Wolf-Watz, Camilla

    2000-04-01

    There are currently over 500 active landfills and approximately 6 000 former non-used waste sites in Sweden. For 1996, the active sites released a total of 7 million m{sup 3} of leach water. Although it is well established that leachwater from domestic and industrial waste tips contain environmental pollutants, knowledge is limited regarding the processes involving these species within the waste tip and the subsequent effects on the environment. Since a great number of different chemical compounds are present in leachwater, cost-effective analysis efforts can focus only on a fraction of the total. At present however, no general standard procedure is yet available for the determination of toxicity and characterisation of leachwater from waste tips. The aim of this project was thus to develop such methodology. At the start of the project, samples were collected from waste sites; eleven untreated and one treated leachwater together with five leach water sediments. A large number of general parameters were analysed and evaluated; metals and other fundamental elements, organometallic species, organic compounds, sum of various parameters and toxicity. The study included an assessment of the sample collecting and treatment procedures, the chemical analyses and biological tests used, and not least the parameters' environmental relevance and representativity. The present report thus describes the project's methodology, results and conclusions. In parallel with this work, a secondary report has outlined a recommended method procedure for characterisation of leachwater based on the conclusions and experiences presented here. The results from the study showed that pH and conductivity varied significantly. A correlation was observed between high conductivity values, high temperatures and large fractions of ash and slag in the waste. Leachwater temperature was often higher than the surrounding ambient air temperature. The quantities of suspended material and organic carbon in the leachwater was clearly higher than both the normally occurring background values and that released from waste treatment plants. It should be noted however, that the fraction of organic carbon in the suspended material and in the dry substance could vary greatly in the samples. Chloride concentrations in the leachwater were significantly higher than those levels classed as high in groundwater. Similarly, ammonium, several metals and EOX concentrations were also clearly above levels in waters released from water treatment plants and above those levels considered as toxic for aquatic organisms. Ammonium in leachwater leads to eutrophication effects. In addition, copper, nickel, zinc and possibly cadmium existed at levels where ecotoxic effects occur even when diluted further in the environment. The chemical form of the metals present is however important in determining the resulting toxicity and availability. Mono-aromatics, PAH, phthalates, chlorobenzenes and chlorophenols were measured in the leachwater at higher concentrations than in treated waters from water treatment plants. The leachwaters' high concentrations of ammonium nitrogen, salt and elemental sulphur can cause problems in biological toxicity tests since these species have severe effects on many organisms. The results showed that ammonium nitrogen is measurably toxic for red algae Ceramium, green algae Raphidocelis (Selenastrum), the crustaceans Ceriodaphnia and Nitocra, and also for zebra fish. Chloride was mildly toxic for all the tested organisms. Elemental cyclic sulphur (S{sub 8}) has been shown to interfere with the Microtox test even at very low concentrations. The indications are that sulphur is even toxic for other organisms. The results showed that the lipophilic properties of the leachwater were accountable for the toxicity measured in the Microtox test. One could conclude however that the toxicity was a complex issue, which could be caused by several types of chemical species. Trials in this study showed that it was not possible to remove ammonium from the leachwater without significantly changing other properties of the leachwater. The study has shown that especially sample handling is critical and that even with extra care there still remains a risk for interference occurring in the measurements. This is caused by contamination occurring during sampling, sample handling, sample conservation, chemical analyses and changes of the sample during filtration. In addition, errors can arise from unrepresentative sampling in terms of both time and space. The results indicate that treating the samples with sodium azide and cold storage was the best procedure for conserving organic compound samples. In general it can be assumed that filtration of the leachwater for metal analysis cannot be recommended since large error sources can be introduced. Measured organic species sampled at the same place could differ significantly at different points in time.(abstract truncated)

  4. Degradation rate of sludge/fly ash mixture used as landfill liner; Nedbrytningshastigheten foer taetskikt uppbyggda av slam och aska

    Energy Technology Data Exchange (ETDEWEB)

    Wikman, Karin; Berg, Magnus [AaF-Process AB, Stockholm (Sweden); Svensson, Malin; Ecke, Holger [Luleaa Univ. of Technology (Sweden)

    2005-10-01

    In order to be able to use mixtures of ash and sludge as landfill liner an important aspect is to demonstrate that the degradation of organic matter is slow enough. Therefore, the goal of this project has been to find out for how long a landfill liner material of sludge and ash will be stable and keep its function. The degradation of organic material in two different mixtures of sludge and ash has been studied in laboratory experiments. The rate of degradation was then estimated for barriers of sludge and ash, taking into account construction techniques (mixture, compaction, water content), climate conditions (freezing, drying) and biological processes (NaN{sub 3} additive). The effect of the degradation on the permeability has also been quantified. Organic material may disappear for the landfill liner material through 1) initial leaching of soluble organic material, 2) leaching of organic material after chemical reactions or 3) evaporation during biological degradation. Bacterial activity was not found in the sludge/ash mixtures during the experiments. Therefore, the organic material is probably reduced mainly though leaching according to 1) and 2). The leached amount of TOC (total organic carbon) was measured for all samples of sludge/ash in several experimental cycles. The leached amount of TOC was compared to the initial amount of TOC in the material. The results show a small initial reduction of organic material through leaching but the TOC content in the material is then stabilized. In relation to the total weight of the material the leaching of TOC was similar for the mixtures with 80 % ash and 20 % ash. However, this means that a larger amount of TOC was leached out from the mixtures with a high ash content since the initial amount of organic material was smaller. General conclusions about which ash-sludge ratio that is suitable for a landfill liner material could not be drawn from the experiments from a degradation point of view. If the initial permeability is low enough (<1x10{sup -9} m/s) the results indicate that the leaching of TOC will be of less importance for the function of the barrier layer. The hydraulic conductivity was independent of the change in TOC, i.e. even though the organic material was reduced through chemical degradation and leaching the permeability was not negatively affected. Instead, the permeability was reduced in time and affected mainly by the compaction grade. Therefore, it is important to compact the landfill liner material and to mix the ash and sludge to a homogeneous mixture. Drying of the material increased the hydraulic conductivity: the barrier layer should therefore be kept moist. Freezing through cycles did not affect the permeability. Calculations on the basis of results from experiments with columns with an initial hydraulic conductivity of <1x10{sup -9} m/s show that the leaching of TOC stops after 38 years (NSR-Oeresundskraft) and 14 years (Bromma-Maelarenergi). The combination of reduced percolation and more immobilized TOC is expected to lead to very low leaching rates for organic material after this time. On basis of this study it is recommended to change the landfill liner material at Filborna in Helsingborg from clay to ash/sludge on a test area. During such large-scale tests it is suitable to control changes in the material to verify the results from the experiments.

  5. Energy for Road Transport - Prospects towards year 2020 and later; Energi foer Vaegtransporter - utsikter mot 2020 och daerefter

    Energy Technology Data Exchange (ETDEWEB)

    Aahman, Max

    2009-02-15

    The last few years, production of alternative fuels has grown significantly. The driving force can be primarily attributed to a growing interest in protecting the climate and the policy initiatives resulting from this, rising oil prices and industrial and agricultural interests. However, the debate has increasingly begun to question the usefulness and impact of a continued expansion of biofuels. The report provides an overview of our knowledge with respect to climate benefits, and economic potential for the 1st generation of ethanol and biodiesel, 2nd generation biofuels and electricity via e.g. plug-in hybrids. The report also provides various scenarios of how Sweden can meet the adopted EU directive on renewable energy in the transport sector to 2020. The substitution of fuels in the transport sector has only just begun. Driving forces, including those visible in the criteria of the EU Directive, however, will aim for more climate-effective fuels based on waste and forest raw material compared to today's efforts. Effective grain based fuels can still retain a relatively large niche even in the longer term, since the investment is justified by several reasons, including agricultural policy. Electric vehicles are expected to be launched in the not too distant future. But it will take a long time before electricity consumption via eg plug-in hybrids is visible in the statistics. Increased demands on energy efficiency can drive a trend towards more expensive vehicles and also to change forms of ownership and use of vehicles, including increased car pooling

  6. The pulverization and handling of soft plastics for energy recovery; Soenderdelning och hantering av mjuka plaster foer energiutvinning

    Energy Technology Data Exchange (ETDEWEB)

    Wiklund, Sven-Erik

    2000-10-01

    The purpose of the project has primarily been to investigate suitable equipment (mills, crushers, shredders) for the pulverization of different types of soft plastics from the agricultural sector (large sacks and silage plastic) and the peat extraction industry (plastic covers) with the aim of being able to use the plastic material as fuel in conventional solid waste-fired plants. Many of the mills that are used for pulverizing different types of biofuel have proved not to be particularly suitable for soft plastics. The project has comprised the following: * Contact with a number of plant owners with different types of plants (grate, CFB and BFB boilers) for a review of existing fuel handling and fuel feed equipment as well as the demands they make on the fuel that is to be fired. * Contact with Trio Plast concerning previous tests carried out in connection with the collection, baling, handling, pulverization and combustion of plastics from the agricultural sector. * Contact with mill suppliers for participation in the tests and for feedback on experience gained in connection with the pulverization of soft plastics. * Choice of a suitable plant for practical trials based on contact with the above plant owners as a reference group. * Practical trials in 5 mills with the pulverization of soft plastics from agriculture (silage plastic and large sacks) as well as plastic from peat extraction (plastic covers) and * Evaluation of technical, economic, energy-related and environmental preconditions. Following contact with several owners of solid waste-fired combustion plants, and after hearing their opinions, it became clear that many of them were doubtful about the combustion of plastic. They are primarily afraid of tripping superheaters, etc. Consequently, two plants without superheaters, one in Oestersund and the other in Malmoe, were chosen for the tests. The mills that were tested were: * A SIM mill from WahIkvist, Oedeshoeg Plant - a mobile slow-action pulverizer for different types of waste. * A Willibald mill from Svenska Neuero - a mobile hammer mill with a drive system mounted on a trailer frame. * An Untha mill from Presona - a mobile, slow-action, electrically-operated mill with cutting tools. * A Satum mill from Ekoteknik - a stationary mill of the slow-action type with rotating knife cutters, and * A Doppstadt mill from OP-maskiner - a mobile slow-action mill with hammers. Other mills been tested for milling soft plastics by Lunds Energi in Lomma and Soederenergi in SoedertaeIje are: * Lindner- kvarn from Franssons Recycling Machine. A low- speed machine with turnable teeth. (Lomma), and * Eco- crusher from Babcock. A low- speed waste crusher with two-rotor. (Soedertaelje). The results of the tests showed that those mills/crushers/shredders that can cope with the demand to pulverize plastic material with only one or two grinding runs are slow action units with cutting tools. Hammer mills do not function as effectively for the type of plastic material investigated. Tests of whether it was possible to fire the Jamtkraft plant in Oestersund with pulverized plastic showed that with a proportion of approximately 5 per cent of plastic fuel mixed together with other solid fuel, mainly sawdust, bark and wood chips, plant operation was for the most part satisfactory. The running period amounted to approximately two weeks. Among the problems that occurred, however, were that somewhat excessively long strips of plastic hung down in front of the level sensors that control the supply from the day silos and that the overfilling sensor in the fuel screw was affected by the plastic. These problems would probably have been more serious if a larger proportion of plastic had been used. In order to be able to complete the tests in Oestersund, relatively extensive contacts was needed with the municipal environmental and community planning office, which in turn obtained the views of the County Administrative Board in the county of Jaemtland. Finally, a permit was granted to fire approximately 300 tonnes of plastic material, although with certain reservations. The costs of handling plastics for transportation, pulverization and combustion will be relatively high and amount to between SEK 350 and 700 per tonne, the largest cost component of which being the pulverization cost. To this shall be added the costs of collecting the plastic. With a fuel valuation for the plastic as biofuel, lower costs are achieved corresponding to approximately SEK 500-1000 per tonne.

  7. Evaluation of the Swedish biogas standard - basis for a future audit; Utvaerdering av svensk biogasstandard - underlag foer en framtida revision

    Energy Technology Data Exchange (ETDEWEB)

    Svensson, Mattias

    2011-04-15

    This report is intended to constitute a basis for a future revision of the SS 15 54 38, 'Motor fuels - Biogas as fuel for high-speed otto engines.' When it was published in 1999, it was not deemed appropriate to source compressed biomethane from landfill gas, because of its wider range of trace elements, often in relatively high concentrations, such as siloxanes and halogenated hydrocarbons. Siloxanes are also present in the gas from waste water treatment plants, but the assessment was made that upgrading methods available at the time reduced these levels sufficiently. By putting a maximum limit on the nitrogen content, landfill gas was effectively shut out. Technical Development (cryogenic upgrading making it possible to clean landfill gas to biomethane quality; stricter emissions standards for vehicles that has led to a higher level of sophistication in engine and aftertreatment technologies) has now made it necessary to better control the levels of all trace elements. The state of standardization is not satisfactory for CNG in general and renewable CNG (biomethane) in particular. Standardization at the international level is mostly qualitative. Most standards are at the national level and with the exception of Sweden biomethane is only standardized for injection on the natural gas network. A mandate (M/475, 2010) from the European Commission to develop the CEN standards for biomethane fed into the grid, or used directly as renewable CNG, may change this, and the issue will be addressed in a new committee (CEN/TC408 'Project Committee - Biogas for use in transportation and injection into natural gas pipelines'). A variety of trace elements has been discussed for inclusion in the new standards, where countries such as Holland and France stand out as supporters of more stringent and comprehensive regulations. This report's working group considers it like the regulation of substances such as siloxanes and halogenated hydrocarbons will lead to removal methods, which sufficiently lowers also the levels of many of the other trace elements discussed. With respect to microorganisms, it is likely that the current requirement of a 1 micron filter may be sufficient to reduce the levels of these to harmless levels. If pathogens would be present, then the absorbed dosage would be too small to constitute any real risk. Lowering the maximum level for total sulfur content is an important revision, because the high content of sulfur dioxide in exhaust gases has an inhibitory and aging impact on catalysts, with lean-burn engine applications as the most sensitive. It is clear that most of the sulfur has its origin in the odorization, THT being utilized in Sweden (tetrahydrothiophene, about 6 mg S/Nm3). More sulfur-poor and even sulfur-free alternatives are available on the market, where the sulfur-free option is a less likely candidate, due to its uncharacteristic odor. Siloxanes are suspected as accountable for many of the undiagnosed operational problems in NGV's, since they precipitate as solid silica during combustion. Problems with clogging of the lambda sensors have been attributed to the presence of elementary silicon in petrol. It is unknown whether similar problems might arise from the presence of siloxanes in compressed biomethane. Reported total concentrations of siloxanes after upgrading fall below 0.6 mg Si/Nm3. Whether to regulate volatile heavy metals such as mercury and arsenic or not is an issue that risks becoming a stumbling block in the discussions between the Swedish vehicle manufacturers, who want to see quantitative regulation of these, and the CNG industry, which believes that the level of these rarely reach above the detection level even in the raw gas, and even less so in upgraded gas. As in the case of siloxanes and halogenated hydrocarbons, a possible recourse is to standardize/certify according to substrate source, heavy metals being present in principle only in landfill gas. In addition to the biologically derived trace elements it is also evident that there is a need to more cl

  8. Silicon carbide based sensor system for minimized emissions in flue gases; Kiselkarbidbaserat sensorsystem foer minimering av emissioner i roekgaser

    Energy Technology Data Exchange (ETDEWEB)

    Lloyd Spetz, Anita; Bjorklund, Robert

    2012-02-15

    Control of the combustion process is necessary in order to operate boilers in an economic and environmentally acceptable manner. Large power plants can afford expensive measurement instruments to continuously monitor the composition of flue gas. Smaller facilities often lack complete gas analysis systems and it would be to their advantage to have access to inexpensive measurement equipment which could be installed at several points in the flue gas channel. Since oxygen concentration is such an important parameter for describing the combustion process the lambdasond is currently being used as an oxygen sensor in flue gas. It has the advantage of usage for more than 30 years in the automobile industry. Experience from that application has aided its introduction in the power industry. Conditions are not the same in the two branches but the lambdasond is an established technology, produced in large volume, widely available and inexpensive. Vehicle manufacturers continue to develop sensor technology and monitoring capabilities have been extended to CO, NOx and NH3. The latter is the result of SCR (selective catalytic reduction) of NOx by addition of NH3 (from urea), which has been introduced as an exhaust gas aftertreatment technology in diesel powered vehicles. The power industry can be expected to follow this trend by incorporating sensors for monitoring and control of SCR and SNCR (non-catalytic selective reduction) in flue gas applications. This report describes evaluation of silicon carbide based transistors, which have previously been studied in diesel exhaust gas and small boiler flue gas, for applications in larger power plants

  9. SSI`s review of ASAR Ringhals 2, 1994; Statens straalskyddsinstituts granskning av ASAR-rapport foer Ringhals 2, 1994

    Energy Technology Data Exchange (ETDEWEB)

    Hofvander, P.

    1995-11-01

    Swedish nuclear power reactors are subject to periodic safety reviews, ASAR. Parts of ASAR deal with questions concerning radiation protection and are therefore submitted to a review performed by the Swedish Radiation Protection Institute. This report consists of SSI`s review of ASAR Ringhals 2, 1994 . The following areas have been included in this review: Organisation, education, occupational exposures, effluents and discharges, emergency preparedness. 13 figs.

  10. Nitrogen bubbling in expansion vessels and storage tanks for makeup water; Kvaevgasbubbling i expansionskaerl och lagertankar foer spaedvatten

    Energy Technology Data Exchange (ETDEWEB)

    Wilgotson, Fredrik; Hansson, Helen [Carl Bro Energikonsult AB, Stockholm (Sweden)

    2004-03-01

    Oxygen and carbon dioxide induced corrosion and biological growth are two problems associated with storage tanks for demineralised water as well as with atmospheric expansion vessels. The aim of this project was to investigate if it is possible to reduce or perhaps even eliminate those problems by bubbling nitrogen through the water. The investigation shows that the nitrogen flow is of great importance for the result.

  11. System and market study of bio-methane (SNG) from bio fuels; System- och marknadsstudie foer biometan (SNG) fraan biobraenslen

    Energy Technology Data Exchange (ETDEWEB)

    Valleskog, Martin (CMV Konsult (Sweden)); Marbe, Aasa; Colmsjoe, Linda (Grontmij AB (Sweden))

    2008-07-01

    This study has examined whether the use of SNG produced from biofuels can constitute an alternative use for biofuel. Gasification technologies are studied: pressurized gasification with oxygen/steam, indirect gasification and hydrogen gasification. The objective of the project is to make a reasonable valuation of the production of SNG and through a market-study see if biofuel-based SNG can be an alternative to competing fuels. The report also discusses the supply and price of biofuels in Sweden. This use was 112 TWh in 2005 and assessed potential in year 2025 is 187 TWh. Biofuel prices show an upward trend and system of incentives affect the development of the biofuels market and price. The main incentives are electricity certificate system, energy and environmental taxes and emissions trading. Current energy and climate policies in Sweden and EU are expected to increase demand for biofuels and thus likely the prices. Increased volumes of waste tend to reduce pressure on the demand for biofuels generally. SNG is compared with natural gas and with other uses for biofuels and other competing fuels, depending on the application. The economic analysis has been conducted for three different cost levels in fuels and incentives, namely the year 2007, scenario in 2012 and scenario in 2020. The economics of SNG is evaluated for the three above-mentioned scenarios, both with respect to its cost of production, and in which market the SNG used (cogeneration, heating, industry and the automotive market). A sensitivity analysis has been conducted on the following parameters: fuel prices, electricity prices, the cost of emissions, taxes and investment. The results show that SNG is not a finished product available on the market today why additional support is required to make SNG competitive so that investment in production is stimulated. The production cost of SNG is between 380 - 410 SEK/MWh and necessary support is estimated to amount to 150 - 200 SEK/MWh on the basis of the current Swedish tax system. From a production standpoint, the industrial and automotive markets are best suited as recipients of SNG because demand is evenly distributed throughout the year, CHP and heat market at least favorable as it is heavily dependent on the variation of the heat demand during the year. By contrast, the biggest economic advantage is achieved when SNG is replacing natural gas and oil for heating. Secondly, in the sectors of power generation and vehicle fuel SNG is favored by subsidies. High electricity certificate prices and high power generation efficiency benefit SNG for cogeneration. The analysis of the current competitive situation leads to SNG require some form of financial support to become a commercially available energy resource. The fastest establishment of SNG facilities will be realized in which the natural gas network already established, as it gives access to the entire natural gas market. Industrial and automotive market has been steady demand over the year and can therefore form the basis for the draft instruments. Politically speaking, there is great interest to find renewable alternatives in the automotive market. If we are to invest in a new cogeneration installation is the most economical to gasify biofuel combustion the gas in a gas turbine with subsequent steam cycle (BIGCC). This is far more economical than to first convert the gas to SNG and then burn it in a combined natural gas plant. It requires, however, that the values on electricity certificate is relatively high, or that prices are high

  12. Recommendations for optimised repair welding operations in steam systems exposed to creep; Rekommendationer foer optimering av svetsreparationer i kryppaakaenda aangsystem

    Energy Technology Data Exchange (ETDEWEB)

    Storesund, Jan; Samuelson, Aake; Klasen, Bjoern; Jensen, Carsten

    2002-03-01

    Recommendations for optimised repair welding in creep exposed steam systems have been produced on basis of different parts of the project which involve a literature survey, case studies, metallographical investigations and finite element simulations. The separate parts are compiled in the present report where the results also are coupled to each other. Two of the project parts are reported in appendices in the present report and the other ones in three separate work reports. The studies have shown evidence of the complexity associated with repair welding and many alternatives may be offered for a given situation. The importance of the factors which may influence the life time of the repair have been investigated and are described in order to facilitate the decision-making process for the given situation. From the obtained results there are also more general recommendations to be given: Make sure that system stresses not are acting at the repair. Avoid welding methods that could result in strongly creep soft HAZs. Select a weld metal for the repair which is slightly creep hard compared to the remaining aged material. Selection of a wide and 'medium' deep excavation geometry as well as a repair around the whole circumference is to be preferred. Repairs of welds that not include excavation of the whole width of the original weld should be avoided. Replica testing is recommended in addition to the common practice in the quality and condition-monitoring control of the repair.

  13. Additive for reducing operational problems in waste fired grate boilers; Additiv foer att minska driftproblem vid rostfoerbraenning av avfall

    Energy Technology Data Exchange (ETDEWEB)

    Gyllenhammar, Marianne; Herstad Svaerd, Solvie; Davidsson, Kent; Hermansson, Sven; Liske, Jesper; Larsson, Erik; Jonsson, Torbjoern; Zhao, Dongmei

    2013-09-01

    The combustion of waste implies a risk for deposits and corrosion in different parts of the combustion facility. In recent years, research and tests have been performed in order to find ways to mitigate these problems in waste-fired plants. Most waste-fired plants in Sweden are grates whereas most of the research has been carried out in fluidized bed plants. The purpose of this project is to examine whether co-firing of sewage sludge and waste can reduce deposition and corrosion also in grate-fired boilers as has been shown in fludised beds. The objective is to determine the deposit growth and its composition as well as describing the initial corrosion attack. Representing sulphur-rich waste, elementary sulphur is also added to the waste and thereby compared with sludge as an additive. The target groups for this project are plant owners, researchers, consultants and authorities. Tests were performed in a 15 MWth waste-fired boiler with moving grate at Gaerstadverket, Tekniska Verken (Linkoeping). The boiler produces saturated steam of 17 bars and 207 deg C, and the normal fuel mixture contains of household and industry waste. The results show that co-firing with as heigh as 20 weight-% SLF (25 energy-%) was possible from an operational point of view, but the deposit rate increased especially at the two warmest positions. Generally the deposit rate was highest in the position closest to the boiler and decreased further downstream. During the tests a lot higher amount of SLF than normal was used (recommended mix is 5-10 % of SLF) this to be able to see effects of the different measures. Up to 23 weight-% of the rather moist sewage sludge was possible to fire when co-firing waste and SLF, without addition of oil. By adding sludge the deposit rate decreased but the increase upon adding SLF to ordinary waste was not totally eliminated. In the tests 'Avfall and SLF' the deposits were rich in chlorine. High concentrations of metal chlorides were found in the interface between the steel and the metal oxide. This weakens the adhesion of the oxide to the steel surface and thus increases the corrosion rate. By addition of sewage sludge or sulphur the initial corrosion was decreased on both the low-alloyed steel T22 and the stainless steel 304L; sewage sludge being a little better than sulphur. Qualitatively, the corrosion attack firing SLF was similar to that firing ordinary waste, but the attack was stronger. At material temperatures of 500 deg C and 420 deg C - corresponding to superheaters - alkali chloride corrosion dominated, while at 280 deg C - corresponding to furnace walls - a melt of KCl/ZnCl2 is likely to have accelerated the corrosion. This difference between different material temperatures was especially pronounced in the 'Avfall and the SLF' cases. Higher zinc content in the fuel can therefore increase risk of corrosion. The higher content of iron, lead, copper and zink in the ash from the SLF case corresponds to the content of SLF compared with ordinary waste. Comparing the present tests with similar tests in fludised beds, grate firing resulted in higher deposit rate on the exposed test rings. This can at least partly be attributed to the lack of empty pass in the present grate boiler and to some differences in fuel composition: more chlorine and less sulphur in the waste used in this project. However, the effect of adding sludge was similar but not as strong as in the fluidised bed tests. To summarise, the results show that co-firing SLF with sludge can be advantageous also in a grate-fired boiler. Because of the high heating value of SLF, this combination also makes it possible to add a high fraction of moist sewage sludge.

  14. Experiences of membrane technique in flue gas condensate treatment applications; Utvaerdering av erfarenheter av membranteknik foer rening av roekgaskondensat

    Energy Technology Data Exchange (ETDEWEB)

    Goldschmidt, Barbara; Ekdahl, Emma; Hellman, Mats

    2009-07-01

    Investing in a flue gas condensate treatment plant often turns out to be very profitable. The profitability comes from savings in energy and water consumption when treated waste water is recirculated, and also from savings in the NO{sub x} fee as condensate treatment allows for higher ammonia injection rates in the SNCR (NO{sub x} reduction) system. The membrane based technologies for flue gas treatment, which were investigated in this report, have proven to be successful and are operating well. However, they require that the project management is committed and acquaint themselves with the technology to avoid problems during commissioning and operation. In this project, experience with membrane based flue gas condensate treatment at ten different plants was investigated and evaluated. The ten plants are either biomass fired plants or co-combustion plants using a mixture of biomass and industrial waste. Membrane based flue gas condensate treatment is used by circa ten Swedish plants (Ultra Filtration membranes and/or Reverse Osmosis membranes, and at some plants also membranes for ammonia and carbon dioxide removal). All plants are biomass fired plants or co-combustion plants using a mixture of biomass and industrial waste. In Sweden, no plant firing municipal waste has yet been equipped with membrane based flue gas condensate treatment. These plants usually use precipitation and filtration technologies instead. Also the purpose of the condensation step is primarily to operate as a wet flue gas cleaning step. The heat recovery is of subordinate importance. Typical for these plants is also that they use condensation in several steps. The condensates from the different steps are often treated separately, as they may be of very different qualities. The RO unit is the main equipment in a membrane based water treatment plant. Pre-treatment and post-treatment of the RO water is adjusted to the incoming condensate quality, and to the requirements on the effluent. The reject water volumes of the visited RO plants are between 13 and 30%, based on RO inlet volume. The reject water percentage is dependent on the design of the RO plant. Double or triple pass RO design causes an increase in reject percentage, whereas recirculation of reject from the last RO stages helps to decrease reject percentage, and hence increases the total permeate yield. Eight of the visited plants are equipped with a UF unit as a pre-treatment step. Two plants use sand filters instead. At the time when condensate treatment equipment was installed at these two plants, UF technology was not yet used in this type of applications. The plants with UF pre-treatment have a Vibra Screen filter installed before the UF unit. In some cases additional pre-treatment is installed. Several plants have carbon dioxide removal installed before the UF unit, two plants have ammonia removal before the UF unit, one plant has precipitation and one plant has a sand filter in addition to the Vibra Screen filter. One plant has a UV generator installed before the UF unit, to prevent bacterial growth in the membranes. The concentrate, or reject, from the RO plant is relatively particle free but enriched in dissolved solids. Seven of the plants are equipped with ammonia removal. ammonia is removed either by membranes, by strippers or in the humidifier of the flue gas condenser. Almost all visited plants have high availability today. However, it often took several years to reach this goal. Reconstructions and completions with additional equipment have been made to the original installations. One plant has an availability of only 50% after eighteen months operation, and has still not been approved for trial operation. As an average, 12 hours per week of maintenance is required for the flue gas condensate treatment plants. A common feature of the visited plants is, that only pH is monitored in the inlet water to the condensate treatment plant. Although monitoring of conductivity would give valuable information on variations in condensate quality and possible operational problems, conductivity is not monitored in any plant. Manual sampling is limited to occasional samples taken to control on-line instrumentation, and to samples which are collected to control heavy metal emission to the recipient. These samples are analyzed by external laboratory at regular intervals, e.g. monthly. All the visited plants, except one, have integrated the control of the condensate treatment plant in their central control system. Normally, the condensate treatment plant can also be controlled and monitored locally to some extent

  15. Multimodality and the literary text: making sense of Safran Foer's Extremely Loud and Incredibly Close

    DEFF Research Database (Denmark)

    Nørgaard, Nina

    2010-01-01

    This article explores the applicability of a multimodal framework to the analysis of literature. The framework adopted is that proposed by Kress and Van Leeuwen (2001) and Van Leeuwen (2005). In seeking to develop a detailed and consistent methodology that will allow us to deal with multimodal...... texts in an informed manner, Kress and Van Leeuwen's approach extends the basic ideas of Halliday's Systemic Functional Linguistics and his view of language as a social semiotics to encompass the analysis of texts which are more than purely verbal. The article focuses in particular on concepts...

  16. Bio-oils and other bio fuels used in heat- and power generation; Flytande biobraenslen foer el- och vaermeproduktion

    Energy Technology Data Exchange (ETDEWEB)

    Sandgren, Annamaria; Ekdahl, Emma; Sernhed, Kerstin; Lindstroem, Erica

    2010-05-15

    The purpose of this study was to assemble and disseminate knowledge about bio-oils and other bio fuels which are used for heat- and power generation or liquid bio fuels/oils that may become interesting in the future. One aim of this study was to give an updated picture of the Swedish market for bio-oils and to provide an overview of practical experience on the usage of bio-oils in the Swedish heat and power industry. In order to show a green profile, bio-oils can be used in the heat and power generation. However, not all bio-oils can be viewed as climate friendly. Some production of bio-oils may actually - if a lifecycle perspective is considered - lead to increased emissions of greenhouse gases, and there are also ethical issues that need to be considered. The data collection was carried out in three different fields. The objective of the first part was to create an overview of the Swedish market for liquid bio fuels/oils for heat and power production. The second part of the study aimed to clarify the issues surrounding environmental and ethical issues associated with the use of different bio-oils. A selection of oil crops for a closer study was made based on production volume (soybean, palm oil and rapeseed) and expected future potential (jatropha). This part of the study was based on a literature review. In the third part of the study technical and practical experiences from using bio-oils in heat and power production were studied. The interviews made with purchasing managers in the second part gave valuable information on which utilities would be the most interesting to interview for the study of technical and practical experiences, where interviews were carried out with persons familiar with the daily operation of the plant. The use of liquid bio fuels was about 4.3 % of total fuel use in Swedish district heating production in 2007 (1.2 % pine oil and 3.0 % other bio-oil). In other words, it is mainly bio-oils that have been used and not other types of liquid bio fuels. The types of liquid bio fuels that have been studied are different qualities of bio-oils and glycerol that is a residual from biodiesel production. Vegetable bio-oils are the most commonly used in Swedish heat and power production amongst the liquid bio fuels. Vegetable oils can be extracted from a variety of different crops that grows all over the world. Due to today's fuel prices, the bio-oil that is used for heat and power production is mainly residue or by-products from industrial production of food, feed manufacturing, pharmaceuticals and cosmetics. The most abundant bio-oils that have been encountered during the interview process have come from oil palm or rapeseed or a mix of different residues from which the biological origin is difficult to trace. Tall oil pitch, which is a by-product in the pulp industry, has held a non-negligible share in Swedish heat production. Experiments on combustion of glycerol have recently been carried out and these indicate that glycerol does have a potential. According to the district heating companies that were interviewed, they did not experience that lack of availability of bio-oils was a problem, although the quality of the bio-oils could vary greatly. Most district heating companies have developed specifications for the fuel to be purchased. All parties benefit from a good specification where the purchasing managers and the operational staff have consistent requirements. The liquid bio fuels used in Swedish heat production are, except for possibly the PFAD, not accepted products, but different types of residues or by-products. There is no commodity exchange where the products are traded and there are a variety of factors affecting the price formation, making the pricing very complex. The study discusses various aspects of the use of bio-oils with a focus on a few crops of particular interest. These are soybean, oil palm, rapeseed and jatropha. The first three are interesting because of their large production volume, but also because of the infective debates that have been going on about the environmenta

  17. The forest as a historic source and sink for carbon dioxide; Skogen som historisk kaella respektive saenka foer koldioxid

    Energy Technology Data Exchange (ETDEWEB)

    Kander, A. [Lund Univ. (Sweden). Dept. of Economic History

    1996-06-01

    The aim of the present project is to quantify the changes in the growing stock of timber between 1800 and 1985 in order to find out under which periods and to what extent the forest has served as a source resp. sink for carbon dioxide. These data are compared to the carbon dioxide emissions from combustion of fossil fuels under the same period. Another goal of the project is to find the order of magnitude of the effect of other potential sinks and sources for carbon dioxide. 32 refs, 9 figs, 1 tab

  18. Developing of FTIR- and new probe technique for combustion gas analysis; Utveckling av FTIR- och sondteknik foer gasanalys i foerbraenningsrum

    Energy Technology Data Exchange (ETDEWEB)

    Johansson, Annika; Andersson, Christer [Vattenfall Utveckling AB, Stockholm (Sweden); Thulin, C. [Swedish National Testing and Research Inst., Boraas (Sweden); Karlsson, Maria; Aamand, L.E. [Chalmers Univ. of Technology, Goeteborg (Sweden)

    1996-08-01

    The objective of the reported project has been to develop and field test a versatile measurement system for combustion gases based on the FTIR technique. The project has included the following stages: Development of gas sampling methods, Further development of the FTIR technique, Field testing of the measurement system. The development of evaluation routines based on CLS and PLS methods has lead to the conclusion that both methods are well suited for the application in question, which enables an automation of the evaluation procedure. However, the elaboration of versatile and quality controlled methods is time consuming and the application requires a qualified user. With the dilution probe prototype, a satisfactory rejection of particles is achieved at the same time as a good mixing of the dilution gas and the sample gas takes place. Sampling is performed without using a filter at the probe tip. The intended function of the probe requires that most particles can be rejected without giving rise to a too high dilution ratio. This was achieved in the middle and upper part of the CFB boiler. Comparisons of measurement data from field measurements with the developed probe concept and the `conventional` CTH extractive probe show that the results are in good agreement in many cases, but also that interesting discrepancies exist. Sampling artefacts have been noticed for the gases HCN and SO{sub 2}, where HCN and SO{sub 2} are found in higher concentrations when sampling with the dilution probe. Analyzed concentrations of CO and hydrocarbons (methane, ethene and acetylene) are throughout all the measurements lower when the dilution probe is used. 21 refs, 34 figs, 29 tabs

  19. NDT methods for life-time assessment of high temperature plant; Ofoerstoerande provning foer livslaengdsbedoemning av hoegtemperaturanlaeggningar

    Energy Technology Data Exchange (ETDEWEB)

    Storesund, J. [Swedish Inst. for Metals Research, Stockholm (Sweden)

    1996-10-01

    A comprehensive literature study of NDT and analysis methods for residual life-time assessment of high temperature plant has been made. The study has been concentrated on components in boilers, steam piping and turbines in fossil fired power plant. Most types of components are exposed to creep which is also the life-time limiting mechanism in many cases. In addition to creep, other stresses and damages which appear in plant are described for each type of component. Thermal fatigue, corrosion and embrittlement as well as combined damage mechanisms are also life-time limiting in many cases. The literature shows a large number of NDT methods developed and under development in purpose to identify and measure the size and extent of damage in the components. The methods and their limitations are described in relation to the experience and understanding of character, distribution and development of damage in different situations. 83 refs, 12 figs, 1 tab

  20. Impurities in biogas - validation of analytical methods for siloxanes; Foeroreningar i biogas - validering av analysmetodik foer siloxaner

    Energy Technology Data Exchange (ETDEWEB)

    Arrhenius, Karine; Magnusson, Bertil; Sahlin, Eskil [SP Technical Research Institute of Sweden, Boraas (Sweden)

    2011-11-15

    Biogas produced from digester or landfill contains impurities which can be harmful for component that will be in contact with the biogas during its utilization. Among these, the siloxanes are often mentioned. During combustion, siloxanes are converted to silicon dioxide which accumulates on the heated surfaces in combustion equipment. Silicon dioxide is a solid compound and will remain in the engine and cause damages. Consequently, it is necessary to develop methods for the accurate determination of these compounds in biogases. In the first part of this report, a method for analysis of siloxanes in biogases was validated. The sampling was performed directly at the plant by drawing a small volume of biogas onto an adsorbent tube under a short period of time. These tubes were subsequently sent to the laboratory for analysis. The purpose of method validation is to demonstrate that the established method is fit for the purpose. This means that the method, as used by the laboratory generating the data, will provide data that meets a set of criteria concerning precision and accuracy. At the end, the uncertainty of the method was calculated. In the second part of this report, the validated method was applied to real samples collected in waste water treatment plants, co-digestion plants and plants digesting other wastes (agriculture waste). Results are presented at the end of this report. As expected, the biogases from waste water treatment plants contained largely higher concentrations of siloxanes than biogases from co-digestion plants and plants digesting agriculture wastes. The concentration of siloxanes in upgraded biogas regardless of which feedstock was digested and which upgrading technique was used was low.

  1. Transport systems - solid indigenous fuels. [Identification of fuel transport problems in Sweden]. Transportsystem foer fasta inhemska braenslen

    Energy Technology Data Exchange (ETDEWEB)

    Colliander, J.

    1985-12-01

    The following problems have been indentified: - A rational structure of transporting requires an established and relatively open market. - The necessary rolling stock for fuel conveyance by rail is not available. - Roads have to be improved and new roads have to be built. Railways with low load now might get a motivation for reinforcement. - Because of the irregular spread of consumption storing and terminals problems will arise and increase the cost of transport. - Terminals and stores are situated at a convenient place for one single enterprice. On a far-away aim this will not be rational.

  2. Critical factors for profitable combined production of heat, power and biofuels; Kritiska faktorer foer loensam produktion i bioenergikombinat

    Energy Technology Data Exchange (ETDEWEB)

    Nohlgren, Ingrid; Gunnarsson, Emma; Lundqvist, Per; Stigander, Haakan; Widmark, Annika (AaF, Stockholm (Sweden))

    2012-02-15

    During the last 5-10 years, research and development efforts have been made in the field of polygeneration of heat and power with production of 'other green' products such as transport fuels or wood pellets. The driving force for heat and power producers is the potential of increased profitability through additional sales of heat. The driving force for wood pellet and some transport fuel producers is the potential of low cost process steam or heat. However, in the case of gasification based transport fuel production processes the situation is different. The process generates a surplus of heat, which can benefit from the proximity of a district heating net. In addition, some polygeneration combinations could provide other advantages such as more efficient raw material handling. Together with these driving forces, the EU renewable energy directive (which targets 10 % renewable energy use in the transport sector by 2020), shows that the market for production of renewable transport fuel is expanding. To refine Swedish biomass resources to more highly valuable products such as wood pellets or renewable transport fuels would maintain industry and employment opportunities within Sweden and at the same time fulfils the international and national climate targets. The overall aim with this project is to describe the factors which are crucial for the opportunity for profitable polygeneration of heat, power and wood pellets or renewable transport fuels and how these factors influence the location of such a plant within Sweden. The important factors can be categorized as: (1) Supply of raw material, (2) distribution of raw material and products, (3) Demand of products and (4) Integration between the different plants. In this project, only general aspects are described and should be seen as guidance for the industry (both energy and forest industry) which has an interest in polygeneration. The project gives an overview of different possibilities, opportunities and prerequisites for profitable polygeneration plants. The aim is that different actors within the energy and forest industry should be able to use the results in their own more detailed investment analysis. The project is based on data and material in open literature, in depth interviews of important actors and suppliers within this field, and, finally, an analysis by the authors. The project covers three different polygeneration plants: (1) Combined heat, power and wood pellet production, (2) combined heat, power and ethanol production, and (3) Bio-SNG and heat production

  3. Requirements for drilling and disposal in deep boreholes; Foerutsaettningar foer borrning av och deponering i djupa borrhaal

    Energy Technology Data Exchange (ETDEWEB)

    Oden, Anders [QTOB, Haesselby (Sweden)

    2013-09-15

    In this report experience from drilling at great depth in crystalline rock is compiled based on project descriptions, articles and personal contacts. Rock mechanical effects have been analyzed. The report also describes proposals made by SKB and other agencies regarding the disposal of and closure of deep boreholes. The combination of drilling deep with large diameter in crystalline rocks have mainly occurred in various research projects, such as in the German KTB project. Through these projects and the increased interest in recent years for geothermal energy , today's equipment is expected to be used to drill 5000 m deep holes , with a hole diameter of 445 mm , in crystalline rock. Such holes could be used for the disposal of spent nuclear fuel. With the deposition technique recently described by Sandia National Laboratories in USA, SKB estimates that it might be possible to implement the disposal to 5000 m depth. Considering the actual implementation, drilling and disposal, and the far-reaching requirements on nuclear safety and radiation protection, it is considered an important risk getting stuck with the capsule-string, or part of it, above deposition zone without being able to get it loose. In conclusion, even if the drilling and the deposit would succeed there remains to verify that the drill holes with the deposited canisters meet the initial requirements and is long-term safe.

  4. Bio-oils and other bio fuels used in heat- and power generation; Flytande biobraenslen foer el- och vaermeproduktion

    Energy Technology Data Exchange (ETDEWEB)

    Sandgren, Annamaria; Ekdahl, Emma; Sernhed, Kerstin; Lindstroem, Erica

    2010-05-15

    The purpose of this study was to assemble and disseminate knowledge about bio-oils and other bio fuels which are used for heat- and power generation or liquid bio fuels/oils that may become interesting in the future. One aim of this study was to give an updated picture of the Swedish market for bio-oils and to provide an overview of practical experience on the usage of bio-oils in the Swedish heat and power industry. In order to show a green profile, bio-oils can be used in the heat and power generation. However, not all bio-oils can be viewed as climate friendly. Some production of bio-oils may actually - if a lifecycle perspective is considered - lead to increased emissions of greenhouse gases, and there are also ethical issues that need to be considered. The data collection was carried out in three different fields. The objective of the first part was to create an overview of the Swedish market for liquid bio fuels/oils for heat and power production. The second part of the study aimed to clarify the issues surrounding environmental and ethical issues associated with the use of different bio-oils. A selection of oil crops for a closer study was made based on production volume (soybean, palm oil and rapeseed) and expected future potential (jatropha). This part of the study was based on a literature review. In the third part of the study technical and practical experiences from using bio-oils in heat and power production were studied. The interviews made with purchasing managers in the second part gave valuable information on which utilities would be the most interesting to interview for the study of technical and practical experiences, where interviews were carried out with persons familiar with the daily operation of the plant. The use of liquid bio fuels was about 4.3 % of total fuel use in Swedish district heating production in 2007 (1.2 % pine oil and 3.0 % other bio-oil). In other words, it is mainly bio-oils that have been used and not other types of liquid bio fuels. The types of liquid bio fuels that have been studied are different qualities of bio-oils and glycerol that is a residual from biodiesel production. Vegetable bio-oils are the most commonly used in Swedish heat and power production amongst the liquid bio fuels. Vegetable oils can be extracted from a variety of different crops that grows all over the world. Due to today's fuel prices, the bio-oil that is used for heat and power production is mainly residue or by-products from industrial production of food, feed manufacturing, pharmaceuticals and cosmetics. The most abundant bio-oils that have been encountered during the interview process have come from oil palm or rapeseed or a mix of different residues from which the biological origin is difficult to trace. Tall oil pitch, which is a by-product in the pulp industry, has held a non-negligible share in Swedish heat production. Experiments on combustion of glycerol have recently been carried out and these indicate that glycerol does have a potential. According to the district heating companies that were interviewed, they did not experience that lack of availability of bio-oils was a problem, although the quality of the bio-oils could vary greatly. Most district heating companies have developed specifications for the fuel to be purchased. All parties benefit from a good specification where the purchasing managers and the operational staff have consistent requirements. The liquid bio fuels used in Swedish heat production are, except for possibly the PFAD, not accepted products, but different types of residues or by-products. There is no commodity exchange where the products are traded and there are a variety of factors affecting the price formation, making the pricing very complex. The study discusses various aspects of the use of bio-oils with a focus on a few crops of particular interest. These are soybean, oil palm, rapeseed and jatropha. The first three are interesting because of their large production volume, but also because of the infective debates that have been going on about the environmenta

  5. Multimodality and the literary text: making sense of Safran Foer's Extremely Loud and Incredibly Close

    DEFF Research Database (Denmark)

    Nørgaard, Nina

    2010-01-01

    This article explores the applicability of a multimodal framework to the analysis of literature. The framework adopted is that proposed by Kress and Van Leeuwen (2001) and Van Leeuwen (2005). In seeking to develop a detailed and consistent methodology that will allow us to deal with multimodal te...... typographies, graphics, colour, layout, photographic images etc. - emphatically invites an analytical approach designed to understand meaning-making as an interplay of different semiotic modes....

  6. Annual Report 2011 for the Swedish CDM and JI program; Aarsredovisning 2011 foer Sveriges CDM och JI-program

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2012-11-01

    The report is an annual report of the Swedish CDM [Clean Development Mechanism] and JI [Joint Implementation]program for 2011. The report shows aims and goals of the business and the work of individual CDM and JI projects and multilateral funds which have been performed over the entire duration of life and especially during 2011. The report presents volume orders, deliveries of emission reduction units as well as the volumes expected to be needed for the fulfillment of the national target by 2020. The report also includes information about the average price for the emission reductions as well as alternative costs.

  7. Recommendations for replica testing of high temperature components in power plant; Rekommendationer foer replikprovning av hoegtemperaturkomponenter i kraftanlaeggningar

    Energy Technology Data Exchange (ETDEWEB)

    Storesund, Jan [Det Norske Veritas AB, Stockholm (Sweden)

    2000-08-01

    Replica testing is a non-destructive testing method where the microstructure of the surface of a component is replicated. This involves careful metallographical preparation which in some points also should be adapted to the aims of the investigation. There are published guidelines for replica testing of high temperature components in power plant, for instance by Nordtest, but these may be considered to be insufficient to assure the required quality and reproducibility of the replicas. There are no certification systems for the replica method in Sweden as well as abroad and the experience has shown that differences in the performance that existing praxis can involve may give significant influence on the results when the replicas are evaluated. In the present project recommendations have been compiled for replica testing with regard to creep damage on occurring heat resistant steel types in Swedish power plants. The recommendations consist of guidelines for metallographical replication in the field and cover: - Test positions at weldments and pipe bends; - Equipment; - Rough and fine grinding; - Macro-etching; - Electrolytic and mechanical polishing; - Etching; - Replication; - Documentation and storage; - Personnel. They describe differences in the testing of the different materials and the purpose is to assure replica testing of the highest quality and reproducibility. The recommendations have been compiled by use of guidelines and company standards as a starting point. Some points in the recommendations refer to trials for verification which have been carried out within the frame of the project. The trials have been focused on the appearance of creep damage and microstructure in different established methods for polishing and etching. Comments and closer descriptions for some points of the test procedures are given in an appendix to the recommendations.

  8. Plan 2003. Costs for management of the radioactive waste from nuclear power production; Plan 2003. Kostnader foer kaernkraftens radioaktiva restprodukter

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2003-06-01

    The cost estimates are based on different scenarios and make allowances for uncertainties, variations and disturbances in the various projects. Costs for reactor decommissioning and for research and demonstration throughout the different stages of the waste handling and disposal are included. The total future cost for handling the waste from 40 years operation of the 11 Swedish reactors in operation and Barsebaeck-1 which already is taken out of operation, amounts to 49.6 billion SEK (about 6.2 billion USD). 12.7 billion SEK has already been used for building and operating the existing plants, and for research and development (incl. year 2003 costs)

  9. Plan 2002. Costs for management of the radioactive waste from nuclear power production; Plan 2002. Kostnader foer kaernkraftens radioaktiva restprodukter

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2002-06-01

    The cost estimates are based on different scenarios and make allowances for uncertainties, variations and disturbances in the various projects. Costs for reactor decommissioning and for research and demonstration throughout the different stages of the waste handling and disposal are included. The total future cost for handling the waste from 25 years operation of the 12 Swedish reactors amounts to 48.6 billion SEK (in the reference scenario). 14.5 billion SEK has already been used for building and operating the existing plants (end 2001). The following systems are operational as of today: A transport system for radioactive waste; Central interim storage facility for spent fuels (CLAB); Final repository for low and intermediate level radioactive waste (SFR1). The following systems are planned: Encapsulation plant for spent fuels, Geologic repository for spent fuels, Repository for long-lived low and medium active wastes, repository for demolition wastes.

  10. Energy Efficiency and Conservation for Households - an Internet Site; Energispartips och energitester foer hushaall - en Internet hemsida

    Energy Technology Data Exchange (ETDEWEB)

    2009-07-01

    This Internet site gives advice for energy conservation in households e.g. on space heating, lighting et cetera. You can also find energy tests of electric appliances, energy impacts of life styles, contact information for your local energy advisor and other information

  11. Site selection - location of the repository for spent nuclear fuel; Platsval - lokalisering av slutfoervaret foer anvaent kaernbraensle

    Energy Technology Data Exchange (ETDEWEB)

    2010-12-15

    This document describes the localization work and SKB's choice of site for the repository. Furthermore, SKB's basis and rationale for the decisions taken during the work are reported. The document is Appendix PV of applications under the Nuclear Activities Act and the Environmental Code to both build and operate an encapsulation plant adjacent to the central interim storage facility for spent nuclear fuel in Oskarshamn, and to construct and operate a disposal facility for spent nuclear fuel at Forsmark in Oesthammar municipality

  12. Akzo Nobel Science Award: Svensk upptaeckt botar framtidens cancer

    CERN Multimedia

    2003-01-01

    'Akzo Nobel Science Award: Svensk upptaeckt botar framtidens cancerStockholm, 27 februari, 2003. Aarets Akzo Nobel Science Award Sweden paa 500 000 kronor gaar till professorn i medicinsk straalningsfysik Anders Brahme. Han prisas foer "sin unika forskargaerning inom straalbehandlingsysiken samt kombinationen av grundforskning, tillaempad forskning och interaktion med industrin"' (1 page).

  13. Den ubehjælpsomme skrift

    DEFF Research Database (Denmark)

    Thomsen, Mads Rosendahl

    2006-01-01

    Artiklen laver en typologi over forskellige forfatteres anvendelse af ukorrekt sprog i deres skønlitterære værker. Artiklen tager udgangspunkt i to yngre forfattere, Aleksandar Hemon og Jonathan Safran Foer, og inddrager blandt andre Mark Twain og Don DeLillo. Udgivelsesdato: Forår...

  14. 60 kvinnor per dag undersoeks nu med vaerldsunikt digitalt mammografisystem fraan Sectra

    CERN Document Server

    2003-01-01

    "Helsingborgs kvinnor faar kraftigt saenkt straaldos fraan mammografi60 kvinnor per dag undersoeks nu med vaerldsunikt digitalt mammografisystem fraan SectraSectras digitala mammografisystem, Sectra MicroDose Mammography, har nu passerat 1.500 undersoekta kvinnor inom Helsingborgs Lasaretts screeningprogram foer mammografi" (1 page).

  15. The potential of utilizing wood ash and peat ash on organic soils in Sweden; Arealer foer skogsgoedsling med traeaska och torvaska paa organogena jordar i Sverige

    Energy Technology Data Exchange (ETDEWEB)

    Haanell, Bjoern [Swedish Univ. of Agricultural Sciences, Umeaa (Sweden). Dept. of Silviculture

    2004-01-01

    Nutrients removed from the forest when branches and treetops are harvested as fuel can be returned to the site by recycling the remaining wood ash after combustion. This compensation measure is presently not carried out to any appreciable extent, partly because there is no economic incentive for the landowner. In sites where this measure has been applied, only on mineral soils (e.g. moraine) until now, greater margins for sustainable maintenance of the long-term site productivity can be expected. The ash contains all elements required for tree growth except for nitrogen (N). Therefore the ash amendment does not result in increased stand growth on these soils because the most important element for a growth response (N) is missing. In contrast, on organic soils N is often abundant whereas the amounts of other mineral nutrients are small. Thus, the elements lacking in the soils of peatland forests are available in the ash. This is especially true for phosphorus (P) and potassium (K). This means that peatland forests provide an opportunity for ash amendment in order to increase forest production. Old fertilization trials using wood ash show that the growth increase can be very large. The aim of this study was to (i) calculate the area of peat covered land that with respect to stand growth responses could be regarded as most suitable for bio-ash (wood ash and peat ash) fertilization, and (ii) assess the amount of bio-ash needed for fertilizing this area. Peat ash, although not as much studied, also has potential to be used to provide nutrients for increasing peatland forest growth. Most of the area calculations were based on data from the National Forest Inventory (NFI) 1997-2001. Sites were selected with guidance from existing knowledge about ash fertilization effects on tree growth and with the aid of registrations made in NFI regarding peat depth, site productivity, drainage, condition of drains, dominating field vegetation, and degree of stand development. Additional calculations were made concerning the area of abandoned peat fields ready for after-use by afforestation. The main part of the site selection was made in five steps. First, the non-productive sites (which produce less than 1 m{sup 3}/ha/yr) were rejected. Also sites with peat cover shallower than 30 cm were excluded. In the next step it was decided to restrict the ash fertilization to areas with drains in good condition, and to sites where the field vegetation was dominated by 'better shrubs' (Vaccinium myrtillus, V. vitis idaea, Equisetum silvaticum, and tall sedges) or 'low sedge' (Eriophorum vaginatum, Scirpus caespitosus, and other low Cyperaceae plants). Finally, open areas, seedling stands, and young forests were rejected in favour of un-thinned and thinned mid-rotation, and mature and old stands. According to these selection criteria the most suitable sites for ash fertilization are drained, productive peatlands characterized by thinning stands or older stands where the field vegetation is dominated by better shrubs or low sedge plants. The selection comprises 190,000 ha. Most of these areas are located in North Sweden (90,000 ha), whereas Central and South Sweden accounted for 30,000 ha and 70,000 ha, respectively. In addition to this, 2,000-3,000 ha of abandoned peat fields ready for afforestation should be added within a period of about 5 years. The requirement for phosphorus when peatland forests are fertilized is 40-50 kg/ha. From this, and from studies on the variation of phosphorus content and bulk density of wood ash of various origins, it can be calculated that a proper ash fertilization dose would be 3-5 t/ha. The nutrient content in the ash may however often prove lower than in the reported studies, in which case larger doses than 5 t/ha would be required. The present annual production of bio-ash in Sweden is about 250,000-300,000 tonnes. If it were desired to amend all sites (190,000 ha) identified in this study by using 5 tonnes per ha, it would use up 3-4 years of annual production of bio-ash.

  16. Air quality and residential wood combustion - application of the model system SIMAIRrwc for some Swedish municipalities; Luftkvalitet och smaaskalig biobraensleeldning. Tillaempningar av SIMAIRved foer naagra kommuner

    Energy Technology Data Exchange (ETDEWEB)

    Omstedt, Gunnar; Andersson, Stefan; Johansson, Christer; Loefgren, Bengt-Erik

    2008-11-15

    SIMAIRrwc is a Web based evaluation tool for meeting the EU directive on air pollution limits in residential areas using wood combustion. The background is a four-year research program (2001-2004) called Biomass Combustion Health and Environment. Some conclusions from this program were that emissions from small scale wood combustion can influence human health mainly due to high emitting old wood stoves during cold weather conditions and that the air quality in such areas can improve significantly if old wood stoves were replaced by modern wood boilers attached to a storage tank or with a pellet boiler. SIMAIRrwc is based on the same principles as SIMAIRroad, which is a Web based evaluation tool for road traffic i.e. coupled model system using different models on local, urban and regional geographical scales, best available emission data, but at the same time presented in a very simplified way. In this project SIMAIRrwc has been applied in five different Swedish municipalities. The aim has been to apply and improve the model in cooperation with the municipalities. The conclusions from the project are: Small scale wood combustions in residential areas are local problems which sometimes include only a few houses and/or wood-burners. Air quality problems related to the EU directive are mainly due to particles. Combinations of residential areas with wood combustion and emissions from nearby dense traffic roads might give rise to bad air quality. Actions require knowledge about individual equipment which needs information from the local chimney sweeps. The best way to identify problem areas is to use model calculations. If model calculations indicate risks of exceeding air quality limits, then new calculations should be made with improved input data taking into account for example information of district heating or other installations that can effect the emissions. Before actions are taken it may also be useful to make measurements. The measurement site can then be selected in the area where the model calculations show the largest impact. SIMAIRrwc is a powerful tool that can be used for identification and visualisation of areas where there might be air quality problems due to residential wood combustion

  17. The use of indentor testing in determining the creep properties locally - a review; Nyttjande av indentorteknik foer bestaemning av krypegenskaper lokalt - litteraturstudie

    Energy Technology Data Exchange (ETDEWEB)

    Andersson, Peder [Det Norske Veritas AB, Stockholm (Sweden)

    2000-07-01

    A review has been performed with the purpose of examining what has been published regarding the creep indentation technique. In the reference list a selected choice of published papers is presented. Furthermore, the use of the technique is explained, a presentation is made of the parameters that are possible to determine and, finally, the limitations of the technique are discussed. In the investigated publications, the theoretical aspects of the indentation technique are discussed, as well as the possibilities of applying the technique in practice. From the published material, it is obvious that creep indentation testing is a technique suitable when the creep deformation properties of a material are to be determined. It seems though, that the technique so far mostly has been used in academically designed experiments and not in a larger industrial scale. The creep indentation testing technique seems to be a good complement to conventional uniaxial creep testing in determining the creep deformation properties of a material. Especially in testing of the creep deformation properties of weldments and parts of weldments, such as HAZ, the indentation testing technique can prove to be advantageous, as only a small amount of material is needed. In the line of business of plants operating in the high temperature range, where materials experience creep, there should be an interest in seeing a development of a testing standard for the creep indentation technique. This could be performed by doing a more comprehensive analysis of a selected choice of published papers, putting together their differences and similarities after which verifying experiments are pursued. In the end, it should be possible to come up with a draft standard for creep indentation testing.

  18. Characterization of solid heterogeneous waste fuel - the effect of sampling and preparation method; Karaktaerisering av fasta inhomogena avfallsbraenslen - inverkan av metoder foer provtagning och provberedning

    Energy Technology Data Exchange (ETDEWEB)

    Wikstroem-Blomqvist, Evalena; Franke, Jolanta; Johansson, Ingvar

    2007-12-15

    The aim of the project is to evaluate the possibilities to simplify the methods used during sampling and laboratory preparation of heterogeneous waste materials. Existing methods for solid fuel material is summarized and evaluated in the project. As a result of the project two new simplified methods, one for field sampling and one for laboratory preparation work has been suggested. One large challenge regarding waste sampling is to achieve a representative sample due to the considerable heterogeneity of the material. How do you perform a sampling campaign that will give rise to representative results without too large costs? The single largest important source of error is the sampling procedure, equivalent to about 80% of the total error. Meanwhile the sample reduction and laboratory work only represents 15 % and 5 % respectively. Thus, to minimize the total error it is very important that the sampling is well planned in a testing program. In the end a very small analytical sample (1 gram) should reflected a large heterogeneous sample population of 1000 of tons. In this project two sampling campaigns, the fall of 2006 and early winter 2007, were conducted at the waste power plant Renova in Gothenburg, Sweden. The first campaign consisted of three different sample sizes with different number of sub-samples. One reference sample (50 tons and 48 sub-samples), two samples consisting of 16 tons and 8 sub-samples and finally two 4 tons consisting of 2 sub-samples each. During the second sampling campaign, four additional 4 ton samples were taken to repeat and thus evaluate the simplified sampling method. This project concludes that the simplified sampling methods only consisting of two sub-samples and a total sample volume of 4 tons give rise to results with as good quality and precision is the more complicated methods tested. Moreover the results from the two sampling campaigns generated equivalent results. The preparation methods used in the laboratory can as well be simplified, especially by effective sample and particle size reduction through gradually grinding processes. Consequently, the plant owner can reduced their cost for each sampling campaign by using the simplified methods described in this project. A finding that either can be used to lower the cost for waste sampling or to increase the number of samples and sampling frequency which will increase the plant owners knowledge about the waste composition, properties and qualities. Increased quality and an even quality of the waste mixture has an large impact on the life cycle cost of the plant since it's affect the accessibility as well as the cost of maintenance.

  19. SKB's program for societal research 2004-2011. An evaluation; SKB:s program foer samhaellsforskning 2004-2011. En utvaerdering

    Energy Technology Data Exchange (ETDEWEB)

    Soederberg, Olof [Energi- och miljoestrategi O. Soederberg, Solna (Sweden)

    2012-04-15

    This evaluation of the program of societal research that SKB conducted the years 2004-2011 has been performed on behalf of Swedish Nuclear Fuel and Waste Management Company (SKB). The review has focused on answers to a series of questions as follows: General questions - Why was a program started? - What was SKB's purpose with the program? - Does the result mean that the objective has been achieved? - Has the program had effects (positive or negative) that were not anticipated when the purpose was formulated? - Strengths and weaknesses of the program? Questions about the implementation - How did announcement and selection procedures work? - Which forms were used for reporting results from the research projects? Questions about the continued investment in societal research - Are there such needs? - In that case, is it in SKB's interest to contribute financially to such research? - What forms might be appropriate if SKB sees interest to contribute financially to such research?.

  20. Pre-treatment of waste fuel with low-speed shredding and screening for fluidized bed incineration; Foerbehandling av avfallsbraensle foer fluidbaeddpannor med laangsamtgaaende valskross och saekerhetssiktning

    Energy Technology Data Exchange (ETDEWEB)

    Hermansson, Sven; Victoren, Anders; Niklasson, Fredrik; Jones, Frida

    2013-09-01

    In FB combustion of waste, an important cost factor is the pre-treatment of the waste fuel. The most common method of final levigation of the waste fuel is using hammer mills, which crushes the fuel with high force and high rotational speed. The advantage of the powerful hammer mill is, however, also a disadvantage. The fraction of fines becomes large, and the method is experienced to cause high maintenance costs and problems with accidental fires. A plausible alternative to the hammer mill is the shredder. The rotational speed of the shreeder is lower, while it cutting and slicing the waste fuel instead of grinding it. The shredder is, therefore, expected to yield less wear and tear, lower electricity consumption and less accidental fires. On the other hand, the shreeder may yield a higher fraction of oversized fuel particles, which could cause problems in the combustion, especially in smaller FB-plants with one single fuel supply conveyor. In this project, the framing of question has been if low-speed shredding in combination with screening of over sizes fuel particles, may function for smaller FB plants with one single fuel supplying conveyor. The aim of the project has been to support FB plant owners and manufacturers for independent comparision of the different fuel pre-treatment methods, via pre-treatment and combustions trials and economical comparisons. The concept of lowspeed shreddning and screening has been compared economically with a traditional hammer mill system and a shredding system designed for a larger FB plant. Moreover, combustion trials have been carried out with shredded and screened fuel, and hammer milled fuel, in two smaller parallel FB furnaces with one single fuel supplying conveyor per furnace. The fuels were analysed for particle size distribution and composition, and the operation during the combustion trial was evaluated. The economical evaluation of the new pre-treatment concept, with lowspeed shredding and screening, yielded an approximate cost of 104-118 SEK/tonne (12-14 /tonne) treated waste, which is the same as for the larger FB plant shredder system. The cost for the hammer mill system was determined to 155-185 SEK/tonne (18-22 /tonne) treated waste. The higher cost for the hammer mill system rely on the estimated higher maintenance and electricity consumption costs. The analysis of the particle size distribution of the fuel treated with lowspeed shredding and screening shows that the fuel satisfy the demands stipu-lated for combustion in smaller FB furnaces. Furthermore, the combustion trials show no obvious differences in operation quality, compared to the normal hammer milled fuel; no significant differences in level or stability in power, bed temperature or emission levels could be found. Nor was the frequency of spikes of CO of NO{sub x} increased, nor the frequency of violation of the stipulated 24-hrs, halv-hour, or ten-minute stipulated emission limits increased. In summary, the study gives initial support for the thesis that shedding and screening is just as feasible for fuel pre-treatment in smaller FB furnaces with one single fuel supply conveyor as traditional hammer milling systems. Furthermore, it is cheaper. Lowspeed shreddning should, therefore, be concidered as pre-treatment method for both larger as well as smaller FB incineration plants. Beyond the parameters that have been investigated within the scope of this project, availability and safety are important factors that speek for lowspeed shedders. However, these are questions that have to be further investigated.

  1. Strategies for reducing the emission of carbon dioxide. A study of some Annex 1 countries; Strategier foer att minska koldioxidutslaeppen. En studie av naagra Annex 1 laender

    Energy Technology Data Exchange (ETDEWEB)

    Stenkvist, M.; Olofsdotter, A.

    2000-07-01

    This report gives an overview of the development of carbon dioxide emissions and the energy systems in a number of countries. The analysis also includes the strategies chosen by the countries to reduce the emissions.

  2. Principles for efficient damping of electro-mechanical oscillations in power networks; Principer foer effektiv daempning av systemvida pendlingar i elkraftnaet

    Energy Technology Data Exchange (ETDEWEB)

    Svensson, Lars

    2000-07-01

    This master-thesis report deals with the problem of power oscillations in power networks. The purpose of the work has been to study electro-mechanical oscillations in power systems and in a methodical way analyze the system to identify interesting properties. To increase the damping of especially the inter-area modes, the use of Power System Stabilizers has been investigated. In the control with PSS, local signals such as active power and angular velocity of the generator have first been used as measuring signals. The benefits of using global measuring signals have then been examined. The global signals examined are the derivative of the bus voltage phase angle and also the generators active power. An approach to study the zeros in a control loop is presented and gives, with the use of global measuring signals, a way of choosing a measuring signal to the PSS that affects the control in a beneficial way. A model of the Brazilian south/southeast power system has been used as a test system in the report. To analyze the system, modal analysis has been used and simulations have been performed in EUROSTAG for evaluation of control designs. In use of global signals, communication of signals is needed and therefore the effects of disturbances in this communication need to be considered. The effect of delays in the different signals has been studied and also the scenario of total loss of communication.

  3. Dust separation at high temperatures a method for cleaning fly ashes? Final report; Stoftavskiljning vid hoeg temperatur en metod foer rening av flygaska? Slutrapport

    Energy Technology Data Exchange (ETDEWEB)

    Zintl, Frank [TPS Termiska Processer AB, Nykoeping (Sweden)

    2002-12-01

    An experimental study of separation of fly ashes by a filter at high temperatures, 300-650 deg C, with the purpose to study: Capture of heavy metals (Cd, Hg, Pb, Zn) in the fly ash; Relation between heavy metal capture and temperature; Relation between heavy metal capture and the availability of fuel chlorine. Pelletized forestry waste fuel was doped with heavy metals in two different forms. Pelletized Salix was also used, without doping. The study shows that: There is a strong inverse relation between the capture of heavy metals and the filter temperature; There is a strong relation between the availability of chlorine and the capture of heavy metals. Separation at 300-650 deg C gives much less heavy metals in the fly ash, however the ash is not clean enough to allow disposal in ordinary landfills. Thus, high temperature filtering does not seem to be a promising solution for producing 'clean' fly ash.

  4. Status for cast stainless steel in older Swedish nuclear power plants, March 1996; Status foer gjutet rostfritt staal i aeldre svenska kaernkraftverk, mars 1996

    Energy Technology Data Exchange (ETDEWEB)

    Trolle, M.

    1996-04-01

    The purpose of this study is to compile what is known about larger cast components primarly in older BWR nuclear power plants with external circulation pumps. The work includes metallurgical data and a compilation on the material that the owner of Oskarshamn 1, OKG AB, has delivered to The Swedish Nuclear Power Inspectorate as a result of the investigation of these components. An overview of the investigations performed on the other Swedish plants of similar design during the annual outage 1995 is also described in this report. International experinece is also reported. The results from OKG AB show that there has been extensive cracking in both valves and pump casings and that they are probably resulting defects from the manufacturing process, but an environmental factor cannot be excluded. In order to get a complete picture of the situation in Swedish nuclear power plants a more extensive survey needs to be performed. Internationally the phenomenon of hot cracking in cast stainless steel is well known, but not as severe as in Oskarshamn 1. One question however that is discussed is the recommended amount of ferrite in these steels in order to avoid hot cracking without risking embrittlement of the ferrite phase. The Swedish utilities specify 3%, some European countries recommend 8%. Japan suggests ferrite contents up to 30%. 25 refs.

  5. Reduced Bed Temperature in FB-Boilers Burning Waste - part II; Saenkt baeddtemperatur i FB-pannor foer avfallsfoerbraenning - etapp 2

    Energy Technology Data Exchange (ETDEWEB)

    Niklasson, Fredrik; Pettersson, Anita; Claesson, Frida; Johansson, Andreas; Gunnarsson, Anders; Gyllenhammar, Marianne; Victoren, Anders; Gustafsson, Goeran

    2010-07-01

    This project focuses on evaluating whether lowered bed temperature in FB-boilers for waste combustion gives operational benefits, such as reduced fouling in the convection pass. If so, this mode of operation could reduce the number of unplanned boiler outages, reduce the need for soot blowing, and extend the lifetime of the superheaters at unaltered steam temperature. The project is based on full-scale experiments performed at Ryaverket in Boraas. The plant has two waste-fired 20 MW{sub t} FB-boilers. The study is based on a comparison between operational data and measurement results from two different operating conditions of the boilers. In addition to the data that normally are logged by the control system, samples of fuel, ashes, particles, and deposits were taken and subsequently analyzed. The structure of the bed ash was altered by lowering the bed temperature. Under normal boiler operation, the bed ash contains many small agglomerates that disappeared when the bed temperature was lowered. Due to this, the sand consumption of the plant could be reduced by roughly 25 %. At lowered bed temperature, the concentration of chlorine increased in the bed ash and in the recycled sand while it decreased in the ashes from the cyclone and fabric filter. The concentration of HCl in the flue gas increased as the bed temperature was lowered. This is considered a consequence of less chlorine forming alkali chlorides. Moreover, the particle measurements showed that the amount of submicron particles decreased during lowered bed temperature, which also is an indication of less alkali chlorides in the flue gas. The deposit probes showed an approximate 20 % reduction of the fouling rate when the bed temperature was lowered from 876 to 714 deg C. The chlorine content also decreased in the deposits. For the deposit probes at 500 deg C, (corresponds to a steam temperature of 465 deg C) significant amounts of KCl were found in the deposits, even when the bed temperature was lowered. An economical estimation of the consequences from lowering the bed temperature showed a saving of ca 1000 kSEK per year for the boilers in Boraas. Please note that this is an uncertain estimate. The results are of interest for plant owners that may improve the operation of existing plants by adjusting the operating point. Furthermore, the results can be used by boiler manufacturers to further improve the design of new facilities

  6. Systems for heat and cold from the ground. Proposal for a development program; System foer vaerme och kyla ur mark - Foerslag till utvecklingsprogram

    Energy Technology Data Exchange (ETDEWEB)

    Rosen, Bengt; Gabrielsson, Anna; Fallsvik, Jan; Nilsson, Gunnel [Swedish Geotechnical Inst., Linkoeping (Sweden); Hellstroem, Goeran [Lund Inst. of Technology (Sweden). Dept. of Mathematical Physics

    2002-02-01

    Ground heat systems usually consist of a heat pump, with an evaporator connected to a heat carrier circuit of heat exchangers in the ground, and a condenser connected to the heat distribution system inside the building (radiators, fan convectors, floor heating etc). The heat pump's compressor is connected to the electricity grid. Similar systems without heat pumps are also used, where the excess heat from the building or process is exchanged with the cooler ground solely by circulation of the heat carrier fluid in the ground heat exchangers, so called 'Tree cooling'. The performance of ground heat systems depends on several factors. There is a continuous development of components and their interaction in heating/cooling systems, both in Sweden and abroad. Based on the current state of the art of ground heat systems and the national energy market it is possible to identify the development potential within many areas. In this report the development potentials for ground heat systems are presented in the following program areas: Combined heating/cooling systems with or without heat pumps and improvements of existing systems. Horizontal, compact and vertical ground heat exchangers, installation methods. Geological prerequisites and geotechnical impact of heating and/or cooling. Thermal capacity of all types of ground heat exchangers including moisture transport effects. Design specifications for different types of ground heat exchangers and ground conditions. Operation and maintenance. Environmental impact, e.g. of heat carrier fluids and local government environmental protection requirements. Economic optimization based on verified technical performance and cost figures.

  7. Assessment of two techniques for drying of easily degradable organic bio-waste; Bedoemning av tvaa tekniker foer torkning av laett nedbrytbart organiskt matavfall

    Energy Technology Data Exchange (ETDEWEB)

    Raaholt, Birgitta; Bergstroem, Birgitta; Broberg, Agneta; Holtz, Emma; Nordberg, Ulf; Del Pilar Castillo, Maria; Baky, Andras

    2011-10-15

    In 2010, all food waste from the Swedish food industry would, according to national environmental goals, be recycled through biological treatment. For food waste from households and food establishments, the corresponding goal is at least 35%. The project aims to explore the potential for reducing costs and energy consumption, as well as decreasing the environmental impact, by decreasing the moisture content of food waste. Dried food waste has a long shelf-life and can be used as a bio fuel substrate together with other material of low dry matter content. It is expected to increase the bio fuel potential by improved possibilities to control the organic load. The storage costs are also reduced, as is the collecting frequency. Additionally, collecting can be done from a larger number of collecting points at the same occasion. Furthermore, the collection vehicle does not need to be equipped with collecting trays for silage effluent from the food waste. Since dried food waste can be stored for a longer period, this results in more optimal use of the energy of the food waste. The dried material requires neither decomposition nor sieving, has a very high purity degree (>99%), and does not result in reject material at treatment. The nutritional content of the dried material was also in principle intact. Composting of food waste from households was performed as a practical reference, in laboratory scale. The results show that rehydrated dried food waste works as good as a conventional compost fraction. However, the material has a tendency to dry out faster than conventional compost. Further rehydration may therefore be needed during the process. In this project, an assessment was made of two possible techniques for drying readily biodegradable organic waste: microwave vacuum drying of waste from food establishments and air-drying of food waste from households. The techniques were compared individually with current systems for handling waste, with respect to quality of the incoming material to treatment plants, energy consumption, cost, and climate impact. The quality of the dried material was evaluated with respect to purity degree, shelf-life stability, nutritional content, bio fuel potential and rehydration properties. In the system analysis, each drying technology, combined with a supposed subsequent digestion process, was compared to today's system for collection and digestion of food waste. An initial assessment of the potential of the microwave-vacuum drying process was made, as an alternative technique for hygienisation of food waste which contains animal by-products (ABP). The results indicate that the microwave process would be possible to adjust, in order to meet the time-temperature requirements for hygienisation. However, complementing studies are required to optimise and control the process towards the required microbiological reduction. Dried material has, as expected, advantages from both an odour and storage point of view; the lower water content corresponds to lower water activity and accordingly longer shelf-life and reduced risk for e.g. mould growth and odour. Even if energy is needed for drying the material, there are environmental advantages at collection of food waste (at transport distances less than about 50 km). Digestion experiments showed that dried food waste from households in Goeteborg did not result in any significant differences in methane exchange, with regard to organic matter (VS), expressed as m{sup 3}CH{sub 4}/tonne VS, compared with fresh food waste. Dried waste from food establishments in Boraas showed significantly lower methane exchange, with respect to organic matter (VS), than fresh food waste. The reasons for this need to be further investigated. A project delimitation was that the techniques were evaluated based upon food waste which was collected during a relatively short period of time. The target group of the project is the Swedish food industry, personnel responsible for waste collection, as well as owners of plants for biological treatment of food waste. The results of th

  8. SCR at bio fuels combustion - phase 2. Measures to extend catalyst life time; SCR vid biobraensleeldning - etapp 2. Aatgaerder foer att foerlaenga katalysatorns livslaengd

    Energy Technology Data Exchange (ETDEWEB)

    Andersson, Christer; Bodin, Henrik; Sahlqvist, Aasa [Vattenfall Utveckling AB, Aelvkarleby (Sweden); Khodayari, Raziyeh; Odenbrand, Ingemar [Lund Univ. (Sweden). Dept. of Chemical Engineering II

    2000-07-01

    In this project phase, the deactivation of catalysts during combustion of bio fuels, and different methods of regeneration have been investigated. The overall purpose is to improve the economic and technical possibilities to use SCR at bio fuels combustion. The two different methods for regeneration are washing with water and so called sulphation (treatment with sulphur dioxide). The results from wood fired FB-boilers show that the catalyst lose 25% (average) of the relative activity during a normal heat production season. The tendency is that a boiler with short residence time between final combustion and catalyst and/or high flame temperatures gives a faster deactivation. Such unfavourable conditions arise in FB-boilers with a large part of the combustion in freeboard/cyclone. The alkali content of the fuel (wood fuel) is of minor importance for the deactivation rate compared with the combustion conditions. The flue gas temperature within the interval 250 - 375 deg C is not an important parameter for the deactivation in the time interval 3 000 - 6 000 h. The 'new' honeycomb catalysts that were tested during phase two, BiotypA-C, evidently show different deactivation trends. The highly active BiotypC e.g. increases its activity during the first thousand hours. Calculations indicate that BiotypC at 315 deg C requires the smallest volume of catalyst over ten years of operation in order to maintain given performance. Practical consequences for downstream equipment also need to be carefully checked. Sulphation with SO{sub 2} works in the laboratory as a regeneration method for all of the tested samples. The sulphatised samples deactivation are almost comparable to a fresh sample when exposed to flue gas. About 80 % of the lost activity can be regained only by using sulphation. Plate-type catalysts gets a somewhat lower increase in activity compared to honeycomb-types, probably related to chemical rather than geometric design. High SO{sub 2}-concentration gives a quicker sulphation, but not a greater increase in activity after long time. The recommendation is to sulphatise with 500 ppm SO{sub 2} during at least 16 hours at high flue gas temperature. Since ammonium salts may give problems on downstream equipment (e.g. air preheaters) it is recommended that the ammonia dosage is closed during the sulphation. A simple model is presented for calculation of optimal procedure according to local conditions. The experiments with water washing show that the main part (65 - 80 %) of the potassium on the catalyst is washed out during 45 minutes in water. Also sulphur is washed out and must be replaced by sulphation. Some vanadium is lost (depending on type of catalyst) by washing in sulphuric acid, but not to a significant extent in water. The combination of water washing and sulphation gives about 75 - 120 % activity relative fresh samples depending on type of catalyst. Water washing combined with sulphation gives approximately 6 % higher activity at 300 deg C compared to sulphation alone, approximately 10% higher at 375 deg C (honeycomb {approx} 60% k/k{sub 0}). The advantage of washing increase by increased potassium content in the catalyst.

  9. Preservation of information about the repository for spent nuclear fuels - proposal for action plan; Bevarande av information om slutfoervar foer anvaent kaernbraensle - foerslag till handlingsplan

    Energy Technology Data Exchange (ETDEWEB)

    Bowen-Schrire, Monica; Eckerhall, Daniel; Jander, Hans; Waniewska, Katarina (Vattenfall Power Consultant AB, Stockholm (Sweden))

    2008-10-15

    This report is a proposal for an action plan with the ultimate aim of ensuring that information about the repository for spent nuclear fuel can be preserved and transferred for future generations. The purpose of the proposal for an action plan is to present ideas on tangible measures and guidelines for information preservation and transfer, in the short and long term. The report deals with a number of aspects relating to information preservation as well as risks that can lead to the loss of important information. The proposal for an action plan is based on reasoning about these subjects. The main emphasis is on measures that need to be implemented in the near future to ensure that successive and direct information transfer is handled in a suitable manner. It is suggested that the following measures should be implemented within a five-year period: - Designate a person responsible for information preservation. - Work out guidelines for information preservation and transfer. - Form a network with other organizations in Sweden. - Initiate a dialogue with other countries, especially USA and France. - Participate in seminars, conferences and workgroups on an international level within the IAEA and NEA. In a longer time perspective the following measures should also be implemented: - Implement guidelines for information preservation and transfer. - Document the archiving system. - Establish a communication plan. - Archive information about the repository. - Keep the action plan up to date

  10. Better and more efficient collaboration for increased use of field fuel in heating plants; Baettre och effektivare samverkan foer oekad anvaendning av aakerbraenslen i vaermeverken

    Energy Technology Data Exchange (ETDEWEB)

    Arkeloev, Olof (Agrovaest, Skara (Sweden)); Hellstroem, Chris; Hollsten, Ronnie (KanEnergi Sweden AB, Skara (Sweden)); Lindh, Carina (LRF Konsult, Skara (Sweden))

    2010-05-15

    Despite that the potential for field fuels in SW Sweden is great and that the combustion characteristics of fuels are known, the interest for field fuels has been low from farmers and heating plants. The purpose of the project is to identify why the introduction of field fuel into heating plants is going so slow and to suggest possible solutions. Field fuel is missing the general structure and tradition that is found in forest fuels in terms of harvesting, processing, logistics and business models. The overall long-term objective is a better and more effective cooperation between heating plants, farmers and logistic companies for the increased use of field fuels in heating plants. The potential for field fuel in the area is great but won't be sufficient to cover the need. The raw materials that exist today and are deemed will be relevant in the future are willow, straw and grain kernel. We have divided the heating plants into two groups; Small plants with a furnace less than 35 MW, and large plants with an effect over 35 MW. Common to both small and large heating plants is that there must be a willingness to receive and combust field fuels for the share of field fuels to increase. For the small heating plants to be able to receive and combust field fuels the knowledge of the combustion properties of these fuels must increase. Larger heating plants have better opportunities to use field fuels in their boilers when it comes to the technology and the know how. They have a more controlled handling and receiving of fuels. It is not uncommon that storing and blending of fuels will take place at their own facility. They also have more experience of handling a larger number of suppliers at the same time. The heating plants would like to see standardization in terms of fuel characteristics, and they prefer to obtain approximately the same burning performance regardless of delivery date. Today, the small heating plants do not have the routines to manage multiple small fuel suppliers. To increase the amount of field fuels in the small heating plants the farmers need to collaborate in small supplier groups and deliver a pre-mixed fuel with consistent quality. For this to work the heating plants need to find an effective method of quality assurance at the reception of the fuel and the supplier group needs to develop an internal quality assurance and billing system. The larger heating plants, over 35 MW, large fuel requirement means that the fuel shipments should be coordinated to minimize storage time and disruption of traffic to and from the facility. With a functioning transport system, where several farmers join forces to increase the delivery volume, and ensure the quality, the ability to be a reliable fuel supplier is increased. For a local market of field fuels to arise it requires that the local heating plant initiate by demanding different types of field fuel. Increased use of field fuels is also stimulated by greater integration in the value chain in order to obtain a more optimal allocation of value creation and to meet the demands of volume, quality and security of supply, which is required. The studies and analysis show that the development would be facilitated if: - Farmers integrate horizontally to bring up the volumes and better supply security. This also creates better conditions for rational harvesting and handling of fuels (chipping, storage, drying, mixing, etc.) through for example small fuel terminals and the control and management of the quality of the fuel. - Farmers integrate vertically by operating and/or owning small heating plants (up to a couple of MW) specially adapted for field fuels. - Horizontal integration or interaction between heating plants can be used for fuel purchase and coordination, where field fuels can be mixed with other fuels on the basis of individual requirements and possibilities. - Heating plants are working together on fuel supply, quality, technology and business models. - Heating plants and farmers can work jointly with logistics and quality issues

  11. Harvest and logistics for better profitability from small cultivations of Short Rotation Willow Coppice; Skoerdeteknik och logistik foer baettre loensamhet fraan smaa odlingar av Salix

    Energy Technology Data Exchange (ETDEWEB)

    Baky, Andras; Forsberg, Maya; Rosenqvist, Haakan; Jonsson, Nils; Sundberg, Martin

    2010-06-15

    In Sweden, the political desire to increase the amount of short rotation willow coppice (Salix) plantations has been expressed. However, for various reasons interest from farmers has been low. The hypothesis of this study is that the total area of Salix cultivation can be increased by also cultivating fields smaller than those generally considered economic today. In order to lower production costs, machine systems adapted for harvest of smaller fields are required. The possibility of using farmers' existing tractors and more convenient machines, as well as achieving lower machine costs for smaller fields, may increase farmers' interest. The long-term objective is to achieve large-scale deliveries of willow with small-scale solutions at farm level, as an option and complement to today's more large-scale systems for harvesting willow. Costs, energy use and climatic impact (CO{sub 2} emissions) for two harvest and logistical chains suitable for small fields have been calculated from field to energy plant, and methods for minimizing these costs have been analyzed. Comparison is made with the direct chipping system, the most commonly used in Sweden today. The systems studied comprised: 1. Direct bundling harvest system with a tractor-towed harvester, collection of bundles in the field with a trailer-mounted crane, and storage in a pile before delivery. Chipping is performed at the energy plant. 2. Direct billeting with a tractor-towed harvester accompanied simultaneously by a tractor and trailer for collection, and storage in a pile before delivery. 3. Direct chipping with a self-propelled modified forage harvester accompanied simultaneously by a tractor and container for collection, and direct delivery to plant. Both the billet and bundle systems show higher costs than the direct chipping system, irrespective of field size. The analysis of different scenarios and conditions shows possibilities of lowering the costs through certain measures. Furthermore, the billets and bundles can be stored for longer periods at field's edge, unlike chips, which facilitates increased security of supply according to the needs of energy plants. This can motivate a higher payment from the plant. The drying process taking place during storage, delivers a dryer fuel, which may give added value for some customers. Hence, the choice of machine system seems to be more dependent on whether the product needs to be stored or not, rather than on field size. In addition, there are other possible advantages with the two systems that should be taken into account when comparing with the currently-used direct chipping system, such as the possibility of increased rural employment or characteristics that suit smaller fields better. An example of the latter is the fact that harvest and delivery does not need to take place at the same time, i.e. extra costs for disruptions in harvest or delivery are avoided. The most important measure for reducing total system costs for the studied billet system is to increase the harvesters' capacity. For the studied bundle system costs for field- and road transport need to be reduced. These costs can be reduced by using a more efficient system for collection of bundles in the field and by utilizing a lorry's load capacity better during transport to the plant. One way of increasing utilisation of the load capacity is to increase the density of the bundles. However this requires a new or modified construction of the harvesting machine and more knowledge of how the drying process of the bundles is affected by this

  12. Program description for the program Fuel program supply July 1, 2011 up to June 30, 2015; Programbeskrivning foer programmet Braensleprogrammet tillfoersel 1 juli 2011 till 30 juni 2015

    Energy Technology Data Exchange (ETDEWEB)

    2011-04-15

    The Fuel program supply is included as one of three programs in a cohesive commitment to increased, sustainable and efficient production and use of indigenous and renewable fuels that are implemented by the Swedish Energy Agency from July 1, 2011 to June 30, 2015. The program focuses on growing, maintenance and harvesting of biomass from forestry and agriculture. The program consists of three areas: - The sub-area Efficient forest fuel system consists of efforts to reduce costs, improve quality and increase the supply of forest fuels. - The sub-area Energy crops from agriculture consists of investments in issues related to tillage, construction, maintenance, harvesting and logistics for energy crops, and by an ongoing project on more efficient plant breeding of willow for new markets. - The sub-area Silviculture for increased biofuel production includes both forestry measures and new forms of cultivation of fast growing tree species for energy purposes. It does not address environmental issues, processing of fuels, fuel quality or processes in which fuel is converted to heat, electricity or fuel. Questions about conversion and processing as well as sustainability, environment and resource use are treated in the two parallel running programs, the Fuel program conversion and the Fuel program sustainability

  13. Small-scale production of electricity for personal use - Final report for Project Micro Production of Electricity; Smaaskalig elproduktion foer eget bruk - Slutrapport avseende projekt Mikroproduktion av el

    Energy Technology Data Exchange (ETDEWEB)

    Lindahl, Annica; Bengtsson, Martin; Frisk, Jan; Tapper, Matz

    2010-05-15

    In efforts to develop Swedish Energy's vision, 'With electricity, we do everything possible' was found that the micro-generation of electricity, ie. where end users with the help of very small plants produce electricity primarily for their own consumption, is a very strong trend in society. In efforts to develop Swedish Energy's vision, 'With electricity, we do everything possible' was found that the micro-generation of electricity, ie. where end users with the help of very small plants produce electricity primarily for their own consumption, is a very strong trend in society. Underlying factors include: an increased interest in the community for energy, experiences of high prices and a feeling of wanting to do their bit for climate and environmental work. The facilities usually consist of solar panels or small wind turbines. In spring 2009, the Swedish Energy a preliminary study of the field of micro generation of electricity. Some key issues were identified: 1. Measurement of electricity generation for network planning and metrics based on market and market needs of stakeholders will need to be addressed. 2. Various forms of remuneration principles for the client in case electricity during certain periods exceeds customer's power outlet should be identified. 3. There is a need to disseminate information to producers of equipment, facility providers, consumers and authorities about existing regulations and 'best practice'. 4. There is a need to create a standardized procedure in the meeting between the electricity industry and the customers who wish to make their own electricity. 5. There is also a need for review of existing regulations in order to better adapt it to distributed generation and storage of electricity. This is the reporting of the project micro-generation of electricity, but will also be used as input to the Swedish Energy's Energy Market Inspectorate to analyze the pros and cons of introducing a regulation on net billing.

  14. Evaluation of Co-Digestion of Biosludge from Pulp and Paper Mills; Utvaerdering av samroetningspotential foer bioslam fraan massa-/pappersbruk

    Energy Technology Data Exchange (ETDEWEB)

    Berg, Andreas; Karlsson, Anna; Ejlertsson, Joergen; Nilsson, Fredrik

    2011-02-15

    The biogas potentials from 2 biosludges from the pulp- and paper industry and 10 possible co-digestion substrates have been evaluated. 6 combinations, each including two co-digestion substrates and one biosludge, were evaluated in lab scale biogas reactors. Stable biogas processes were obtained with all combinations and the rawgas potential was higher in the co-digestion processes then for the biosludges alone (0.31- 0.43 compared to 0.21- 0.22 NL/g VS) The investment costs for two production plants were calculated. For a plant using 7 ton biosludge TS/d (total solids per day), co-digested with evaporation condensate (3 m3/d) and fibre sludge (3 ton/d) and thereby producing 850 000 Nm3 CH{sub 4}/yr the investment cost was estimated to 43 MSEK excluding ground works. For a larger plant using 20 ton biosludge TS/d, co-digested with food waste (8 ton/d) and cereal residues (12 ton/d) and producing 2 500 000 Nm3 CH{sub 4}/yr, the investment cost was estimated to 51 MSEK excluding ground works

  15. The importance of ash for the favourable properties of sewage sludge in co-firing; Askans betydelse foer roetslams goda samfoerbraenningsegenskaper

    Energy Technology Data Exchange (ETDEWEB)

    Davidsson, K.; Jones, F.; Niklasson, F.; Ryde, D. [SP Sveriges Tekniska Forskningsinstitut, Boraas, (Sweden); Gustafsson, G. [Boraas Energi och Miljoe, Boraas (Sweden); Herstad Svaerd, S. [WSP Kraft and Vaerme, Goeteborg (Sweden)

    2012-11-01

    Sewage sludge has been shown to have positive properties during cofiring with difficult fuels. The sludge mitigates deposition and corrosion which occur because of the fuels content of chlorine and alkali. The reason for the positive properties of sludge are its content of sulphur, phosphorus and aluminium silicates. Its high content of ash has also been discussed because the fly ash would constitute a large surface for alkali chlorides to condensate on and thereby avoid condensation on e.g. superheater surfaces. The ash could also blast the surface and thereby keeping them clean. The present project aims at testing the hypothesis that the ash in the sludge mitigates the deposition. Tests have been performed with synthetically produced waste pellets of which some were doped with inert particles in form of aluminium oxide. The tests were done in a lab-scale bubbling fluidised bed. Deposit probes collected deposits during the combustion of doped and un-doped waste pellets, and the deposits were chemically analysed. The result shows that the inert particles do not have any effect on the amount of hard attached deposits. The particles ended up on the lee side of the probe where they deposited because of gravitation, but they could be easily removed. The remaining deposit was analysed and the effect of inert particles was a small decrease of the content of chlorine. Tests were also performed with pellets doped with sludge. In this case the amount of deposit and its content of chlorine decreased significantly. Different sewage sludges have different properties. The present results show that sludge for cofiring should not be chosen for its amount of ash but rather for its content of sulphur, phosphorous and aluminium.

  16. High temperature corrosion in biomass- and waste fired boilers. A status report; Kunskapslaeget betraeffande hoegtemperaturkorrosion i aangpannor foer biobraensle och avfall

    Energy Technology Data Exchange (ETDEWEB)

    Henderson, P.; Ifwer, K.; Staalenheim, A.; Montgomery, M.; Hoegberg, J.; Hjoernhede, A.

    2006-12-15

    Many biomass- or waste-fired plants have problems with high temperature corrosion on the furnace walls or at the superheaters, especially if the steam temperature is greater than 500 deg C. An increase in the combustion of waste fuels means that an increasing number of boilers have had problems. Therefore, there is great interest from plant owners to reduce the costs associated with high temperature corrosion. At the same time there exists a considerable driving force towards improving the electrical efficiency of a plant by the use of more advanced steam data. The purpose of the work presented here was to answer three main questions: What can be done to reduce high temperature corrosion with current fuel blends and steam temperatures? How can more waste fuels be burnt without an increased risk for corrosion? What needs to be done to reach higher steam temperatures in the future? The level of knowledge of high temperature corrosion in biomass- and waste-fired boilers has been described and summarised. The following measures are recommended to reduce corrosion in existing plant: Make sure that the fuel is well mixed and improve fuel feeding to obtain a more even spread of the fuel over the cross-section of the boiler. Use combustion technology methods to stabilize the oxygen content of the flue gases near the membrane walls and other heat transfer surfaces. Experiment with additives and/or supplementary fuels which contain sulphur in some form, for example peat. Reduce the flue gas temperature at the superheaters. Review soot-blowing procedures or protect heat transfer surfaces from soot blowers. Evaluate coated membrane wall panels in parts of the furnace that experience the worst corrosion. Test more highly alloyed steels suitable for superheaters and when replacing a superheater change to a more highly alloyed steel. For the future, the following should be considered: The role of sulphur needs to be investigated more and other additives should be investigated. Waste products that can reduce fouling and corrosion should be identified. Testing of high-alloyed steels, nickel-base alloys and coatings is needed. Also a better understanding of why some alloys are better than others. New boiler designs with reduced flue gas temperatures near the superheaters. Continue with better mixing of different fuel fractions and improved fuel feeding Improve boiler control to remove the CO peaks. Design superheaters with a larger gap between the loops and use less soot blowing.

  17. Measures for simultaneous minimization of alkali related operating problems, Phase 3. Frame work; Aatgaerder foer samtidig minimering av alkalirelaterade driftproblem, Etapp 3. Ramprogram

    Energy Technology Data Exchange (ETDEWEB)

    Herstad Svaerd, Solvie; Steenari, Britt-Marie; Aamand, Lars-Erik (and others)

    2011-01-15

    The positive effects of co-combustion with digested sewage sludge on bed agglomeration, deposit composition and initial corrosion have been studied at Chalmers 12 MW CFB-boiler. The trials comprised co-combustion of 4 different sludges and the results were compared with addition of phosphate and sulphate in the cyclone inlet. The base fuel was a mixture of 20 % sorted waste pellets and 80 % bark pellets. Corrosion studies were also carried out at the Haendeloe 75 MW CFB boiler firing 50% household waste and 50% industrial waste. Test rings of chromium rich material (304L and Sanicro 28) were exposed for 24 and about 400 hours with and without cocombustion with digested sewage sludge. Two lab studies have also been carried out; the corrosivity of different phosphates and the effect on bed agglomeration when co-firing 'small amounts' of digested sewage sludge

  18. The importance of ash for the favourable properties of sewage sludge in co-firing; Askans betydelse foer roetslams goda samfoerbraenningsegenskaper

    Energy Technology Data Exchange (ETDEWEB)

    Davidsson, K.; Jones, F.; Niklasson, F.; Ryde, D. [SP Sveriges Tekniska Forskningsinstitut, Boraas (Sweden); Gustafsson, G. [Boraas Energi och Miljoe, Boraas (Sweden); Herstad Svaerd, S. [WSP Kraft and Vaerme, Stockholm (Sweden)

    2012-07-01

    Sewage sludge has been shown to have positive properties during cofiring with difficult fuels. The sludge mitigates deposition and corrosion which occur because of the fuels content of chlorine and alkali. The reason for the positive properties of sludge are its content of sulphur, phosphorus and aluminium silicates. Its high content of ash has also been discussed because the fly ash would constitute a large surface for alkali chlorides to condensate on and thereby avoid condensation on e.g. superheater surfaces. The ash could also blast the surface and thereby keeping them clean. The present project aims at testing the hypothesis that the ash in the sludge mitigates the deposition. Tests have been performed with synthetically produced waste pellets of which some were doped with inert particles in form of aluminium oxide. The tests were done in a lab-scale bubbling fluidised bed. Deposit probes collected deposits during the combustion of doped and un-doped waste pellets, and the deposits were chemically analysed. The result shows that the inert particles do not have any effect on the amount of hard attached deposits. The particles ended up on the lee side of the probe where they deposited because of gravitation, but they could be easily removed. The remaining deposit was analysed and the effect of inert particles was a small decrease of the content of chlorine. Tests were also performed with pellets doped with sludge. In this case the amount of deposit and its content of chlorine decreased significantly. Different sewage sludges have different properties. The present results show that sludge for cofiring should not be chosen for its amount of ash but rather for its content of sulphur, phosphorous and aluminium.

  19. Measures for simultaneous minimization of alkali related operating problems, Phase 2; Aatgaerder foer samtidig minimering av alkalirelaterade driftproblem, Etapp 2. Ramprogram

    Energy Technology Data Exchange (ETDEWEB)

    Gyllenhammar, Marianne; Herstad Svaerd, Solvie; Davidsson, Kent; Aamand, Lars-Erik; Steenari, Britt-Marie; Folkeson, Nicklas; Pettersson, Jesper; Svensson, Jan-Erik; Boss, Anna; Johansson, Linda; Kassman, Haakan

    2007-12-15

    Combustion of an increasing amount of biofuel and waste woods has resulted in certain environmental advantages, including decreased emissions of fossil CO{sub 2}, SO{sub 2} and metals. On the other hand, a number of chloride and alkali related operational problems have occurred which are related to combustion of these fuels. Alkali related operational problems have been studied in a project consisting of two parts. The overall scope has been to characterise the operational problems and to study measures to minimise them. The first part was reported in Vaermeforsk report 997. In part two, additional measures have been included in the test plan and initial corrosion has been studied linked to the different measures. The tests have also in part two been carried out at the 12 MW CFB boiler at Chalmers. The effect of the selected measures has been investigated concerning both deposit formation and bed agglomeration, and at the same time emissions and other operational conditions were characterised. The second part of the project has among other things focused on: To investigate measures which decrease the content of alkali and chloride in the deposits, and consequently decrease the risk for corrosion (by investigating the initial corrosion). Focus was also on trying to explain favourable effects. To investigate if it is possible to combine a rather low dosage of kaolin and injection of ammonium sulphate. This was done in order to reduce both bed agglomeration and problems from deposits during combustion of fuels rich in chlorine. To investigate if co-combustion with sewage sludge, de-inking sludge or peat with high ash content, could give similar advantages as conventional additives. Investigate if ash from PFBC (coal ash and dolomite) is possible to use as an alternative bed material. In the reference case, straw pellets were co-combusted together with wood pellets. This fuel mixture gave high alkali and chlorine contents. Alkali was in surplus of chlorine. The agglomeration temperature is reduced by about 50 deg C after 12 h of combustion with wood and straw pellets. Sticky alkali-silicate particles reduce the agglomeration temperature. The bed sand particles are coated with alkali (potassium) and also calcium. The straw ash itself forms sticky parts which contribute to the low agglomeration temperature. Alkali chloride will be formed and vaporized to the gas phase. It will then be measured in the flue gas and will later condensate on the tubes in the back pass. Small amounts of alkali sulphates will also be formed. The alkali chloride content will increase from 1-2 ppm to 44 ppm in the flue gas when the straw pellets are added. The flue gas contains also 9 ppm SO{sub 2} and 85 ppm HCl. All measures had a positive influence on the agglomeration temperature (except the addition of ammonium sulphate which was added to the cyclone inlet and did not have any significant influence on the bed). The results also showed that all measures, except co-combustion with de-inking sludge and changing bed material to sieved bottom bed ash from a PFBC boiler (PFBC-ash), lowered the alkali chloride content in deposits and therefore the risk of corrosion. Initial corrosion was found in the reference case at test probes of 304L exposed 4 hours at 600 deg C. Chromium depletion of the tube material showed that the protected chromium oxide had been damaged. By comparing the different measures in part two, it could be concluded that cocombustion of sewage sludge gave the best overall effect. The judgement was based on the effects concerning bed agglomeration, level of alkali chloride in the flue gas, deposits and initial corrosion. One disadvantage of sewage sludge is the large amount of ash which increases the ash load significantly. In the tests the ash flow increased four times more than for the reference case. Simultaneous addition of kaolin and ammonium sulphate also had a favourable impact both in the bed and on the alkali chlorides in the gas phase. Dosage of kaolin did not reduce the effect of injected ammonium sulphate. Addition of kaolin

  20. Environmental data book 2011. Estimated emission factors for fuels, electricity, heat and transport in Sweden; Miljoefaktaboken 2011. Uppskattade emissionsfaktorer foer braenslen, el, vaerme och transporter

    Energy Technology Data Exchange (ETDEWEB)

    Gode, Jenny; Martinsson, Fredrik; Hagberg, Linus; Oeman, Andreas; Hoeglund, Jonas; Palm, David

    2011-04-15

    The environmental data book summarizes current and general emission factors for most fuels and sources of Swedish electricity and heat and to power vehicles. Emission data are compiled for wood fuels, energy crops, bio-oils, waste fuels, fossil fuels and peat, biofuels, wind power, hydro power, nuclear power and solar power

  1. Biofuels from the forest. A study of environmental impacts and economy of different uses; Biobraensle fraan skogen. En studie av miljoekonsekvenser och ekonomi foer olika anvaendningar

    Energy Technology Data Exchange (ETDEWEB)

    Ekstroem, Clas; Amnell, Goesta; Anheden, Marie; Eidensten, Lars; Kirkegaard, Gunilla [Vattenfall Utveckling AB (Sweden)

    2002-04-01

    The energy and environmental council of the Royal Swedish Academy of Engineering Sciences initiated this study of how an additional 30 TWh/year of forest biofuel could be used in the Swedish energy system within a 10-year period. The specifications include that the forest biofuel shall be used in such a manner that the greatest possible reduction in carbon dioxide emissions will be achieved at the lowest cost without risking other environmental goals, such as good quality of local air. The figure chosen as starting point for the study, 30 TWh/year, was selected as it is this amount that available data have suggested could be extracted without negatively affecting the long-term productive capacity of forest land. The long-term potential of biofuel will probably be much larger than the volume used today, together with the additional use of 30 TWh/yr. We therefore studied fields of use that, totally, will be considerably larger than 30 TWh/yr. The starting point for comparisons of different uses for forest biofuel was the available benefit/utility for industrial, transportation and service sectors, together with domestic uses. The reference alternative was the existing uses of fossil fuels. Comparisons of different alternatives were made including differences in fuel consumption, CO{sub 2} emissions, emissions of sulfur dioxide, nitrogen oxides and dust, as well as costs without environmental and energy taxes or subsidies. Monetary estimations of sulfur dioxide, nitrogen oxides and dust in accordance with the EU ExternE Project were included in the costs. In our study, we have used two scenarios as starting points in order to cover the range of results. Summary of results: The largest reductions in CO{sub 2} emissions (generally about 0.6-1 Mtonnes CO{sub 2} /TWh forest biofuel and for heat pumps slightly more than 2 Mtonnes CO{sub 2}/TWh forest fuel) at the lowest cost are obtained when bioenergy replaces electricity produced by coal fired condensing power stations in neighbouring countries. In some of these cases, bioenergy would not imply any additional cost in comparison with the use of electricity produced by coal condensing plants. In most other cases the estimated additional costs will not be higher than about 60 SEK/tonne reduced CO{sub 2} emissions (up to 90 SEK/MWh electricity). If bioenergy in cases with additional costs is to replace electricity from coal condensing plants it is necessary to place a price on the CO{sub 2} emissions by coal power stations and/or submit them to carbon dioxide taxation. This is not the case today. Pellet boilers in multi-family houses can utilise considerable amounts of forest biofuel and provide heating at lower costs than electric boilers. District heating and cogeneration of power and district heating can also utilise large volumes of forest biofuel (up to 20 TWh resulting in more than 12 Mtonnes/year reduced CO{sub 2} emissions) at low added costs (about 60 SEK/tonne reduced CO{sub 2} emissions corresponding to 20-40 SEK/MWh district heating) in comparison with fossil alternatives. Emissions of other air pollutants can then more easily be minimised and will occur further from built-up areas. The amount of electricity that can be produced from forest biofuel at these low added costs in comparison with fossil alternatives is restricted by the level of district-heating production. Today the power transmission systems permit only limited exports of electrical power, and consequently important reductions in CO{sub 2} emissions can be achieved at low cost if electricity from biofuel-fired cogeneration plants, that cannot be exported, is used by new heat pumps in villas. This would also give lower emissions of other air pollutants in urban areas than if pellets or oil were used to fire the villa boilers. Heat pumps and pellet boilers will be the most favourable forest biofuel based heating alternative for villas heated by water radiators. Heat pumps give greater reductions in CO{sub 2} emissions at lower cost provided they can be assumed to be powered by electricity obtained from a fo

  2. Measures for simultaneous minimization of alkali related operating problems, Phase 2; Aatgaerder foer samtidig minimering av alkalirelaterade driftproblem, Etapp 2. Ramprogram

    Energy Technology Data Exchange (ETDEWEB)

    Gyllenhammar, Marianne; Herstad Svaerd, Solvie; Davidsson, Kent; Aamand, Lars-Erik; Steenari, Britt-Marie; Folkeson, Nicklas; Pettersson, Jesper; Svensson, Jan-Erik; Boss, Anna; Johansson, Linda; Kassman, Haakan

    2007-12-15

    Combustion of an increasing amount of biofuel and waste woods has resulted in certain environmental advantages, including decreased emissions of fossil CO{sub 2}, SO{sub 2} and metals. On the other hand, a number of chloride and alkali related operational problems have occurred which are related to combustion of these fuels. Alkali related operational problems have been studied in a project consisting of two parts. The overall scope has been to characterise the operational problems and to study measures to minimise them. The first part was reported in Vaermeforsk report 997. In part two, additional measures have been included in the test plan and initial corrosion has been studied linked to the different measures. The tests have also in part two been carried out at the 12 MW CFB boiler at Chalmers. The effect of the selected measures has been investigated concerning both deposit formation and bed agglomeration, and at the same time emissions and other operational conditions were characterised. The second part of the project has among other things focused on: To investigate measures which decrease the content of alkali and chloride in the deposits, and consequently decrease the risk for corrosion (by investigating the initial corrosion). Focus was also on trying to explain favourable effects. To investigate if it is possible to combine a rather low dosage of kaolin and injection of ammonium sulphate. This was done in order to reduce both bed agglomeration and problems from deposits during combustion of fuels rich in chlorine. To investigate if co-combustion with sewage sludge, de-inking sludge or peat with high ash content, could give similar advantages as conventional additives. Investigate if ash from PFBC (coal ash and dolomite) is possible to use as an alternative bed material. In the reference case, straw pellets were co-combusted together with wood pellets. This fuel mixture gave high alkali and chlorine contents. Alkali was in surplus of chlorine. The agglomeration temperature is reduced by about 50 deg C after 12 h of combustion with wood and straw pellets. Sticky alkali-silicate particles reduce the agglomeration temperature. The bed sand particles are coated with alkali (potassium) and also calcium. The straw ash itself forms sticky parts which contribute to the low agglomeration temperature. Alkali chloride will be formed and vaporized to the gas phase. It will then be measured in the flue gas and will later condensate on the tubes in the back pass. Small amounts of alkali sulphates will also be formed. The alkali chloride content will increase from 1-2 ppm to 44 ppm in the flue gas when the straw pellets are added. The flue gas contains also 9 ppm SO{sub 2} and 85 ppm HCl. All measures had a positive influence on the agglomeration temperature (except the addition of ammonium sulphate which was added to the cyclone inlet and did not have any significant influence on the bed). The results also showed that all measures, except co-combustion with de-inking sludge and changing bed material to sieved bottom bed ash from a PFBC boiler (PFBC-ash), lowered the alkali chloride content in deposits and therefore the risk of corrosion. Initial corrosion was found in the reference case at test probes of 304L exposed 4 hours at 600 deg C. Chromium depletion of the tube material showed that the protected chromium oxide had been damaged. By comparing the different measures in part two, it could be concluded that cocombustion of sewage sludge gave the best overall effect. The judgement was based on the effects concerning bed agglomeration, level of alkali chloride in the flue gas, deposits and initial corrosion. One disadvantage of sewage sludge is the large amount of ash which increases the ash load significantly. In the tests the ash flow increased four times more than for the reference case. Simultaneous addition of kaolin and ammonium sulphate also had a favourable impact both in the bed and on the alkali chlorides in the gas phase. Dosage of kaolin did not reduce the effect of injected ammonium sulphate. Addition of kaolin

  3. Simple, clear and informative price models for district heating to detached houses; Enkla, tydliga och informativa prismodeller foer fjaerrvaerme till smaahus

    Energy Technology Data Exchange (ETDEWEB)

    Wiren, Christer [Consevo AB, Vaesterlanda (Sweden)

    2005-07-01

    This report deals with pricing and price models of district heating for single-family houses. The purpose of this study is to give proposals for price models which meet with customer demands for freedom of choice regarding charges for connection and heating consumption of single-family houses. Equally these price models should consider the needs of district heating companies for sound economy of this business in the long term. The scope of the project has covered both the customer and the company side of the market for district heating to single-family houses. Customers consider distant heating to be advantageous both with regard to costs and to comfort. Therefore it is important for companies to facilitate for customers to finance the installation of district heating and to offer alternatives of different heating consumption fees. A distinctive feature of district heating is that the companies have control of the total value chain from the installation of the boiler to the actual supply of the heating with options also to offer various service support. This means that district heating companies have the possibility to price either the district heating boiler and the district heating separately or in various forms of combinations. This is a distinct advantage that the report recommends companies to exploit to the maximum in order to benefit from the market potential. The report recommends five different price models, which should give the companies sound finances and the customers an optimal freedom of choice regarding the balance between the connection fees and the heating consumption fees.

  4. Considerations underlying SSIs review of SKBs complement to the Research Program for 1992; Underlagsmaterial till SSIs granskning av SKBs komplettering av forskningsprogrammet foer 1991

    Energy Technology Data Exchange (ETDEWEB)

    Jensen, M.; Nolin, J.; Sundqvist, G.

    1995-04-01

    Two documents are presented: (i) SSI`s background review PM for SKB`s complement to the research program for 1992. (ii) An interdisciplinary study of the steering principles in the Swedish waste management. This work is an independent contribution to the debate about waste management in Sweden.

  5. Variations in the wood raw material for pellets manufacture and its influence on the quality of wood pellets; Variationer inom traeraavaran foer pelletstillverkning och deras paaverkan paa pelletskvaliteten

    Energy Technology Data Exchange (ETDEWEB)

    Jirjis, Raida; Vinterbaeck, Johan; Engberg, Jessica [Swedish Univ. of Agricultural Sciences, Uppsala (Sweden). Dept. of Bioenergy; Oehman, Marcus [ETC Energitekniskt Centrum, Piteaa (Sweden)

    2002-05-01

    The aim of this project was to study the variations in properties of raw material and its effect on pellets quality. The project included three parts which together would help describe the relationship between material properties, process parameters and fuel quality. The first part dealt with a small-scale production of pellets using a well defined raw material. The objectives of this part were to study the effect of tree species, stem diameter and storage of raw material on pellets quality. In the second part of the project data concerning characteristics of raw material and product quality were collected from two pellet factories: SAABI AB, where spruce is the major raw material, and Bioenergi i Luleaa AB, which uses mainly sawdust from pine. The objectives of this part of the project were to analyse and evaluate the relationship between raw material properties/process parameters and fuel quality using multivariate data analysis. Part three of this project involved a questionnaire survey in which pellets producers were asked at four occasions during one year of production, to give information about variations in raw material properties during various seasons, characteristics of the material during pressing and to supply data related to process parameters. Data concerning variations in pellet quality during the whole year were also requested. The sawdust used in the first part of the project was originated from small diameter trees (14 cm in average) and large diameter stems (30-36 cm) of Scots pine and Norway spruce. One third of the material was dried at room temperature to a moisture content (MC) around 12 % (fresh weight basis), then frozen until needed. The rest of the material was stored in 32 plastic net bags in a large outdoor pile during the period end of May-January. The average dry matter loss in all assortments after eight months of storage was about 0.5 % per month. An attempt to produce pellets from the fresh and stored material from the various assortments was undertaken using a small Metador press machine. To study the effect of variations in the raw material on pellets quality, the setting of the press equipment was kept unchanged during the pressing of all assortments. Many technical difficulties were encountered during the small-scale manufacturing of the pellets. We only succeeded in pelletizing sawdust from fresh and four-months stored pine but not from 8-months stored pine or spruce assortments. The ash content in sawdust taken from different material was low and varied between 0.2 and 0.35 % of dry weight. The content of ash in the small-scaled produced pellets was close to that of the raw material. The initial average calorific heating values of pine, both thin and large diameter trees, were higher than that of spruce. The concentration of extractives, both those extracted with acetone or with alcohol, were generally higher in pine compared to spruce samples. A marked increase in the concentration of alcohol-soluble extractives was measured during the storing of sawdust from both pine and spruce. The pellets made from this material showed a similar pattern. This increase possibly reflects changes in some chemical components that were affected by the high temperature developed during storage. Attempts to relate the changes occurred in the raw material to the quality of the produced pellets were not totally successful partly due to the large variations within the raw material itself and partly because of the failure to palletise certain assortments. However, general conclusion are still possible to draw. The compact density of individual pellets varied very little between various samples produced by the small-scale pelletizing method. Similar results were obtained in pellets manufactured at the industrial factories. The durability of pellets produced using the small-scale method was generally higher when the raw material was stored before pelletizing. This observation is in agreement with the general opinion of many industrial manufacturers. No clear correlation between the extractives content and

  6. Flow Cytometry for rapid characterization of colloidal particles of various types in process waters; Floedescytometri foer snabb karaktaerisering av kolloidala partiklar av olika typ i bakvatten - MPKT 05

    Energy Technology Data Exchange (ETDEWEB)

    Degerth, R.; Holmbom, B. [Aabo Akademi, Turku (Finland)

    1998-12-31

    Since more than ten years Flow Cytometry (FCM) has been used for characterization of blood cells and bacteria and has become indispensable for medical and biological use. FCM is able to count thousands of particles per second and simultaneously determine their the type and size ending up in a statistically significant report within less than a minute. The principle of FCM is based on a light excitation of a `lined up` particle stream and a multi-channel determination of scatter and fluorescence. This rapid technology has so far not been used in a greater extent within process industry, except for counting bacteria in milk and beer. BASF of Germany has developed and patented a single-channel fluorescence counter for determination of resin droplets in the process waters of paper making. The FCM, however, is a far more effective and reliable method, being able not only to detect resin droplets but also bacteria, live or dead, as well as other occurring particles. We know we are able to determine bacteria, we have seen resin and we aim to show that FCM is able to give a comprehensive view of the colloidal contents of process waters in paper mills by exploring means to selectively stain the different types of particles. (orig.) 3 refs. CACTUS Research Programme

  7. Technical development to increase the use of reed canary grass - Full scale demonstration; Teknikutveckling foer oekad etablering och nyttjande av roerflen - Demonstrationsfoersoek i fullskala

    Energy Technology Data Exchange (ETDEWEB)

    Oerberg, Haakan; Skoglund, Nils; Grimm, Alejandro; Bostroem, Dan; Oehman, Marcus

    2010-06-15

    Introducing fuels from agricultural crops into the heat and power sector in Sweden is a desired and needed development, thus it is connected to some obstacles. For the crop producers it is important to use the most efficient handling for harvest, collection, loading and transport technology in order to reach low production costs. For the fuel consumers it is of high importance that these fuels work together with other utilized fuels in mixtures without complications. This includes fuel mixing, fuel feeding, combustion behavior and ash transformation mechanisms. Specifically for the combustion process, gaseous and particle emissions, ash behavior and deposit formation on cooled surfaces should not be negatively effected by mixing in agricultural crops. In this study these aspects of the energy crop reed canary grass (RCG) have been examined. The recommended harvest period for harvesting RCG in Sweden is during springtime when the crop from the year before is collected, called delayed harvest. During this period the grass is very dry and has been harvested in this project with an average water content of 11,3 %. Two major different harvest systems have been tested. One where the energy grass is chopped directly in the field by a chopper connected to a wagon. The other system was based on baling the crop with round balers or big square balers. The chopped or baled material is transported 6 km to a farm center or terminal for unloading. Further transport to CHP (Combined Heat and Power) plant, 12 km, was done with road truck (135 m3). In the case of field chopped RCG the mixing of the other fuels has been easily done since the material was well chopped (40-50 mm). The RCG was mixed into a mixture of peat and wood to a share of 10-12% of the total energy content of the mixture. Also the baled material was transported to a farm centre or terminal for unloading the farm wagon and loading on a road truck (135 m3). In this case an additional procedure is needed for chopping the bales before mixing them into the fuel mixture. Chopping of baled crops is sometimes problematic since it generates dust and noise, and it might also cause fire. For this reason some CHP plants will not accept this handling inside the gates. This study has started from the state that the RCG was moved with a conditioning mover (3,5-4,0 m). The capacity of balers and forage choppers were registered. The transport capacity was also registered. Results from the harvest and transport operations show that field chopping system are very efficient up to the farm level. The very low density of the chopped material 81-85 kg/m3 leads to low transport capacity on the road to CHP plant. A fully loaded truck could only take 11 ton dry RCG. The low density will also complicate dry storing of the chopped material. For storing purposes, big square bales with a density of 380 kg/m3 are more optimal. One full loaded truck of square bales could take 20,9 ton in average. The field chopping was done with a self propelled forage harvester with pick up (3,0 m) and tractor transported containers in the field and on trucks on the road. The overall capacity was very high. In spite of the high water content (77%) the total time consumption for all operation was the lowest compared to the other harvest systems when recalculated to 11,3% water content. Four different combustion tests were done with RCG in mixture with peat and wood. In Hedensbyn (98 MW CFB) two tests were made, one in June 2008 and one in November 2009, using field directly chopped RCG. In both test the RCG share of the mixture was 10% of the total fuel energy. The other components were peat 10-20% and wood 70-80%. The results show no negative influence of mixing in RCG at this level. Both particle and gaseous emissions were at the same level as reference mixture without RCG. The deposits on cooled probes were slightly higher on the test in June but on the other hand it was slightly lower on the test in November. The XRF characterization of fly ashes from electric filter and bed material does not show any changes in chemical composition. Thus from these test it can be concluded that mixing in 10% RCG on energy base has no negative influence of combustion process in a CFB boiler. Two tests were done with briquettes made of RCG and peat, one in Eskilstuna 4MW grate fired boiler and one in Roebaecksdalen 600 kW grate fired boiler. The RCG was produced on organic soil to obtain low ash content. Comparisons were made between briquettes made with 100% RCG (high ash content) and with briquettes with 15% peat on weight base mixed with 85% RCG with low ash content. Results from these combustion tests show that NO{sub x} emissions increased when RCG was used compared to wood pellets (600 kW boiler) explained by high N content in RCG. Even the total dust in flue gas increased with RCG compared with wood pellets (600 kW boiler) but total dust emissions were reduced with 50% when peat was mixed in briquettes.

  8. Energy conservation technology for cooling of milk on farms and in the dairy industry. Final report; Elbesparande teknik foer kylning av mjoelk paa gaardar och i mejeriindustrin. Slutrapport

    Energy Technology Data Exchange (ETDEWEB)

    Claesson, Olof [Claessons Forskning och Utveckling AB, Uppsala (Sweden)

    2000-08-01

    This project has studied the possibility of reducing the energy consumption when cooling cow milk to prevent a rapid growth of bacteria. Cooling with groundwater and development of new cold storage systems with efficient heat exchangers, combined with an anti-bacterial system (LPS) is suggested.

  9. Slag gravel for combined unbound materials in roads and ground works. Handbook; Slaggrus foer sammansatta obundna material i vaeg- och anlaeggningsbyggande. Handbok

    Energy Technology Data Exchange (ETDEWEB)

    Tyllgren, Per (Skanska Sverige (Sweden))

    2008-06-15

    The market situation for waste products in Sweden was first surveyed in a report sponsored by the Swedish Construction Industry Development Fund (SBUF). An umbrella project for alternative ground materials for roads and rail roads lead by the Swedish Geotechnical Institute (SGI) et al and sponsored among others by the Swedish Road Administration (Vaegverket), produced a series of handbooks. One of those deals with composed unbound mixtures, to make use of large volume waste materials in ground works. The umbrella project also focuses on the environmental issues in a joint report for all kinds of materials, which is an important supporting document. This report presents an adapted version of this composed concept to slag gravel from household and industrial waste incinerators. This project is funded by the Swedish waste and energy research organizations Vaermeforsk and Avfall Sverige along with the SBUF and the building company of Skanska. One important task is to link parties concerned, in order to collectively find adapted solutions from environmental and market points of view. The practical work was tied to selected companies in waste treatment and energy production at the front line of development: SYSAV in Malmoe; Renova in Goeteborg; and Umeaa Energi in Umeaa. The outcome depends on participation of able operators, capable of capitalizing these new business opportunities. This project engaged several local gravel producers and contractors as Sydsten and AaGAB in Malmoe and Skanska. The testing of several mixtures of slag gravel, crushed rock and reclaimed asphalt and trial activities resulted in useful production experiences and material characteristics. It is all summed up in general production and building recommendations. The washing of slag gravel reduces the leaching of soluble substances and improves the geotechnical performance, especially regarding the fines. The key factors in making slag gravel accepted are occupational safety, a secured surrounding environment and traceability. For that purpose examples of safety data sheets and building product declarations are presented. Based on those each producer and sup-plier can easily make their own versions (author)

  10. Availability assessment and risk assessment regarding handling and preparation of biomass in combustion plants; Tillgaenglighets- och riskbedoemning av system foer hantering och beredning av biobraensle i foerbraenningsanlaeggningar

    Energy Technology Data Exchange (ETDEWEB)

    Biguen, Helen; Bodlund, Gunnar; Dahlloef, Lars; Pettersson, Lars [SwedPower, Stockholm (Sweden)

    2005-04-01

    In the design of new, or refurbishment of old, bio-fuel fired plants, the design of the fuel-handling systems is often based on experiences from existing plants. The size of the bio-fuel storage is decided from fuel consumption during a long holiday with no transports, and available storage area on the site. Auxiliary capacities and redundancies in the bio-fuel handling systems are often determined by investment costs rather than by life-cycle costs. Risk analyses are realized according to Swedish legislation for Occupation and Health and its regulations for work in environment with risk of explosion. The plant is designed to minimize the risk for explosion and also to minimize the consequences of an explosion. The plant is provided with fire protection functions according to applicable legislations and regulations. Safety functions can either be passive as physical separations or active as different kinds of detecting and consequence reducing systems. The aim of this report is to emphasize the use of quantitative tools for analysis to evaluate alternative system designs from the viewpoint of availability and risk. The availability analysis gives the opportunity to quantitatively analyse suggested alternative solutions of a system and to study the influence of redundant system functions, storage volumes etceteras. The analysis also gives the opportunity to evaluate effects on manning, work on three shifts or daytime with extra duty on call, as well as the optimization of spare parts toward delivery times and agreements for service. The probabilistic risk analysis gives opportunities to place in order of precedence and quantitatively evaluate the effect on total risk from suggested passive protective measures and different types of active protection functions such as fire sprinkling. The methods of analysis are above all an aid and support to optimize system design and life cycle cost during the design phase. During continuous operation the quantitative analyses are tools to identify measures for improvements and rehabilitation and identifying changes on the risk picture by e.g. changing of fuel or legislation. Accomplishment To describe the methods of analyses a number of reference plants have been defined, five wood-chips fired plants and one wood-dust fired plant. The ambition of the choice of reference plants has been to imitate an average of existing bio fuel handling plants without pointing out any specific plant. Basic input to the analysis expressed as mean time between failures, mean down time, failure frequencies and failure probabilities are estimated from representative bio-fuel handling systems. Based on experience the fuel handling plant contribute to in the order of magnitude 0.5% of the total unavailability for a whole plant. In this case where same component related unavailability data are used for every reference plant it is seen that the more complexity a plant show the higher the unavailability compared to to smaller and more simple plants. At the same time the larger plants have more redundant system functions. The relation between unavailability and complexity can be seen in the diagram below, figure 1, where 'Wood ships 5' has significant greater amount of separate feeding for fuel to the boiler. Independent evaluations has been done on how the size of bio-fuel storage and manning influence availability for the fuel handling plant. The analyses shows that for reference plants a intermediate fuel storage with capacity corresponding to at least 4 hours full load operation has positive influence for availability. At the same time results shows that continuous manning have no significant effect on availability. The probability risk analysis is developed from activities as aviation and nuclear power, activities with big demands on identifying and reducing risks. The risk for fire or explosion in two reference plants are analysed with fault tree technique. The sequences of events with potential for fire or explosion as well as critical functions are identified with FMEA technique. At the same ti

  11. Development of methods for determination of PAH based on measured CO-content; Metodutveckling foer indirekt bestaemning av PAH-halt utgaaende fraan maett momentan CO-halt

    Energy Technology Data Exchange (ETDEWEB)

    Ingman, Rolf; Schuster, Robert [AaF Energikonsult Stockholm AB, Stockholm (Sweden)

    2001-02-01

    The aim of the project 'Development of methods for determination of PAH based on measured CO-content' is to investigate the possibility to develop a method for continuous optimisation of NO{sub x}-emissions by decreased air ratio, without significant increase of polyaromatic hydrocarbons such as PAH. The general idea has been to find a indirect online method to predict the emissions of heavier hydrocarbons by: - creating a correlation between the content of CO and PAH, - controlling the air ratio by the CO-content, and - integrating the calculated PAH-content from CO-content. Today many boilers are operated with a low air ratio to minimise the NO{sub x} content and the NO{sub x}-fee. A low ratio increases the risk of high CO contents in the flue gas as well as increased contents of VOC and PAH. Other boilers are operated with high air ratios in order to minimise the CO content, which in some cases will result in unnecessary high NO{sub x} emissions. One of the main difficulties in optimising the air ratio to the most environmental friendly level is the lack of a suitable and well proven PAH instrument. There are today no available instruments for instantaneous and continuous measurement of PAH. PAH is normally measured as an average value during a period of at least one hour. It is not possible to detect short peaks. The development of the CO-method has been based on data from a CFB-boiler in Korsta in Sundsvall (Vaermeforskrapport 541). The data shows a clear correlation between THC and CO. The correlation seems to be mostly dependent of moisture content and load. The development presented in the report shows that it is possible to find a method to predict the PAH content from the CO-content in the flue gas. The next phase aims to improve and implement the method, by measurements and adaptation in a plant. The practical use of the method is as a tool to optimise the emission of CO, NO{sub x}, THC and PAH and/or to predict the PAH-emission during continuous operation.

  12. Environmental impact assessments for energy production; MKB foer energiproduktion. Moejligheter att bedoema och vaega samman effekter paa lokal och regional skala av foersurning, eutrofiering och oxidantbildning

    Energy Technology Data Exchange (ETDEWEB)

    Loevblad, Gun; Skaerby, Lena

    2000-06-01

    The report is the final report from a jointly financed project within lVL studying methodology for environmental impact assessments (EIAs). The aim has been to show possibilities and problems with EIAs for air pollution emissions from energy production plants in environments where critical loads and levels are exceeded. The project has mainly dealt with plants emitting air pollutants with environmental effects on the regional scale, including sulphur and nitrogen compounds, volatile organic compounds and particles, and effects such as acidification, eutrophication and ozone formation. Conclusions from the work are that project managers, environmental auditors, together with regional and local authorities could have use for better and more detailed guidelines, in the form of more detailed emission data from different types of alternative plants; Guidelines for the elaborating and assessing of relevant zero alternatives; Regional environmental goals and guidelines for the acceptable contribution to these by different activities; Criteria for the definition of the areas of 'environmental influence'. Furthermore, quantitative relationships between exposure and effects may contribute to better and more detailed descriptions of environmental impact and the need of decreasing the load for the recovery of polluted ecosystems.

  13. Retrofitting oil fired boilers for pellets based pulverised wood firing at peak load; Konvertering av befintliga oljepannor till pulvereldning foer spetslast

    Energy Technology Data Exchange (ETDEWEB)

    Malmgren, A.; Tao, L.; Wennstroem, M. [TPS Termiska Processer AB, Nykoeping (Sweden)

    2000-03-01

    The types of equipment for grinding of pellets used by commercial heat producers today are discussed. Powder from a representative number of plants has been collected and classified using a traditional vibrating sieve and an aerodynamic method 'Aeroklass'. The results show clearly that the difference in 'fluffyness' between a powder produced from pellets, briquettes or directly from wood can be identified by the aerodynamic method. The shapes of different particles are shown in microscope pictures. The requirements of burners and combustion chambers for good burnout of fuel particles are discussed theoretically. Burnout time for wood particles of different size at different temperatures are calculated and the result is presented in diagrams. It is difficult to calculate the residence time for fuel particles in a flame in a generally useful way with any precision. Some diagrams that can be used to approximate the residence time of an aerodynamically small particle, in different parts of a flame, as a function of fuel load and burner diameter are presented. The results of CFD-simulations (with Fluent) of the trajectories of different sized fuel particles in a 20 and a 10 MW flame are shown in 20 pictures. Colour coding is used to show the particle temperature, residence time and combustion stage along the trajectories. The final discussion is based on the analysis of 3 real installations of burners in the size 9 - 20 MW.

  14. Model for determining the change in value of the forest captial during the financial year. Modell foer beraekning av skogskapitalets vaerdefoeraendring under raekenskapsaret

    Energy Technology Data Exchange (ETDEWEB)

    Haegg, A.

    1993-01-01

    The annual report of a forestry district usually states an operating profit, expressed in monetary units, and a return figure, expressed as a percentage of the capital employed. If the operating profit from logging and silviculture in any given year is to reflect the true profit generated by the district, the profit must equal the value increment of that year. Any difference amounts to a change in the value of the forest capital. The aim of the study is to present a model for calculating the annual value increment and the operating profit from logging and silviculture, expressed in commensurable units. Thus, the model will make it possible to compare these quantities. The model presupposes the existence of a computer based, regularly updated, stand register. The problem analysis carried out has lead to the following conclusions: The value increment of the stand ensues from an increase of its anticipated value. It is, accordingly, a calculated value; At the start, the entire holding must be valued stand-by-stand; In the valuations, the real discount rate, as well as in- and outpayments should be adjusted for taxes; The value changes of the forest capital during the year should be based upon the calculated net profit, not upon the actual profit; and Actually existing stand registers can be used as a basis for the model, even if they do not explicity state all the data required by the model.

  15. Biological recipient control at the Oskarshamn nuclear power plant. Annual report for 2011; Biologisk recipientkontroll vid Oskarshamns kaernkraftverk. Aarsrapport foer 2011

    Energy Technology Data Exchange (ETDEWEB)

    Andersson, Jan; Franzen, Fredrik; Lingman, Anna

    2012-07-01

    Potential ecosystem effects caused by the effluent cooling water from the Simpevarp nuclear power plant, close to Oskarshamn on the Swedish coast of the Baltic Proper, are monitored in yearly surveys using gillnets and fyke nets. Fishing is undertaken at several sites in a coastal gradient starting at the location of the emitted cooling water, and in a reference area 100 km north of the recipient. Soft bottom macro fauna and macro vegetation are monitored both in the gradient and in the reference area. Fish mortality due to entrapment in the cooling water system and commercial landings are monitored to assess the effects on the local fishery. The water used for cooling is normally heated by 10-12 deg C when passing through the power plant. In sheltered parts of the recipient bay of Hamnefjaerden, the surface water was 4-6 deg C warmer in April-November 2011 than in the reference area comparable reference areas and the emitted water occasionally exceeded 30 deg C in the summer. Fish losses in the cooling water rinsing system were dominated by Baltic herring. Effects on abundances at the population level are estimated to be small, but local effects cannot be ruled out. Perch (Perca fluviatilis), roach (Rutilus rutilus) and silver bream (Blicca bjoerkna) dominated the catches in the surveys with gillnets in Hamnefjaerden, as well as in the archipelago surrounding the power plant. Perch abundances increased in these areas. Catches of roach decreased close to the power plant, but also in the reference area. Perch in the gillnet catches were younger and grew faster close to the power plant than in the reference area. Abnormal gonads, previously observed at high frequencies in perch and roach in Hamnefjaerden, were rare in the 2011 sampling. The abundance of young of the year perch in the recipient did not change over time. The size of the perch fry however, increased in Hamnefjaerden, as well as in the local reference area. The catch and size structure of yellow eel (Anguilla anguilla) did not change over time in the recipient since the 1980s. The prevalence of swim bladder parasites (Anguillicoloides sp.) has been 50-60% since the parasite was established in Hamnefjaerden in the late 1980's. Gillnet surveys are performed in the spring on the open coast at the power plant to study effects on Baltic herring and other marine species, normally appearing at low water temperatures. Problems due to an increasing population of grey seals forced a change in fishing methodology in 2011, and the pelagic nets were replaced with a series of demersal nets. The abundances of the long term dominants Baltic herring (Clupea harengus), sea scorpions (Myoxocephalus scorpius) and cod (Gadus morhua) have shown large periodic variations since the survey was established in the early 1970's. Cod alone has shown a long term decrease, probably reflecting the general situation in the Baltic Sea. Silver eel (Anguilla anguilla) catches decreased in the local fishery, but increased in the reference area until silver eel fishing stopped in this area in 2001. The long term development is however believed to reflect the general trends of eel in the Baltic region. Abundance and species richness in soft bottom macro fauna increased strongly in shallow sites between 1962-2011, in Simpevarp as well as in the reference area. The number of species increased also on deeper sites, but the total abundance did not change significantly. The abundance of the introduced polychaete Marenzelleria sp. increased rapidly in recent years and is now among the dominants in both areas. The trend is reflective of the general changes in the Baltic Sea. Vegetation on hard bottoms is monitored on three sites in the coastal gradient of cooling water. The algal communities are considered to have good ecological status and the studied sites are among the richest in the region. The Fucus vesiculosus cover decreased however, in recent years due to the wearing of ice. Fucus increased its distribution in deeper parts in two sites south of the power plant. The cover of filamentous green algae increased over the last decade and the cover of red algae in 5-6 m depth decreased in recent years.

  16. System identification methodology for grate modeling. Black- and grey-box models; Metodik foer modellering av foerbraenningsrost med systemidentifiering. Svart- och graalaademodeller

    Energy Technology Data Exchange (ETDEWEB)

    Lundgren, Astrid; Sjoeberg, Jonas; Ramstroem Erik; Sunnerstam, Fredrik

    2004-10-01

    The possibility to use system identification to model combustion on a grate was studied. The identification was based on collected data from the combustion unit, data which was used to determine the model parameters. A number of step response experiments have been performed, for instance with varying pusher speed and air supply. No clear response was seen and thus it is concluded that the system is poorly excited. The initial requirements on the input parameters were not met. For instance many of the input parameters are co-varying with each other which limits the possibilities to single out the influence from each parameter on the combustion process. This will obstruct the identification procedure. In an attempt to improve the model, and compensate for the poor data, theoretical insights, i.e. a mass- and heat balances, have been included. Two model approaches were suggested, one based on the measured grate temperature, and another based on the fuel bed extension on the grate (particularly the position of the burn-out of the fuel). The first approach was implemented in an existing grey-box identification software MoCaVa, but the model output was concluded to be in poor agreement with measured data. The second approach was never tested since it could not be implemented in the MoCaVa software due to a discontinuous optimisation criteria. Instead a linear model based on the grate temperature has been used for comparison. In this model, it was shown that the response time of the grate temperature signal is significantly shorter than the fuel transportation time on the grate, thus a change in grate temperature is not only a result of the fuel transport. Radiation and conduction of heat to the grate is influencing the grate temperature and needs to be included in future modeling work. A strategy in order to separate the response from each signal during normal operation have been suggested. In future work the model need to be identified by exciting the system further and without covariance of the parameters. The time of each experiment needs to increase since the time constant of the system is long. Also it could be of interest to sample (and control) the fuel composition to the boiler, which is preferably done in a laboratory scale equipment. In this work, all models have the grate temperatures as output. This was motivated by the fact that this temperature is simple to measure and that it indicates the char burn out zone position on the grate. However, it is suggested for future work that the power output, also could be used as a model output. For instance the primary air might decrease the grate temperature due to convective cooling or it might increase the temperature due to more intense combustion in the fuel bed resting on the grate. If the convective cooling and the more intense combustion are in the same order of magnitude, the influence on the grate temperature from primary air will be low. It is believed that the power output is a better model output than the grate temperature, from which the grate temperature and the burn-out zone can be estimated.

  17. Energy savings in dust collector plants of bag house filter type. Phase 1 - Literature study; Energieffektivisering av anlaeggningar foer stoftrening med slangfilter. Etapp 1-Litteraturstudie

    Energy Technology Data Exchange (ETDEWEB)

    Eriksson, Lars; Wikman, Karin; Berg, Magnus [AaF-Energi and Miljoe AB, Stockholm (Sweden)

    2004-01-01

    The largest energy demands in connection with the operation of bag house filters are the electric energy consumption for the fans, securing the flow of flue gas through the filter, and the electric energy consumption when producing the pressurized air (compressors or high pressure fans). Considering the significantly increased fan work when having a non-optimised cleaning of the filters, it seems justified to investigate the possibilities to minimise the unnecessary pressure drop. There is also a saving potential in the filter cleaning process, which otherwise may cost an unacceptable amount of pressurized air or other energy. The main purpose of this work is to develop methods to optimize the operation of bag house filters, which is started up with this report containing a follow-up of what has been done in Denmark and a confirmation of the technology status. In the next step, a case study where two-three plants are examined more in detail is suggested followed by a potential study to estimate the total energy saving potential in Sweden. Dust precipitation with bag house filters is basically a rather simple technique, which has existed in flue gas cleaning for about 50 years. From the literature study it can be established that there has been no revolutionary development in the field, but there are some work being done mainly to introduce new filter material but also to optimise the use of bag house filters with new computer based control systems. The largest potential of energy saving prevails if the filter from the beginning is overloaded, which usually is the case. The reason for overload may be a too large volume flow in relation to the filter area, that the dust has penetrated and blocked the filter, a defective filter cleaning process or that wrong filter material has been chosen. In Denmark a study has been made with the purpose to investigate the possibilities to optimise the energy consumption for bag house filters. For the three plants studied, an average energy saving of 50% was noted by exchange of filter material and improvement of the cleaning process. Other plants in Denmark have been rebuilt during the latest years but for these plants no reports have been found concerning how efficient the measures have been regarding energy demand for the filters. Today the suppliers of bag house filters have refined the control systems for the on-line cleaning of the filters. The systems differs in advance but are usually based on minimising the pressure drop on the flue gas side by keeping the dust layer thickness on the filter constant on the smallest possible level considering the flue gas dust emission. Very often this is combined with minimising the energy consumption of the cleaning process. Also the consumption of chemicals (for example limestone, active coal) are minimised by these control systems, which mainly in larger plants may be prior to minimising the electric energy consumption.

  18. Possible consequences of climate change on the Swedish energy sector - impacts, vulnerability and adaptation; Taenkbara konsekvenser foer energisektorn av klimatfoeraendringar. Effekter, saarbarhet och anpassning

    Energy Technology Data Exchange (ETDEWEB)

    Gode, Jenny; Axelsson, Johan; Eriksson, Sara; Holmgren, Kristina; Hovsenius, Gunnar; Kjellstroem, Erik; Larsson, Per; Lundstroem, Love; Persson, Gunn

    2007-06-15

    The events of recent years clearly demonstrate the far-reaching consequences of extreme weather situations on the energy system, particularly in the case of severe damage to transmission lines in connection with violent storms. Many climate researchers predict an increase in extreme weather events. Against this background, in 2005 Elforsk initiated this project where the aim has been to examine how climate change can affect plant operation, production conditions and energy usage patterns, how undesirable consequences can be predicted and what long-term measures may be necessary. Another central objective has been to bring about a dialogue between climate researchers, energy consultants/engineers and buyers for the energy industry. The inclusion of both positive and negative consequences has been an important ambition of the project. One key aspect of the project has been to develop climate scenarios for the next 20-25 years that describe possible changes in climate variables with relevance for the energy system. Based on these and literature studies, contact with experts and internal assessments, an analysis has been made of the possible impacts on hydropower, wind power, biofuel supply, natural gas supply, the power transmission network and energy usage. The project findings, which have also been discussed at a workshop with representatives from the energy industry, did not reveal any acute need for adaptation aside from those measures already being taken, for example to make the transmission system less vulnerable to weather conditions. Furthermore, the results indicate increased production potential for both hydropower and wind power. The production potential for hydropower stations from the Dalaelven River northwards would appear to increase by 2-10%. Estimates for the southern watercourses are less certain, but the production potential may decrease. Since around 80% of the country's hydropower is produced in the northern watercourses, this indicates an increase in Sweden's overall production potential. For wind power, the growth potential is 5-20% based on an installed capacity of 4000 MW. It is also a possible that the bioenergy potential will increase in view of the predicted 5-10% growth in production potential for forestry and agriculture. On the other hand, the extent to which this potential will be used for bioenergy production is uncertain since is it strongly dependent on the price of biomass and use of biomass for other purposes. Some of the climate-related problems that exist today may lessen in scope, while others may increase and new problems arise in a future climate. It is difficult to assess future wind conditions, since different climate scenarios produce somewhat different results. Among other things, an increase in heavy winds could have a negative impact on the electricity transmission network, wind power, biofuel supply and natural gas supply. However, the natural gas platforms that supply Sweden have proven highly robust and weather resistant. For the transmission network, a number of measures are being taken to increase its robustness to extreme events. Thunderstorms are another somewhat unpredictable climate variable. The analyses made in the project indicate a possible increase in problems related to lightning overvoltage in the transmission network. An additional area that is complex to assess is how problems with icing of transmission lines and wind power plants can change in a future climate. It is probable that these problems will increase in certain areas, but decrease in others. In certain parts of Sweden, evaporation may exceed precipitation and give rise to a water shortage. This applies particularly to the southeastern part of the country, which could affect the biofuel supply and hydropower generation in these areas. An opposite problem is that of future floods, which may increase especially during the winter season and in central and northern Sweden. Flooding has no direct connection to hydropower other than the ability for regulation to control water levels. However, hydropower is indirectly affected by flooding since public attention is often focused on the industry when high flows occur. A warmer climate will reduce the country's heating requirement by approximately 15 TWh. While electricity usage for heating is estimated to decrease by around 3 TWh as a result of a warmer climate, a probable rise in demand for air conditioning could lead to increased electricity usage during the summer. However, future energy usage for heating and air conditioning will be strongly dependent on factors other than the climate, such as the implementation of energy efficiency measures, changes in behaviour, the use of heat generating appliances, population growth, etc. The project has included a rough assessment of how both climate-related and non climate-related factors may affect energy usage for heating of homes and businesses (not industrial facilities) in a 20- to 25-year perspective. A lower energy requirement for heating would also reduce the production base for CHP. To maintain production it will be necessary to expand district heating to areas that are currently without, convert from other heating systems to district heating and/or utilise new business opportunities such as absorption cooling or energy combines with CHP utilising renewable fuels like biomass or pellets. Changes in production potential and energy usage patterns and the occurrence of climate-related problems will affect the entire energy system. Increased production potential for the northern hydropower stations, particularly in combination with a growing share of power types that are difficult to regulate, may increase the need for power transmission capacity from north to south. This is especially true if the north-to-south shift continues and in the event of rising demand for electricity in the rest of Europe.

  19. Evaluation and optimization of a method for pretreatment of sorted household wastes for biogas production; Utvaerdering och optimering av metod foer foerbehandling av kaellsorterat hushaallsavfall till biogasproduktion

    Energy Technology Data Exchange (ETDEWEB)

    Bohn, Irene (NSR AB, Helsingborg (Sweden)); Carlsson, My (AnoxKaldnes AB, Lund (Sweden)); Eriksson, Ylva; Holmstroem, David (Lund Univ., Lund (Sweden))

    2010-04-15

    At NSR in Helsingborg, Sweden, organic household waste is digested and converted into biogas and bio-fertiliser. The incoming waste contains a small fraction of non-sorted waste such as plastics, metal and paper. These materials, especially plastics, can cause operational problems in the digester and pollution of the bio-fertiliser. In order to separate these particles from the digestion substrate, the waste requires pre-treatment. For two years, a screw press has been applied for pre-treating the waste at NSR. In the pre-treatment process, food waste is grounded and mixed with water to form a slurry. The slurry is separated into a dry fraction (reject) and a liquid fraction in the press. The liquid fraction is the digestion substrate and is sent to the digester while the reject is sent to combustion. Though, the separation in the screw press is not complete and thus organic, easily degradable matter ends up in the reject. In order to evaluate the efficiency in the screw press and to estimate the loss of easily degradable matter (and thus loss of methane), an assessment of the mass- and energy balances was carried out. The composition of the in- and outgoing fractions was analysed with the purpose of determining the distribution of organic material in the two outgoing fractions. The methane potential in the liquid fraction was compared with the methane potential in the slurry so as to estimate the loss of methane. The results of the mass balances showed that 63 % of the organic material that enters the screw press ends up in the liquid fraction and 37 % ends up in the reject. One ton of waste that enters the pre-treatment facility will eventually result in 1.5 tons of liquid and 0.2 tons of reject. Analysis of the composition was carried out in the slurry, the liquid fraction and the reject. These analyses showed that the liquid fraction contains a higher concentration of easily degradable matter such as fat and protein than the reject. In the incoming material, as well as in the reject, visual plastic objects and large fibres were present, while no visual large particles occurred in the liquid fraction. Analyses of the methane yield in the three streams showed that the liquid fraction has the highest methane potential. However, a considerable amount of methane can be produced from the reject and thus, a large amount of potential methane is lost in the present situation. Approximately 65 % of the methane that potentially can be produced in the slurry can be produced from the liquid fraction. Methane is a gas with a high energy value and can be converted to vehicle fuel. The energy in the reject is converted into heat and electricity when combusted in a combined heat and power plant. Just over 12 GWh of methane could be produced from digestion of the slurry. The corresponding energy production from the liquid fraction is 8 GWh. From combustion of the reject, almost 2 GWh of electricity can be produced and close to 4 GWh of heat. The total amount of energy that can be produced by applying the screw press is therefore larger when the screw press is applied. However, the energy in the gas is considered as a higher form of energy and the selectivity in the screw press should therefore be increased in order to achieve a higher methane production from the liquid fraction. Though, pre-treatment in the screw press gives benefits in terms of increased operational stability and a possibility to use the digestion sludge as a bio-fertiliser. A lab scale study was carried out in order to investigate the possibilities of increasing the methane production from the liquid fraction. By increasing the temperature in the mixing tank, more fat can be dissolved in the liquid phase in the slurry and be separated to the liquid fraction. According to the results of the study, the energy production could increase with close to 40 % if the fat concentration in the liquid fraction is increased by 35 %. Experiments carried out with electroporation of the waste show that an increase of the dissolved organic matter can possibly be achieved but th at the energy input that is required exceeds the benefit. The conclusion is that the screw press is efficient in separating unwanted material but that improvements are required in order to minimise the loss of methane

  20. Survey of development work and problems with different collection techniques of food waste; Kartlaeggning av utvecklingsarbete samt problem vid olika insamlingstekniker foer matavfall

    Energy Technology Data Exchange (ETDEWEB)

    Henriksson, Gunilla

    2010-07-01

    In accordance with Sweden's environmental objectives it has been decided that, by 2010, 35 per cent of all food waste shall be recovered through biological treatment. In order to get there, the problems regarding collection methods needs to be solved. There are several different collection systems to choose between, but at the present time there is no complete list of the methods and techniques available on the market. Lists of advantages and disadvantages with each system, of potential improvements, and of completed or ongoing development projects are also missing, and creating difficulties for municipalities and businesses which are planning on introducing a system. The goal with this study is to provide a survey of technical problems with different systems and to identify previous studies as well as new innovations within collection techniques. The expectation is that this work eventually will lead to improved collection systems. The study will cover existing collection techniques in households, large-scale kitchens, restaurants and grocery stores in Sweden. The study will only cover the so called hard parameters, i.e. primarily technical issues. The target group is on the one hand municipalities planning on starting collection of food waste and on the other hand all actors in the area, such as innovators, producers and suppliers as well as Waste Refinery's organizations. Soft issues such as issues regarding information and quality are not included. The system limits of this project span between the recycling equipment of homes and businesses to the food waste's treatment at the biological treatment plant. The methods that have been used in this project are: questionnaire survey to 133 municipalities that today are recycling food waste, telephone interviews with a number of biological treatment plants and innovators in the business, and Internet searching for relevant reports and studies in the field. The results show that the paper bag and the bioplastic bag both have shortcomings. Many of the shortcomings are related to the supplier/producer. Other problems such as misplaced waste, problems with mould, fly-maggots/flies etc. can be solved with information. Problems as corrosion on the collection vehicles and metallic substance in the plant have also been observed. A common problem when it comes to stores is how to best treat packaged material. Today there are treatment plants that treat certain packaged food waste, but a solution for glass is still missing. An issue which is not directly linked to the producer or the supplier is the issue of standardization of sorting equipment in kitchens. Many kitchens have own sorting equipment under the sink where the bags rarely fit. This leads to the bags being used in the wrong way. An important project would therefore be to gather the waste industry and kitchen suppliers to try to come up with a solution to this. There are a lot of technical problems in the process as arise when the biogas plant will digest the food waste as not are a homogenous material. The plants inquire for more effective technology for pretreatment the food waste and this could be a new research working. All that somehow affects the quality of digestate and compost are of interest to Waste Refinery, since quality issues are and will continue to be main issues within biological treatment

  1. System analyse cellulose ethanol in combines - Combustion characterisation of lignin from cellulose based ethanol production; Systemanalys foer cellulosabaserad etanol i kombinat - Foerbraenningskarakterisering av lignin fraan cellulosabaserad etanolproduktion

    Energy Technology Data Exchange (ETDEWEB)

    Lindstedt, Jan; Wingren, Anders; Magnusson, Staffan; Wiinikka, Henrik; Westbom, Urban; Lidman, Marcus; Groenberg, Carola

    2012-02-15

    In this work 3 different hydrolysed lignin fractions produced from Sugarcane Bagasse, Spruce and Wheat Straw were burned in a 150 kW horizontal furnace equipped with a powder burner to assess the combustion behaviour of hydrolysed lignin fuels. The combustion experiments showed that the feeding properties of all three lignin fractions were better compared to ordinary wood powder

  2. Biological recipient control at the Ringhals nuclear power plant. Annual report for 2011; Biologisk recipientkontroll vid Ringhals kaernkraftverk. Aarsrapport foer 2011

    Energy Technology Data Exchange (ETDEWEB)

    Jansson, Maria; Gustavsson, Frida; Fagerholm, Bjoern

    2012-07-01

    The cooling system of the Ringhals nuclear power plant affects the fish community in two steps. In the first step, seawater is used to cool the system in the nuclear power plant. Fish eggs, larvae and small juveniles are carried by the incoming water and are exposed to risk of damage or mortality. In the second step the heated water is released back into the sea, where the fish is affected by the increase in temperature. Reactor 1 and reactor 3 at Ringhals nuclear power plant produced electricity during the major part of the year 2011, with exceptions for the annual audits, and shorter stops in production. Reactor 2 only operated between January and April, due to a fire which led to a shutdown and a thorough remediation work during the rest of the year. Reactor 4 was producing electricity from January to June, but was later shutdown due to a prolonged annual audit until November. Fish eggs and fish larvae are sampled in the incoming cooling water using a modified Bongo net to monitor losses of eggs and larvae in the nuclear power plant. The abundance of shorthorn sculpin larvae (Myoxocephalus scorpius) has decreased since the sampling period started, although it is still the most abundant larvae. Also the abundance of rock gunnel larvae (Pholis gunnellus) has decreased over the years. To sample juvenile fish a modified Isaacs-Kidd midwater-trawl is used. This sampling is mainly focused on glass eels (Anguilla anguilla). The abundance of glass eels have declined strongly since the beginning of the 1980's, but a minor increase was observed in 2011. The decline of the glass eel abundance is most probably due to a general decrease in recruitment and not to a local effect caused by the nuclear power plant. The effects of the heated water released into the sea are monitored by fykenet surveys in the recipient as well as in a reference area. These two areas are monitored in two seasons to compare differences between the two areas in naturally cold and warm water of the two seasons. There was a different development in the diversity of fish between the two areas in the cold season, where the recipient showed a decreasing trend in diversity and the reference area was stable with no trend. This is possibly an effect of the warm water emissions. Species which prefer warm water have been observed to concentrate in the recipient area. Eel and shore crabs (Carcinus maenas) are good examples, showing either stable or increasing catches in the area. Species which prefer cold water, as cod (Gadus morhua), shorthorn sculpin (Myoxocephalus scorpius) and eelpout (Zoarches viviparous) were less abundant in the recipient. No new findings for Swedish water of marine alien species were made in a scuba diving survey in four shallow areas near the outlet of cooling water from Ringhals (Ringhals udde, Baatafjorden, Norra Horta and Vendelsoe). Four species already established on the Swedish west coast were found however, the japanese oyster (Crassostrea gigas), two species of red algae Dasya baillouviana, Bonnemaisonia hamifera and one brown algae, the japanese wireweed (Sargassum muticum)

  3. Assessment of two techniques for drying of easily degradable organic bio-waste; Bedoemning av tvaa tekniker foer torkning av laett nedbrytbart organiskt matavfall

    Energy Technology Data Exchange (ETDEWEB)

    Raaholt, Birgitta; Bergstroem, Birgitta; Broberg, Agneta; Holtz, Emma; Nordberg, Ulf; Del Pilar Castillo, Maria; Baky, Andras

    2011-10-15

    In 2010, all food waste from the Swedish food industry would, according to national environmental goals, be recycled through biological treatment. For food waste from households and food establishments, the corresponding goal is at least 35%. The project aims to explore the potential for reducing costs and energy consumption, as well as decreasing the environmental impact, by decreasing the moisture content of food waste. Dried food waste has a long shelf-life and can be used as a bio fuel substrate together with other material of low dry matter content. It is expected to increase the bio fuel potential by improved possibilities to control the organic load. The storage costs are also reduced, as is the collecting frequency. Additionally, collecting can be done from a larger number of collecting points at the same occasion. Furthermore, the collection vehicle does not need to be equipped with collecting trays for silage effluent from the food waste. Since dried food waste can be stored for a longer period, this results in more optimal use of the energy of the food waste. The dried material requires neither decomposition nor sieving, has a very high purity degree (>99%), and does not result in reject material at treatment. The nutritional content of the dried material was also in principle intact. Composting of food waste from households was performed as a practical reference, in laboratory scale. The results show that rehydrated dried food waste works as good as a conventional compost fraction. However, the material has a tendency to dry out faster than conventional compost. Further rehydration may therefore be needed during the process. In this project, an assessment was made of two possible techniques for drying readily biodegradable organic waste: microwave vacuum drying of waste from food establishments and air-drying of food waste from households. The techniques were compared individually with current systems for handling waste, with respect to quality of the incoming material to treatment plants, energy consumption, cost, and climate impact. The quality of the dried material was evaluated with respect to purity degree, shelf-life stability, nutritional content, bio fuel potential and rehydration properties. In the system analysis, each drying technology, combined with a supposed subsequent digestion process, was compared to today's system for collection and digestion of food waste. An initial assessment of the potential of the microwave-vacuum drying process was made, as an alternative technique for hygienisation of food waste which contains animal by-products (ABP). The results indicate that the microwave process would be possible to adjust, in order to meet the time-temperature requirements for hygienisation. However, complementing studies are required to optimise and control the process towards the required microbiological reduction. Dried material has, as expected, advantages from both an odour and storage point of view; the lower water content corresponds to lower water activity and accordingly longer shelf-life and reduced risk for e.g. mould growth and odour. Even if energy is needed for drying the material, there are environmental advantages at collection of food waste (at transport distances less than about 50 km). Digestion experiments showed that dried food waste from households in Goeteborg did not result in any significant differences in methane exchange, with regard to organic matter (VS), expressed as m{sup 3}CH{sub 4}/tonne VS, compared with fresh food waste. Dried waste from food establishments in Boraas showed significantly lower methane exchange, with respect to organic matter (VS), than fresh food waste. The reasons for this need to be further investigated. A project delimitation was that the techniques were evaluated based upon food waste which was collected during a relatively short period of time. The target group of the project is the Swedish food industry, personnel responsible for waste collection, as well as owners of plants for biological treatment of food waste. The results of th

  4. Intelligent soot blowing for boilers co-firing waste and biofuel; Behovsstyrd sotblaasning foer bio- och avfallseldade pannor - inventering och teknikval

    Energy Technology Data Exchange (ETDEWEB)

    Kjoerk, Anders [S.E.P. Scandinavian Energy Project AB, Goeteborg (Sweden)

    2003-11-01

    To achieve optimum boiler operation and performance it is necessary to control the cleanliness and limit the fouling of the heat transfer surfaces. Historically, the heating surfaces in boilers firing biomass and waste are cleaned by steamblowing soot blowers on scheduled time-based and/or parameter-based intervals or by mechanical methods. With the advent of fuel switching strategies and use of mixed-in industrial waste, the control of heating surface cleanliness has become even more crucial for these boilers. Scheduled and/or parameter based approaches do not easily address operational changes. As plant operators push to achieve greater efficiency and performance from their boilers, the ability to more effectively optimize cleaning cycles has become increasingly important. If soot blowing is done only when and where it is required rather than at set intervals, unit performance can be maintained with reduced blowing, which saves steam. Two philosophical approaches toward intelligent soot blowing are currently being applied in the industry. One incorporates heat flux monitors to gather real-time heat transfer data to determine which areas of the furnace need cleaning. The other uses indirect temperature and pressure data to infer locations where soot blowing is needed, and is mainly applied for controlling soot blowers in the superheater and economiser area. The heat flux monitors are so fare used for control of the furnace wall blowers. A system using temperature, pressure and flow data does not require much additional instrumentation as compared with what is available on a standard boiler. However the blower control system must be capable of operating blowers on an individual basis. For advanced options it should also be possible to adjust the speed of the soot blower and the steam pressure. The control program could be more or less advanced but the ability to model heating surfaces and determine real-time cleanliness is crucial for an intelligent soot blowing system. Both boiler manufacturer and company dealing with soot blowers work with this issue and have a set of different solutions, all of them based on some kind of modelling of the boiler heat transfer surfaces. A model is needed to take the load changes and fuel switches into account. An intelligent soot blowing system should be easy to tune and adjust depending on the actual experience gained on each installation. It is also important that the system still works without jeopardy the availability of the boiler even if any instrument fails. As a first step it is therefore advisable to start with an indicative system which then when it is proved to be safe could control the soot blowing. From an economical point of view large boilers with many hours in operation are best suited for an intelligent soot blower system installation.

  5. Tools for system validation. Dynamic modelling of the direct condenser at Sandvik II in Vaexjoe; Hjaelpmedel foer systemvalidering. Dynamisk modellering av direktkondensorn paa Sandvik II i Vaexjoe

    Energy Technology Data Exchange (ETDEWEB)

    Raaberg, Martin [Dynasim AB, Lund (Sweden); Tuszynski, Jan [Sycon Energikonsult AB, Malmoe (Sweden)

    2002-04-01

    The project reported here aimed to test the suitability of existing computer tools for modelling of energy processes. The suggested use for the models are at the early tests and validations of new, refurbished or modernised thermal plants. The technique presented in this report should be applicable for clarification of the scope of delivery and testing for both the process and tile control system. The validation process can thus be simplified, allowing risk reduction and predictability of the commissioning. The main delays and economical misfortune often occurs during commissioning. This report should prove the feasibility of the purchase routines where purchaser, vendor and quality inspection will use a common model of the process to validate system requirements and specifications. Later on it is used to validate structure and predefine testing. Thanks to agreement on the common model, early tests can be conducted on complex systems, minimizing the investment risks. The modelling reported here concerns the direct condenser at Sandvik 11, power and heating plant owned by Vaexjoe Energi AB in Sweden. We have chosen the direct condenser because it is an existing, well-documented and well-defined subsystem of high complexity in both structure and operation. Heavy transients made commissioning and test runs of similar condensers throughout Sweden costly and troublesome. The work resulted in an open, general, and physically correct model. The model can easily be re-dimensioned through physical parameters of common use. The control system modelled corresponds to the actual control system at the Sandvik II plant. Any improvement or deep validation of the controllers was not included in this work. The suitability is shown through four simulation cases. Three cases are based on a registered plant operation during a turbine trip. The first test case uses present plant data, the second an old steam valve actuator and the third uses the old actuator and an error in level measurement. The last test case is a ramped load change from stationary operation to a new higher operation point and then back to the original starting point. The size of the object simulated indicates that modelling is applicable to medium and small plants sizes. That was possible only through availability of the basic simulation tools, here Dymola / Modelica, and the well established model library ENERGY. All adapted to the common PCs of today.

  6. Importance of Ectomycorrhiza fungi to make nutrients available and reduce nitrogen losses in forests. Final report; Ektomykorrhizasvarnpars betydelse foer att frigoera naering och motverka kvaevefoerluster i skogar. Slutrapport

    Energy Technology Data Exchange (ETDEWEB)

    Wallander, Haakan [Lund Univ. (Sweden). Dept. of Ecology

    2004-09-01

    All our forest trees live in symbiosis with ectomycorrhizal (EM) fungi and these fungi are important for the nutrient uptake of the trees. The mycelia grow out from root tips and colonize the soil, which increase the nutrient-absorbing surface. Our results suggest that the composition of EM species changes after wood ash fertilization and the amount of EM mycelia increases. We did not find any indication that wood ash fertilization reduced the capacity of EM fungi to take up nutrients from the soil. Whole tree harvesting had no measurable effect on the EM fungi. Our results do not suggest that EM fungi influence dissolution of wood ash but we have seen that some EM fungi can increase dissolution of P containing minerals such as apatite, especially if the trees are deficient in P. No similar increase in dissolution of K containing minerals was found. These results are important when modelling long-term productivity of forests. We did not find any important role of EM fungi in releasing heavy metals from wood ash. We found that EM fungi can retain considerable amounts of N in the soil and that EM mycelia are important in reducing nitrate leaching from forest soil.

  7. Products based on the mixes of fly ashes and fibre sludge (fibre-ashes) for road construction; Produkter baserade paa blandningar av flygaska och fiberslam (fiberaskor) foer vaegbyggande

    Energy Technology Data Exchange (ETDEWEB)

    Lahtinen, Pentti; Maijala Aino; Macsik, Josef

    2005-03-01

    The project has derived benefits from the earlier Finnish research and development as well as from the experience in the fibre-ash materials for geotechnical applications. The fly ashes used for the project have been taken from the same sources as the fly ashes for the earlier Vaermeforsk project 870: FACE. The project's objective was to develop construction materials based on mixtures of fibre sludge and fly ash for geotechnical applications, and for the final commercialisation of the fibre-ash materials. The mixtures are based on fly ashes from energy production (bark, peat and sludge used for incineration) and on kaolin containing fibre sludge from the paper industry. With help of laboratory tests the project has been searching for fibre ashes with excellent technical characteristics like good frost resistance combined with a good bearing capacity and resilience in geotechnical structures. The project's results has given additional knowledge about alternative road construction materials to construct technically good, sustainable and environmentally friendly roads and other constructions with lower costs than the conventional constructions. The results of laboratory tests have shown that this is possible. However, it has to be verified with help of field tests and pilot constructions. The first tasks of the project were to make choices of the appropriate fibre sludge and fly ashes for the project targets. The laboratory tests have been carried out in the geotechnical laboratory of Ramboll Finland Oy (earlier SCC Viatek Oy, SGT - later in the report SGT). After arrival of all test material in the laboratory the test programme started in order to find out the most optimal fibre-ash mixtures with or without any activator. The most potential mixtures were tested for their geotechnical long-term properties (mainly resistance against climatic load) and for their environmental risk potential. The results comprise of several technically, environmentally and economically potential fibre-ash mixtures and recommendations for their further development with the help of field tests and test construction. The most noteworthy benefits of the fibre ashes as soil construction materials are their elasticity and resistance against permanent deformation. These properties make the fibre-ash materials significantly more frost resistant than the conventional materials. Also, the fibre-ashes are easier and simpler to use in the construction process than the fly ashes because the fibre-ashes are practically dust-tight materials. The results of the project will be background information for the further studies, and for the guidelines and commercialisation of e.g. road construction with fibre ashes.

  8. Availability assessment and risk assessment regarding handling and preparation of biomass in combustion plants; Tillgaenglighets- och riskbedoemning av system foer hantering och beredning av biobraensle i foerbraenningsanlaeggningar

    Energy Technology Data Exchange (ETDEWEB)

    Biguen, Helen; Bodlund, Gunnar; Dahlloef, Lars; Pettersson, Lars [SwedPower, Stockholm (Sweden)

    2005-04-01

    In the design of new, or refurbishment of old, bio-fuel fired plants, the design of the fuel-handling systems is often based on experiences from existing plants. The size of the bio-fuel storage is decided from fuel consumption during a long holiday with no transports, and available storage area on the site. Auxiliary capacities and redundancies in the bio-fuel handling systems are often determined by investment costs rather than by life-cycle costs. Risk analyses are realized according to Swedish legislation for Occupation and Health and its regulations for work in environment with risk of explosion. The plant is designed to minimize the risk for explosion and also to minimize the consequences of an explosion. The plant is provided with fire protection functions according to applicable legislations and regulations. Safety functions can either be passive as physical separations or active as different kinds of detecting and consequence reducing systems. The aim of this report is to emphasize the use of quantitative tools for analysis to evaluate alternative system designs from the viewpoint of availability and risk. The availability analysis gives the opportunity to quantitatively analyse suggested alternative solutions of a system and to study the influence of redundant system functions, storage volumes etceteras. The analysis also gives the opportunity to evaluate effects on manning, work on three shifts or daytime with extra duty on call, as well as the optimization of spare parts toward delivery times and agreements for service. The probabilistic risk analysis gives opportunities to place in order of precedence and quantitatively evaluate the effect on total risk from suggested passive protective measures and different types of active protection functions such as fire sprinkling. The methods of analysis are above all an aid and support to optimize system design and life cycle cost during the design phase. During continuous operation the quantitative analyses are tools to identify measures for improvements and rehabilitation and identifying changes on the risk picture by e.g. changing of fuel or legislation. Accomplishment To describe the methods of analyses a number of reference plants have been defined, five wood-chips fired plants and one wood-dust fired plant. The ambition of the choice of reference plants has been to imitate an average of existing bio fuel handling plants without pointing out any specific plant. Basic input to the analysis expressed as mean time between failures, mean down time, failure frequencies and failure probabilities are estimated from representative bio-fuel handling systems. Based on experience the fuel handling plant contribute to in the order of magnitude 0.5% of the total unavailability for a whole plant. In this case where same component related unavailability data are used for every reference plant it is seen that the more complexity a plant show the higher the unavailability compared to to smaller and more simple plants. At the same time the larger plants have more redundant system functions. The relation between unavailability and complexity can be seen in the diagram below, figure 1, where 'Wood ships 5' has significant greater amount of separate feeding for fuel to the boiler. Independent evaluations has been done on how the size of bio-fuel storage and manning influence availability for the fuel handling plant. The analyses shows that for reference plants a intermediate fuel storage with capacity corresponding to at least 4 hours full load operation has positive influence for availability. At the same time results shows that continuous manning have no significant effect on availability. The probability risk analysis is developed from activities as aviation and nuclear power, activities with big demands on identifying and reducing risks. The risk for fire or explosion in two reference plants are analysed with fault tree technique. The sequences of events with potential for fire or explosion as well as critical functions are identified with FMEA technique. At the same time fault frequency and fault probability for the events included in fault tree are estimated. The events are for example presence of combustible material, ignition source, functioning fire sprinklers. The fault trees are modeled in a commercially accessible calculation program. The evaluation shows that the frequency for 'fire or explosion' is about 3 times/year. A study was done to evaluate the parameters that can contribute to reduce risk from other risk mitigating functions. Our conclusion is that both the systematic availability analyses and the probabilistic risk analyses have potential, correct applied, to be the tools to support decisions in a planning phase. Both during design of new plant or refurbishment of old plants. At the same time analysis shows that simplified analysis with rough but relevant input give significant answers to the questions. The models of analyses prepared during a project period should be alive during the continuous operation. Faults and disturbances in the plant should be continuously analysed and thus influence availability and fault data for individual components and functions. This might be done when working orders are reported, without increasing the burden of paper work on the operating organization. The support for decision given by the analyses is valuable when refurbish proposals are evaluated and may give answers to the question if the plant fulfill future legislation and regulations.

  9. The effect of cleaning on materials wastage in biomass and waste fired power plants; Sotningens inverkan paa materialfoerluster foer bio- och avfallseldade pannor

    Energy Technology Data Exchange (ETDEWEB)

    Hjoernhede, Anders; Henderson, Pamela

    2006-03-15

    The reason for this study is the relatively large material loss caused by soot blowing of heat exchange surface in waste- and biomass fired boilers. The material losses depend on the method of cleaning: Normally soot blowing with a relatively high pressure is used in order to remove deposits on super heater tubes. However, this also damages the tube material. Earlier theories state that the material losses are caused by erosion or rather erosion-corrosion of the tube surface. There is a clear evidence for the existence for this type of damage, but it is often caused by badly adjusted soot blowing equipment. However, even well adjusted equipment causes accelerated metal loss, albeit lower than with badly adjusted soot blowers. This type of material loss is caused by the removal of the outer molten deposit layer. This outer layer of deposit actually acts as a barrier to corrosive species diffusing inwards towards the oxide and uncorroded metal. There is a lamellar oxide under this deposit, which is especially protective if it contains Cr{sub 2}O{sub 3}, MoO{sub 3} or Nb{sub 2}O{sub 5}. The lamellar oxide is damaged by the defects produced by the soot blowing and the diffusion of corrosive species into the metal tube. Since molybdenum probably through molybdenum oxide seems to reduce metal losses due to soot blowing, alloys containing molybdenum should be used. The addition of sulphur, or sulphur compounds like ammonium sulphate reduces the deposit growth rate by about 50%. This means that the soot blowing frequency and therefore metal losses are reduced. There is also an indication that certain metals or alloys reduce the tendency for deposits to stick to tubes. Coating with pure nickel is one example of this, but as nickel is sensitive to soot blowing it is not possible to use nickel in areas affected by soot blowing. A common way of reducing metal losses is to mount tube shields on the most affected tubes. These shields are changed regularly. Normally expensive austenitic stainless steels have been used. Cheaper materials like SiCromAl could be used instead. Research indicates that it is beneficial to leave some deposits on the tube, i.e. not to clean completely. A reduction in the soot blowing pressure or frequency also reduces metal losses.

  10. The use of indentor testing in determining the creep properties locally - a review; Nyttjande av indentorteknik foer bestaemning av krypegenskaper lokalt - litteraturstudie

    Energy Technology Data Exchange (ETDEWEB)

    Andersson, Peder [Det Norske Veritas AB, Stockholm (Sweden)

    2000-07-01

    A review has been performed with the purpose of examining what has been published regarding the creep indentation technique. In the reference list a selected choice of published papers is presented. Furthermore, the use of the technique is explained, a presentation is made of the parameters that are possible to determine and, finally, the limitations of the technique are discussed. In the investigated publications, the theoretical aspects of the indentation technique are discussed, as well as the possibilities of applying the technique in practice. From the published material, it is obvious that creep indentation testing is a technique suitable when the creep deformation properties of a material are to be determined. It seems though, that the technique so far mostly has been used in academically designed experiments and not in a larger industrial scale. The creep indentation testing technique seems to be a good complement to conventional uniaxial creep testing in determining the creep deformation properties of a material. Especially in testing of the creep deformation properties of weldments and parts of weldments, such as HAZ, the indentation testing technique can prove to be advantageous, as only a small amount of material is needed. In the line of business of plants operating in the high temperature range, where materials experience creep, there should be an interest in seeing a development of a testing standard for the creep indentation technique. This could be performed by doing a more comprehensive analysis of a selected choice of published papers, putting together their differences and similarities after which verifying experiments are pursued. In the end, it should be possible to come up with a draft standard for creep indentation testing.

  11. China and climate cooperation. Possibilities for the future. A country study for the Swedish Environmental Protection Agency; Kina och klimatsamarbete. Foerutsaettningar foer framtiden. En landstudie aat Naturvaardsverket

    Energy Technology Data Exchange (ETDEWEB)

    Nordqvist, Joakim

    2004-07-01

    A commitment to the promotion and facilitation of technology transfer from industrialised to developing countries is integrated in the Climate Convention. Ideas about what constitutes such promotion and facilitation, however, differ amongst stakeholders. From a Chinese perspective, the understanding of these concepts is wholly oriented towards tangible and government-driven action. This view contrasts the Western focus which gravitates more towards governance and incentive structures. Whereas a business project under the CDM, by Western standards, might well be considered as an element and act of technology transfer, such a stance can be indignantly viewed by the Chinese as a violation of the very spirit of the Climate Convention. They expect governments, not business, as actors. In China's view, the obvious lack of attention so far paid to real technology transfer in the climate context is an evident sign of Western nations' unwilling and hypocritical attitude towards concrete undertakings and actual delivery. Therefore, a significant step in the preparations for new agreements and treaties would be to explicitly bring this topic to the fore. In order to build faith one must first create an overarching understanding about the fact that preconceptions about technology transfer are dependent on social order and context, as are the conditions for its promotion. It is essential that discussions are held, which address the often ignored or unrecognised differences of view that rankle this part of the international climate process. As long as such an opening is not achieved, it is hard to see how these fundamental variances are to be bridged and constructive agreements reached. For example, it is unlikely - in view of China's centralistic and government-focused views on technology transfer - to win Chinese support for international climate co-operation whereby, rather than governments, actors within certain branches of industry are contracting parties. A spontaneous embryo of something to this effect can nevertheless be observed within the global cement industry. On China's part, there is interest instead in climate-related technical co-operation within the energy field. Similarly to China, the United States rely on a large share of fossil coal within their energy supply. Consequently, as the two countries in this respect may be thought to face similar technical challenges, China anticipates that there will be room for an expanded exchange of mutually beneficial knowledge, experience and technology. In relation to the European Union, where the proportion of coal in the energy supply is considerably smaller, it is instead the developments within renewable and alternative energy sources, which attract Chinese interest. This field is also one where Sweden may be well suited for participation. China is a vast country with a complex structure of governance. This is an important fact to remember when assessing and trying to understand Chinese positions - not least in the context of climate co-operation. There are, in all, few domestic actors, who possess insight and competence in China's climate politics. The ones there are, are all to be found on a central level, whereas the decisions that in reality affect actual climate performance are made by a multitude of completely different actors, who far from seldom are out of pace with respect to the preferences of the central leadership. Tradition, however, decrees an appearance of outward unity and conformity, obscuring domestic dissension as well as chinks in the observance of policies. Instruments to promote incentives for increased actor involvement are already part of a Chinese wish list. Much could probably be gained in this respect from an increase of transparency within public administration - as well as in its relation to business and industry. Reliable reporting and policy compliance are constant items on the agenda of environment politics in China, and although much has been accomplished during the past thirty years, grave problems still abound. Industrial emissions in China could, however, be significantly reduced if a presumptive and progressively greater openness in reporting were to spread, leading, in turn, to increased possibilities for the implementation, control and enforcement of already existing policies and laws. In conclusion, the following items of importance may be underlined: Realistic expectations based on an awareness of China's priorities. Platforms for sincere dialogue untainted by matters of prestige. An agenda that recognises the needs and the situation of developing countries. China's climate ambitions, rather than its prospective commitments. Use and progression of already gained momentum and consonance (such as the CDM). An earnest readiness to address different understandings of what technology-based international climate co-operation should encompass.

  12. Possible consequences of climate change on the Swedish energy sector - impacts, vulnerability and adaptation; Taenkbara konsekvenser foer energisektorn av klimatfoeraendringar. Effekter, saarbarhet och anpassning

    Energy Technology Data Exchange (ETDEWEB)

    Gode, Jenny; Axelsson, Johan; Eriksson, Sara; Holmgren, Kristina; Hovsenius, Gunnar; Kjellstroem, Erik; Larsson, Per; Lundstroem, Love; Persson, Gunn

    2007-06-15

    The events of recent years clearly demonstrate the far-reaching consequences of extreme weather situations on the energy system, particularly in the case of severe damage to transmission lines in connection with violent storms. Many climate researchers predict an increase in extreme weather events. Against this background, in 2005 Elforsk initiated this project where the aim has been to examine how climate change can affect plant operation, production conditions and energy usage patterns, how undesirable consequences can be predicted and what long-term measures may be necessary. Another central objective has been to bring about a dialogue between climate researchers, energy consultants/engineers and buyers for the energy industry. The inclusion of both positive and negative consequences has been an important ambition of the project. One key aspect of the project has been to develop climate scenarios for the next 20-25 years that describe possible changes in climate variables with relevance for the energy system. Based on these and literature studies, contact with experts and internal assessments, an analysis has been made of the possible impacts on hydropower, wind power, biofuel supply, natural gas supply, the power transmission network and energy usage. The project findings, which have also been discussed at a workshop with representatives from the energy industry, did not reveal any acute need for adaptation aside from those measures already being taken, for example to make the transmission system less vulnerable to weather conditions. Furthermore, the results indicate increased production potential for both hydropower and wind power. The production potential for hydropower stations from the Dalaelven River northwards would appear to increase by 2-10%. Estimates for the southern watercourses are less certain, but the production potential may decrease. Since around 80% of the country's hydropower is produced in the northern watercourses, this indicates an increase in Sweden's overall production potential. For wind power, the growth potential is 5-20% based on an installed capacity of 4000 MW. It is also a possible that the bioenergy potential will increase in view of the predicted 5-10% growth in production potential for forestry and agriculture. On the other hand, the extent to which this potential will be used for bioenergy production is uncertain since is it strongly dependent on the price of biomass and use of biomass for other purposes. Some of the climate-related problems that exist today may lessen in scope, while others may increase and new problems arise in a future climate. It is difficult to assess future wind conditions, since different climate scenarios produce somewhat different results. Among other things, an increase in heavy winds could have a negative impact on the electricity transmission network, wind power, biofuel supply and natural gas supply. However, the natural gas platforms that supply Sweden have proven highly robust and weather resistant. For the transmission network, a number of measures are being taken to increase its robustness to extreme events. Thunderstorms are another somewhat unpredictable climate variable. The analyses made in the project indicate a possible increase in problems related to lightning overvoltage in the transmission network. An additional area that is complex to assess is how problems with icing of transmission lines and wind power plants can change in a future climate. It is probable that these problems will increase in certain areas, but decrease in others. In certain parts of Sweden, evaporation may exceed precipitation and give rise to a water shortage. This applies particularly to the southeastern part of the country, which could affect the biofuel supply and hydropower generation in these areas. An opposite problem is that of future floods, which may increase especially during the winter season and in central and northern Sweden. Flooding has no direct connection to hydropower other than the ability for regulation to control water levels. However, hyd

  13. Residential energy efficiency: changes in household chores for women and men; Energieffektivisering i bostaden. Foeraendringar i hushaallsarbete foer kvinnor och maen

    Energy Technology Data Exchange (ETDEWEB)

    Carlsson-Kanyama, Annika; Wulff, Petter [Swedish Defence Research Agency, Stockholm (Sweden); Linden, Anna-Lisa [Lund Univ. (Sweden)

    2005-12-15

    A substantial amount of energy is used in the residential sector. Many of the measures that residents can apply by themselves to save energy demand a change in behaviour, and thus everyday life is altered. It is common for women and men to take on different responsibilities in the household when they live together. Women spend more time on household chores and take the main responsibility for washing and cooking. In this study, we investigated how behaviour changed when women and men took part in various types of energy-saving campaigns. The data were obtained through 30 interviews in four different locations in Sweden. The results showed substantial adaptation and changes in behaviour. Examples included lowering room temperatures during the night, avoiding the use of tumble-dryers, replacing baths with showers, turning off lights, using energy-saving light bulbs, cooking and washing during hours when electricity is cheap and refitting the house for higher energy efficiency. The changes needed for this adaptation imply that women take on new responsibilities in areas that are their traditional territory, including many tasks carried out on a daily basis such as washing and drying clothes. Men often take on new responsibilities within the sphere of their traditional territory, such as building alterations or installing new equipment. These tasks are typically carried out during short periods and are mainly relevant in owner-occupied residences.

  14. Evaluation of electrochemical techniques for measurement of fireside corrosion in thermal power plants; Utvaerdering av elektrokemiska tekniker foer maetning av roekgassidig hoegtemperaturkorrosion i pannor

    Energy Technology Data Exchange (ETDEWEB)

    Hjorrnhede, Anders

    2007-12-15

    The possibility to measure the corrosion rate on-line, in situ, is getting more and more interesting due to increased corrosion. The worsening may be a result of lower fuel quality or increased steam data due to raised efficiency demands. Also the use of inhibitors can be improved and the lifetime of important components can be increased. Today, virtually all corrosion measurements of materials used for waterwalls, superheaters, economisers and other heat-transferring surfaces are based on in-situ probe tests of coupons or rings. The aim of the project is to evaluate the practicability of commercial or semicommercial on-line in-situ corrosion probes for use in waste fired boilers. The target groups are owners of boilers, operators, service personnel but also boiler manufacturer and material producers. Since the use of on-line, in situ, corrosion probes is substantial, some of the most promising corrosion probes have been tested in a waste fired boiler in Hamburg, Germany. Tests in waste fired boiler have never before been performed. The MECO CB, a Linear Polarisation Resistance (LPR) corrosion probe from Coresto Oy, Finland was tested and from Lehrstuhl fuer Umweltverfahrenstechnik und Anlagentechnik (LUAT) der Universitaet Duisburg-Essen, Germany an Electrochemical Noise (EN) - probe was tested. From Pepperl + Fuchs both EN- and LPR-CorrTran corrosion sensors were tested. The test periods were lasting from 1050h to 3750h. The test materials were the low alloyed steel 15Mo3, the Ni-based super alloys Sanicro 63 and Haynes Hastelloy C-2000. The fluegas temperatures were 635 deg C or 520 deg C. The material temperatures were 440 deg C, 420 deg, 350 deg C and was swept from 400 deg C to 300 deg C. All probes are measuring a signal which has a correlation to the corrosion process, but the quantification procedure is not working well. The results achieved from the corrosion probes must be calibrated against corrosion rates measured by means of conventional corrosion probes in order to determine the exact corrosion rate. However, a correlation between the temperature and the corrosion rate exists. The practical use of the on-line corrosion probes is in use together with conventional corrosion probes. Either should the quality of the measured corrosion rates given from the corrosion probes increase or the post treatment of the data must be standardised in order to avoid different kind of influences on the results

  15. Water Activities in Forsmark (Part I). Removal of groundwater from final repository for spent fuel; Vattenverksamhet i Forsmark (del I). Bortledande av grundvatten fraan slutfoervarsanlaeggningen foer anvaent kaernbraensle

    Energy Technology Data Exchange (ETDEWEB)

    Werner, Kent (EmpTec (Sweden)); Hamren, Ulrika; Collinder, Per (Ekologigruppen AB (Sweden))

    2010-12-15

    The construction, operation and decommissioning of the repository for spent nuclear fuel in Forsmark are associated with a number of measures that constitute water operations according to Chapter 11 in the Environmental Code. This report is an appendix to the Environmental Impact Assessment (EIA) and describes water operations in the form of groundwater diversion from the repository (the report is also included in the permit application according to the Nuclear Activities Act). The main objective of the report is to describe hydrogeological and hydrological effects and the consequences that may arise in the surroundings of the repository due to the groundwater diversion. Moreover, the report presents prevention measures to reduce the effects of the groundwater diversion and mitigation measures that aim at its consequences

  16. Quality criteria for bottom ashes for civil construction. Part II Technical characteristics of bottom ashes; Kvalitetskriterier foer bottenaskor till vaegoch anlaeggningsbyggnad. Etapp II Bottenaskors tekniska egenskaper

    Energy Technology Data Exchange (ETDEWEB)

    Bahr, Bo von; Loorents, Karl-Johan; Ekvall, Annika; Arvidsson, Haakan [SP Swedish National Testing and Research Inst., Boraas (Sweden)

    2006-01-15

    This report is the presentation of the second of two stages. This stage deals mainly with the testing of three different types of ashes and the evaluation and suitability of the chosen test methods. The project only relates to the technical aspects of ashes. The report is written in such a way that both ash owners (e.g. Energy companies) and those who build roads and constructions will find it meaningful. All test methods that are used for traditional materials (gravel and crushed rock) is not fitting for ashes. New test methods for some properties that will be tested must therefore be presented, tested practically and evaluated. The project encompasses both road and construction building but has a focus on road construction since there the highest and comprising demands are defined. Three bottom ashes of different types have been studied regarding some tenfold mechanical/physical parameters, essential for the functionality of the ash as a construction material. An important conclusion is that ash is from a functionality and characterisation point of view, an undefined concept that encloses materials with widely different properties. Despite that only three ashes have been looked into the range of results are varying large for some properties. This is especially true for the loose bulk density, water absorption and grain size distribution. It is also clear that some of the standard test methods for aggregates need to be exchanged by other methods, which are more adapted to alternative materials. One such example is water absorption, a property that further influences frost resistance, frost heave and such. All the proposed test methods that been used in the project is considered fitting for its purpose. The test methods can be divided into two categories the ones that yield easy assessable results and those that yield results hard to appraise. To the first group belong grain size distribution, loose bulk density, thermal conductivity, permeability and frost heave. To the other group belong organic content, water absorption, frost susceptibility, water suction height, cyclic load triaxial test, modified compressibility and compactability. The difficulty in interpreting the results do not depend on the methods themselves, i.e. that the method would be particularly complex, but rather due to limited data, in particular data that compares field and laboratory testing, so that one can say what a particular test result has in practise. The report forwards a suggestion for a control procedure for bottom ashes in two different cases; a less comprising suggestion for common characterisation and also an extensive suggestion for testing when the ash is to be used as a material for roador construction building. An essential conclusion is that the ashes large variation makes it difficult to generalize results based on testing single ashes. A thoroughly characterisation of ashes, e.g. according to the proposition of this report, would enable a single laboratory or field trial to be incorporated into a wider context and help create general conclusions.

  17. Systematic Process Optimization. Development of a methodology for increased controllability on the process terms; Systematisk processoptimering. Metodikutveckling foer foerbaettrad styrning paa processens villkor

    Energy Technology Data Exchange (ETDEWEB)

    Raaberg, Martin; Axby, Fredrik; Velut, Stephane; Schultz, Emma; Fredriksson Moeller, Bjoern

    2007-09-15

    Most processes are designed and constructed to manage static loads, and sometimes only one specific load. This means that the components are constructed on the basis of the static properties of the process at this load. The dynamic properties can then be suffering. In some processes the dynamic properties can be crucial for the load range where it is possible to use the components. If the range could be increased the incomes from the process could also be increased. If the process is optimized for the static properties at maximum load, the partial load properties could be sub-optimal. The process should instead be optimized for properties valid during the whole life-cycle of the process. One condition for well-functioning properties over the entire load range is a control scheme that takes the varying conditions at part load into account. In the extension this would mean that the control system controls the process with respect to the main objective of the process (which often is to earn money to the owner of the plant) at every different load. Further this would mean that the process performs at its best at all times. Still there can be large discrepancies between the limits set up by physics and the limits set up by the process layout. The aim of the project also involves finding and eliminating the limits set up by the process layout when this favors the main objective of the process. Many systems and sometimes also entire plants are purchased as so-called Turn key contracts, often with in a tight time frame. The supplier optimizes the process to fulfill the specifications for a certain load case. To handle the problems that can emerge in some specific cases at certain loads, a number of limitations are set up. These limitations can cause non optimal performance at other loads. However, based on knowledge about the process it is possible to adjust the control scheme to optimize the operation of the plant. This is implemented by controlling critical parameters, either directly or via calculations, and by making sure that the main function of every component is in focus. The aim of the project is to try to unite the two disciplines of process engineering and automatic control to be able to solve optimization problems at existing plants in an efficient way. The objective is to develop a systematic methodology to run a process at its maximum performance, based on the existing physical limitations and not the limitations put up at purchase. The flue gas condensation process has been chosen to serve as an example of the methodology. However, the aim is that the methodology should be very general so that it can be used for other systems than the flue gas condensation process and as for entire plants as well. The methodology consists of six steps including identification of tight sectors in the process and limitations in the control design, as well as identification of the possibilities to obtain improvements through modifications in the process equipment, the process itself and the control system. The six steps are described in detail, together with indications of how to tackle them practically. The implementation of the methodology includes, among other things, building a model used for analyzing the process. This is proposed to be carried out as a qualitative description of the process (tree structure model), or as a physical computational model. Furthermore a few examples of how the methodology can be used are shown. Parallel to the development of the methodology it was tested at the flue gas condensation process at Heleneholmsverket in Malmoe. A physical model of the process was built up in Microsoft Excel and the calculation results were compared with measurements from the plant. The results showed that the model was not advanced enough to be able to capture the properties of model the flue gas condensation process in a proper way. Hence the tree structure model had to be used instead. A number of possible improvements in the process were identified. These were compared with improvements that had been identified earlier, and in this way the methodology could be evaluated. During the project the differences between the work procedures in the two disciplines process engineering and automatic control were noticed. The automatic control discipline is usually more methodical, general and analytic, while the process engineering discipline is more based on experience and where specific for different processes. The more advanced methods of automatic control demand a mathematical model, which then represents the knowledge about the process. In this project problems emerged when the mathematical model showed out to be impossible to use, but by using the tree structure model many of the automatic control problems could be solved. However, the problems could not be solved specifically, i.e. no controllers could be designed and no more advanced control analyzes could be performed. Even with these problems it was shown that the developed methodology works, and the managed problems also show how robust the methodology is.

  18. Load Prediction in District Heating Systems with Regard to Scenarios and Uncertainties in Weather; Lastprognoser foer fjaerrvaerme med haensyn till scenarier och osaekerheter i vaedret

    Energy Technology Data Exchange (ETDEWEB)

    Hedberg, Martin; Koppers, Gijs [Meteopolaris AB, Nacka (Sweden)

    2011-11-15

    The report shows, by means of load calculations on ensemble weather forecasts and subsequent production planning, that by a better optimization of the operation of district heating plants the costs of production of heat and electricity can be reduced. During a fifth of the time the saving potential is 5% or more.

  19. Abatement Technologies for Volatile Organic Compounds in Emissions from Biofuel Driers; Reningsteknik foer organiska aemnen i utslaepp till luft vid biobraensletorkning

    Energy Technology Data Exchange (ETDEWEB)

    Nielsen, Karin; Ehrstedt, Thomas [Sycon Energikonsult AB, Malmoe (Sweden)

    2000-06-01

    This report is a part of a program at Vaermeforsk called Drying of Biofuels and deals with abatement technologies for volatile organic compounds (VOC) in biofuel drier emissions. The report gives an account of the amount of organic matter in wood and in drying gases and also of different abatement technologies for VOC. Processes from about 20 contractors are briefly described. The conclusions from this work are that thermal or catalytic oxidizing technologies in connection with regenerative heat recovery seems to be the most suitable technique for this application. Both technologies should give a degree of purification above 95 %. The purification cost for a typical case has been estimated to about 22 SEK per kg removed organic matter in both cases. The investment cost is higher for the catalytic oxidizer (6-20 MSEK for a 60.000 Nm{sup 3} /h catalytic plant compared to 4-6,5 MSEK for a thermal plant) but the fuel cost is lower. Condensation is a usable technique but it suffers from bad degree of purification. By using a wet electrostatic precipitator (WESP) the degree of purification can be enhanced but it will still be lower than for the oxidizers. Adsorption and absorption are not suitable for gases at high temperatures containing several different organic compounds at low concentrations, which is the case in biofuel drying. This means high purification costs and low degree of purification. Other technologies that have been found less suitable are biological purification and membrane technology. World-wide there are a few reference plants based on thermal oxidizing in connection with biofuel drying. Otherwise the experiences are very limited. According to this, tests in pilot plant scale are recommended before investment in a full-scale plant for biofuel driers.

  20. Survey and analysis of energy consumption and supply for PFE (Program for energy efficiency); Kartlaeggning och analys av energianvaendning inom skogsindustrin infoer Programmet foer energieffektivisering (PFE)

    Energy Technology Data Exchange (ETDEWEB)

    Arvidsson, Jonas; Carlsson, Ann-Mari; Tarantino, Nicklas; Wiberg, Rolf [AaF Process AB, Stockholm (Sweden)

    2005-05-01

    The 1st of January 2005 the law 'Program for energy efficiency (PFE)' came into force. The aim of the programme is to promote efficient use of energy in energy intensive industry. Companies joining the 5-years programme do not have to pay the power tax, which was introduced for the industry sector from 1st of July 2004 as a result of the EU energy tax directive. In exchange the companies have to improve the efficiency in electric power consumption. This report is made as a handbook for the pulp- and paper industry and describes methods and working procedures in energy surveying and analysing according to the PFE-programme. The report also brings forth ideas of energy conservation for heat as well as electric power. The main focus is on energy conservation of electric power. The handbook gives general guidelines for the management of the principal action steps according to the program: Description of the mill; Surveying of energy usage in the mill; The energy usage of the mill in a short-term period, i.e. to the end of the program; The energy usage of the mill in a long-term period, for about 10 years ahead; The search for measures of electric power conservation, with pay-off time less than three years. The report shows applied examples of the steps above for two different model mills: A chemical pulp mill for market pulp and for production of carton board and fine paper; and A newsprint mill based on thermo-mechanical pulp and deinked pulp.

  1. Renewable natural gas. Gasification of biofuels for production of methane or hydrogen; Foernybar Naturgas. Foergasning av biobraenslen foer framstaellning av metan eller vaetgas

    Energy Technology Data Exchange (ETDEWEB)

    Karlsson, Staffan; Malm, David [Halmstad Univ. (Sweden). School of Information Science, Computer and Electrical Engineering

    2005-06-01

    The natural gas grid in Sweden will get extended to give the possibility to replace oil and coal within the industry, build effective combined power heat plants and offer the transportation sector an eco-friendly alternative to diesel and petrol. Through extension of the Swedish gas grid there will also be an infrastructure for distribution of other gases than natural gas. Natural gas is a fossil fuel and in this report the possibility of gasifying biomass to produce a synthetic natural gas (SNG) that could be distributed on the existing natural gas grid. Also a combined production of SNG and Fischer-Tropsch (FT) fuels has been investigated. In this report the raw material potential in the south of Sweden has been investigated, gasifying technologies have been investigated, demands for distribution on the natural gas grid, proposals of suitable localization alternatives and the total gas/FT-fuels potential has been estimated. The biggest potential of raw material is within the forestry in the form of fell remains and stem wood from thinning. In the future there will also be a great potential in waste because of the law about prohibiting deposits on landfills. The future potential of biomass is estimated to 34 TWh. There are several techniques for gasification of biomass to produce SNG and FT -fuels. When producing SNG separate the indirect gasifier using steam and subsequent methanation is the best alternative due to the highest efficiency. When using combined production of SNG and FT-fuels the integrated co-production is a good choice. To be allowed to distribute SNG on the Swedish gas grid some demands has to be fulfilled. Heating value and wobbeindex must correspond to the natural gas, a similar composition of the gas has to be reached, for example a similar methane content. Another alternative are distribution in separate grids. A good location to build a gasifying plant is nearby the gas grid, with good access to raw material and somewhere to use the waste heat. If all available raw material should be used for separate production of SNG the gas should come up to 23TWh, and combined 18TWh SNG and 6TWh FT-fuels. It is not reasonable that all the raw material is available for production of SNG and FT-fuels. The report has shown that there is a good technical possibility to distribute SNG from gasification in to the natural gas grid, but economically there will be a need for investors who believes in the technique and probably support from the government.

  2. Nuclear Waste State-of-the-Art report 2010 - Challenges for the repository programme; Kunskapslaegesrapport paa kaernavfallsomraadet 2010 - utmaningar foer slutfoervarsprogrammet

    Energy Technology Data Exchange (ETDEWEB)

    2010-01-15

    In this year's report the Council calls for that SKB makes more studies of how the copper corrosion affects the long-term safety. SKB is criticized for not sufficiently set clear requirements for the bentonite clay, which should surround the copper canisters. Internationally possibility to take back spent fuel from the repository is one highly topical issue. Retrieval of waste for transmutation and future reuse of spent nuclear fuel should be discussed also in Sweden. It is estimated that SKB submit an application within one year to dispose of spent nuclear fuel in the 500 meter deep repository in the bedrock at Oesthammar. The mountain is the natural barrier between the nuclear fuel and the environment, and in addition to this, spent fuel is surrounded by two technical barriers: copper canisters and bentonite clay. The corrosion resistance of the copper canisters has recently been challenged by research from the Royal Institute of Technology, and this has created uncertainty over copper canister as a suitable barrier. The Council believes that SKB should actively contribute to investigate the issue of corrosion of copper in pure, oxygen-free water in a scientifically unassailable way, and that its potential effect is determined. Bentonite clay is the subject of intensive development work in SKB's new bentonite-laboratory, but the Council believes that SKB must set clearer requirements for bentonite clay quality, particularly with regard to thresholds for the contaminants that may occur. The question of what is possible and desirable in order retrieve the spent fuel from the repository is international discussed. Retrievability before closure is part of the safety requirements and is not controversial. Retrievability after sealing on the other hand, is both a controversial and complex issue, especially from a civil law perspective. New technology can make high-level waste as an interesting energy source, or use of the Partitioning and Transmutation can make the waste less long-lived. The Council therefore considers that the issue must be discussed in Sweden

  3. High-temperature pretreatment of biogas substrate by using district heating to increase the biogas production; Hoegtemperaturfoerbehandling av biogassubstrat med fjaerrvaerme foer oekad biogasproduktion

    Energy Technology Data Exchange (ETDEWEB)

    Del Pilar Castillo, Maria; Ascue, Johnny [JTI, Uppsala (Sweden); Olsson, Marcus; Henriksson, Gunilla; Nordman, Roger [SP, Boraas (Sweden)

    2011-12-15

    In this study, we have shown that pre-heating sludge from a waste water treatment plant can give a higher biogas production rate. However, pretreatment showed no effect on substrate from a biogas plant at the conditions tested in this study. The study has also shown that there is potential of using district heating in the biogas industry for thermal pretreatment of sludge.

  4. Expansion cushions for directly buried district heating networks. Main object products of mineral wool; Expansionskuddar foer direktfoerlagda fjaerrvaermeledningar - med huvudinriktning paa mineralullsprodukter

    Energy Technology Data Exchange (ETDEWEB)

    Andersson, Sture [Lund Univ. (Sweden). Div. of Heat and Power Engineering; Jensson, B. [Malmoe Energi Fjaerrvaerme (Sweden)

    1995-06-01

    The initiation of this project is the question: How can we decrease the total costs for the construction of directly buried District Heating networks by a simplified routing of the piping and a more optimal use of the pipe material, taking into account the interaction between the piping and the soil and the material properties of the soil? How can long straight routings and bends with need for expansion work together, as the bends in the same time shall be secured against damages in a cost-effective way? When using modern computer based calculation programs, it can be shown that the PUR-insulation in the expansion zones, and particularly in the bends, may suffer a greater risk for being exposed to unacceptable high stresses than the metal service pipe. Therefore, in most cases, the calculated compression stresses in the PUR-foam will become decisive with respect to the routing as such but also with respect to the procedures prescribed when the system is taken into operation. In order to be able to connect long, straight routes of piping to expansion bends and in the same time make sure that the compression stresses of the PUR foam do not exceed permissible values, those bends may have to be supplied with some kind of expansion absorbing devices. One of the main goals of this project has been to look for expansion cushions with suitable material properties, especially with respect to compression. Such a material should remain soft and elastic in the horizontal direction and in the same time offer a support for vertical loads. A material that can swallow large movements of the pipe bend, gently supporting the bend without giving too high reaction forces. 5 refs, 7 figs, 3 appendices

  5. Oxidation catalysts for cleaning of CO and TOC in flue gases - step 1; Oxidationskatalysatorer foer rening av ofoerbraenda roekgaser - etapp 1

    Energy Technology Data Exchange (ETDEWEB)

    Berg, Magnus [TPS Termiska Processer AB, Nykoeping (Sweden); Harnevie, H. [SwedPower AB (Sweden)

    2001-01-01

    Environmental demands on the firing of solid fuels are gradually being sharpened and will in the future be regulated by different EG directives. Of particular importance is an EG directive on the incineration and co-incineration of waste. Most fractions of recycled wood fuel will be included in this directive. In the directive, high demands are placed above all on the restriction of the release of unburned compounds such as CO, TOC and dioxins. In many cases, it will be very difficult to optimise combustion in order to reduce releases of these compounds in question to the level regulated by legislation. This has therefore led to the initiation of this project on oxidation catalysts as a tool in the reduction of such emission components. In this preliminary study, 11 suppliers of oxidation catalysts have been contacted on this issue. An investigation has been carried out into their principles and costs and also interest in the application of these. Of the suppliers interviewed, 7 were seriously interested in the current application and at least 5 can be considered interesting for further discussion at later stages. Based on the information received, it could also be noted that costs for monolithium catalysts which can clean 12.000 m{sup 3}{sub n} flue gas/hour varied between approximately 60.000 and 240.000 SEK. This flow of flue gas corresponds to the amount generated by a 5 MW plant fired with normal forest chips (50% TS). Within the scope of this stage, an application study of two boilers has also been carried out (Vattenfall's boiler at Swedish Match and Marbodal). In both cases, the catalysts are considered to be able to be assembled without much reconstruction. However, it remains uncertain whether the catalysts can endure the current concentration of particles in the flue gas duct or for Swedish Match also the concentration of HCl and SO{sub 2} respectively. Finally is a proposal of how continued work in this area should be carried out described. This should take place via a combination of work in both laboratory and full scale. During laboratory experiments, the sensitivity of the catalysts for variations in H{sub 2}O, HCl, SO{sub 2} and O{sub 2} should be examined. Full-scale attempts should include approximately 6 months continuous follow-up in two separate plants. Preferably a plant fired with a fuel containing both chlorine and sulphur and also preferably a plant that fires a fuel relatively free from both these components.

  6. Ice Forces on Offshore Wind Power Plants. Descriptions of mechanisms and recommendations for dimensioning; Islaster paa vindkraftverk till havs. Beskrivning av mekanismer och rekommendationer foer dimensionering

    Energy Technology Data Exchange (ETDEWEB)

    Bergdahl, Lars [Chalmers Univ. of Technology, Goeteborg (Sweden). Dept of Water Environment Transport

    2002-02-01

    Mechanisms for ice-loads on off-shore wind power plants are described, The ice-loads are due to thermal expansion, water level variations, drifting ice and ice-reefing. Ice accretion is briefly treated. Ice instance, ice thickness, ice retention time, water level variations and stream velocities in Swedish waters are compiled. The main text deals with recommendations for dimensioning wind power plants at sea. In the appendices, a thorough review of the physical and mechanical properties of ice is presented.

  7. Definition and description of parameters for geologic, geophysical and rock mechanical mapping of rock; Definition och beskrivning av parametrar foer geologisk, geofysisk och bergmekanisk kartering av berg

    Energy Technology Data Exchange (ETDEWEB)

    Straahle, A. [Geosigma AB, Uppsala (Sweden)

    2001-04-01

    This report presents how geologic parameters should be used in SKB rock mappings. Geologic parameters dominate, but some parameters can be seen as geophysical or mechanical. The report is structured in the main areas Rock type, Plastic structures and Brittle structures, according to the parameter grouping that specifies how the bedrock should be characterized at the SKB site investigations. Each parameter is presented in a common structure: Name in Swedish and English; Definition; Description; Determination; Classification; and Presentation form (in particular graphic)

  8. Laws, directives and policy instruments important for the development of the waste management system; Lagar, direktiv och styrmedel viktiga foer avfallssystemets utveckling

    Energy Technology Data Exchange (ETDEWEB)

    Nilsson, Karolina; Sundberg, Johan

    2010-01-15

    This report gives a survey and a description of present and future policy instruments that have been or will become important for the development of the waste management system. Policy instruments here refers to laws, directives, taxes/fees, national/local goals and other regulating measures that the society introduce to steer the development of the waste management system. This work can thus be used as a dictionary or a guideline for these measures. The investigation has two goals: 1. To give representatives of the Swedish waste management system a summary of important policy instruments for the future development of the waste management system. 2. To give Waste Refinery a summary of these policy instruments that can be used for the discussions of how the research within the centre should develop during stage 2. A large number of policy instruments have been found during the study. These instruments have been, most likely will become, or may become important for the development of the waste management system. Most of them are described in this report. The selection made is presented in Table 1. Focus for the selection has been policy instruments that are important for the research activities within Waste Refinery, meaning policy instruments that direct or indirect can change the use of thermal and/or biological treatment as well as techniques and methods supporting these treatment methods. [Table 1. Policy instruments that are presented in the report

  9. Fields of application for the by-products of extraction and transesterification of rapeseed oil; Anvaendningsomraaden foer biprodukterna vid pressning och omfoerestring av rapsolja

    Energy Technology Data Exchange (ETDEWEB)

    Bernesson, Sven

    2007-07-01

    Rapeseed contains 40-50% oil that can be extracted by pressing and possibly subsequent extraction. The residue, rapeseed cake, normally contains 10-25% oil, but rapeseed meal subjected to extraction only contains a few percent oil. Rapeseed cake and rapeseed meal can be used as animal feed, fuel, biogas substrate or fertiliser. If the extracted oil is used as a vehicle fuel it is normally transesterified to rapeseed oil methyl ester and then glycerol is produced as a by-product. Glycerol can be used for animal feed, fuel, biogas substrate or in the chemical industry as a raw material or additive in several products. The main purpose of this work was to evaluate how rapeseed cake and rapeseed meal, together with glycerol from transesterification of rapeseed oil, could be used in different applications, and to calculate their economic values in these uses. Used as a ruminant feed, current rapeseed cultivars can provide the entire dietary protein requirement. Up to 10% of the feed or concentrate mix for pigs, poultry and horses can comprise rapeseed feed. For piglets and horses, the palatability may limit the amount fed. The amount of rapeseed cake fed is restricted by its oil content. Normally, ruminants can manage 5% fat and horses about 2% fat in concentrate, and pigs 5% and poultry 1-1.5% fat in the overall diet. Glycerol can be an energy component of the feed mix. Cattle, sheep and pigs have been successfully fed a mixture containing 5-10% glycerol, and poultry a mixture containing 5%. Glycerol works well as a binding agent in feed pellet manufacture, with an admixture of 2-3% giving a more solid pellet. Rapeseed cake and rapeseed meal may be incinerated, but produce an ash with a relatively low melting-point, causes sintering and deposits to form in the furnace. The amount of ash is rather high, about 6%. The high nitrogen content (4-6% of dry matter) gives high nitric oxide emissions, often 2-3.6 times the emissions of fuels deficient in nitrogen. The high oil content in rapeseed cake gives it a comparatively high heat of combustion. Glycerol is difficult to incinerate alone, but can be incinerated when mixed with disintegrated solid biofuels such as sawdust or wood shavings. It would probably act as a binding agent in solid biofuel pellets or briquettes. Rapeseed cake and rapeseed meal can be used as an organic fertiliser, with 4-6% nitrogen, 0.4-2% phosphorus and 0.3-1% potassium. Organically bound nitrogen is released slowly. Glycerol has no value as a fertiliser unless it contains potassium residues from the catalyst (about 0.6%) used for transesterification, and possibly also phosphorus residues (about 0.16%) from the phosphoric acid that may be used to neutralise the catalyst. Rapeseed cake, rapeseed meal and glycerol are very suitable for anaerobic digestion. Rapeseed cake and rapeseed meal are nitrogen-rich media that may cause too high a content of ammonium nitrate in the biogas reactor. The oil in rapeseed cake may cause other substrates such as farmyard manure to give a higher gas yield. There are similar observations of methane gas yield increasing when glycerol is digested together with protein-rich media. Glycerol can be used as a carbon source in biogas processes. The plant nutrients in rapeseed cake and rapeseed meal are more easily available after biodigestion. The economic value of rapeseed cake, rapeseed meal and glycerol has been calculated on the basis of the replacement value of barley and soybean meal for feed, forest wood chips for incineration, nitrogen, phosphorus and potassium for fertiliser, or sales of electricity and district heating from a large farm-scale biogas plant. Rapeseed by-products were most valuable when used as feed, followed by use for combustion and biogas with a high gas yield. They were least valuable when used as fertilisers and for biogas with a low gas yield. The world market values of barley, soybean meal and feed fat (rapeseed oil) had a large influence on the value of the by-products and on the gas yield etc. from the biogas plant. The price of forest wood chips and fertilisers had a smaller influence on the results, since these products had a lower initial value. Domestic animals can by far consume all the rapeseed cake and rapeseed meal that can be produced in Sweden. Dairy cows can consume large quantities. Much larger quantities of glycerol can be consumed by domestic animals than can be produced through transesterification of rapeseed oil of Swedish origin. This means that the glycerol from a considerable proportion of imported rapeseed oil could be used for feeding purposes. There is nothing that limits the amount of rapeseed cake, rapeseed meal and glycerol that can be used for combustion or as fertilisers, other than their economic value in these applications. Glycerol may have added value if it can be used successfully as a binding agent in feed pellets, biofuel pellets or briquettes.

  10. 2D or 3D? New user interfaces for control rooms in process industries. A feasibility study; 2D eller 3D? Nya graenssnitt foer processindustrins kontrollrum

    Energy Technology Data Exchange (ETDEWEB)

    Karlsson, MariAnne

    2008-01-15

    Three dimensional user interfaces and techniques for visualisation have been discussed as possible ways to improve the work situation for control room operators in process industries. The aims of the project, which is a pilot project, has been: (i) to compile existing knowledge on the pro's and con's of 2D versus 3D user interfaces in order to assess and conclude if, and how, 3-dimensional visualisations could be applied when designing new user interfaces for modern process control rooms and (ii) to investigate operators' attitudes towards and acceptance of 3-dimensional user interfaces for visualisation of information. The project has included the following activities: a literature review has been completed in order to collect information on different projects and tests in which 3-dimensional user interfaces have been evaluated for different tasks; an identification of feasible use cases has been made, partly on basis of a workshop in which participated researchers from the field and partly on basis of study visits to different process plants on the west coast of Sweden; an interview study has been carried with control room operators at four different power plants in order to find out the operators' assessments of and attitudes towards 3-dimensional information visualisation; and interviews with representatives of system developers have been completed in order to elicit information on ongoing development work and experiences of developing and implementing 3-dimensional user interfaces in control rooms. On basis of the literature review as well as the interview studies cannot be concluded that 3-dimensional user interfaces and 3-dimensional visualisation of information hold any general advantages compared to 2-dimensional solutions. Pro's and con's are, instead, highly contextual and dependant upon (i) the characteristics of user (in terms e.g. of computer skills); (ii) the (work) task; and (iii) the specific design of the user interface/visualisation. The interviews with the operators revealed that a 3-dimensional visualisation of the physical elements of a plant may come to contain much information which could, for certain tasks, be classified as 'noise'. Furthermore, during supervision and optimisation of the process, the operators need to have access to specific values. Such information can be difficult to integrate in a too detailed a representation of plant and/or process. The type of visualisation that the operators themselves judged to be the most interesting was visualisations of, for instance, the distribution of temperature or the degree of moisture in a material to be burned with the purpose to further understand the specific conditions in order to further optimise the process. The same type of visualisation could support the operator in trouble shooting and analyses of failures. Also in a dialogue between operators and maintenance staff could a 3-dimensional representation of the plant have certain advantages compared to a 2-dimensional one

  11. Preservation of information about the repository for spent nuclear fuels - proposal for action plan; Bevarande av information om slutfoervar foer anvaent kaernbraensle - foerslag till handlingsplan

    Energy Technology Data Exchange (ETDEWEB)

    Bowen-Schrire, Monica; Eckerhall, Daniel; Jander, Hans; Waniewska, Katarina (Vattenfall Power Consultant AB, Stockholm (Sweden))

    2008-10-15

    This report is a proposal for an action plan with the ultimate aim of ensuring that information about the repository for spent nuclear fuel can be preserved and transferred for future generations. The purpose of the proposal for an action plan is to present ideas on tangible measures and guidelines for information preservation and transfer, in the short and long term. The report deals with a number of aspects relating to information preservation as well as risks that can lead to the loss of important information. The proposal for an action plan is based on reasoning about these subjects. The main emphasis is on measures that need to be implemented in the near future to ensure that successive and direct information transfer is handled in a suitable manner. It is suggested that the following measures should be implemented within a five-year period: - Designate a person responsible for information preservation. - Work out guidelines for information preservation and transfer. - Form a network with other organizations in Sweden. - Initiate a dialogue with other countries, especially USA and France. - Participate in seminars, conferences and workgroups on an international level within the IAEA and NEA. In a longer time perspective the following measures should also be implemented: - Implement guidelines for information preservation and transfer. - Document the archiving system. - Establish a communication plan. - Archive information about the repository. - Keep the action plan up to date

  12. An evaluation of a farm scale biogas plant with a micro turbine for combined heat and power production; Utvaerdering av gaardsbiogasanlaeggning med mikroturbin foer kraftvaermeproduktion

    Energy Technology Data Exchange (ETDEWEB)

    Brown, Nils; Edstroem, Mats; Hansson, Mikael (Swedish Inst. of Agricultural and Environmental Engineering, Uppsala (Sweden)); Algerbo, Per-Anders (HIR Malmoehus, Bjaerred (Sweden))

    2010-03-15

    The purpose of this study was to: To evaluate a farm scale biogas plant digesting energy and nutrient rich substrates at a high organic loading rate and biogas production using the biogas for combined heat and power production with a micro turbine. Put together technical, biological and economical documentation which can help farmers to investigate presumption to invest in a farm scale biogas plant for heat and power production. The farm scale biogas plant has an active digester volume of 450 m3 and the process temperature is ca 37 deg C. A micro turbine with 105 kW electrical and 160 kW thermal power is used for heat and power production. The produced electricity is sold to the grid and the heat is used on the farm for drying grain and heating two houses. The plant is digesting poultry manure and 2 substrates from the agriculture industry. All together the plant is digesting 3140 metric tons of substrates/yr and the substrates costs 160 k SEK/yr. Total investment for the plant is 4.7 M SEK. Produced head reduces the oil consumption at the farm with 15 m3 (value 100 k SEK/yr). There is a surplus of heat production of 600 MWh/yr. The production cost for the electricity is close to 0,66 SEK/kWh based on a value of the digestate of 100 SEK/ton together with an investment subsidy of 30 %. The production cost for the electricity is strongly depending on the value of the digestate. Hagavik is a crop production farm based on organic farming. If the valuation of the digestate is reduced to 50 SEK/ton, the production cost for the electricity increases to approx. 0.84 SEK/kWh (1 SEK is about 0.14 USD)

  13. Evaluation and development of methods for determining methane emissions from biogas plants - Literature Study; Vaerdering och utveckling av maetmetoder foer bestaemning av metanemissioner fraan biogasanlaeggningar - Litteraturstudie

    Energy Technology Data Exchange (ETDEWEB)

    Holmgren, Magnus Andreas (SP, Boraas (Sweden)); Willen, Agnes; Rodhe, Lena (JTI, Uppsala (Sweden))

    2011-11-15

    Previous work in areas such as framework of voluntary commitment shows that there is a need for techniques for measurement of methane and other greenhouse gases from various sources in the handling of organic residuals. There are no established methods for determining for instance emissions of methane from open or partially open tanks and cisterns, typically residue storage and the like. This report gives results from Phase 1 of this project, in which literary studies, market research studies, interviews and site visits have been made to identify a number of methods applied for the determination of emissions from open areas, such as liquid surfaces, but also land. Focus is on methods that can be applied to plants for biological treatment, which also includes the water treatment process at the treatment plants, but also the procedures used in measurements on land, landfills and processing plants are studied. First, the report gives a brief overview of a large number of measurement methods, where more detailed descriptions of four methods are given. The four methods are considered to be the most promising to pursue in the following phases of the project: - chamber technology; - sampling hood; - plume measurement with DIAL (Differential Absorption Lidar); - air input in a covered storage.

  14. Flexible solutions as a strategy for achieving more connections to the district heating network; Flexibla loesningar som strategi foer oekad anslutningsgrad

    Energy Technology Data Exchange (ETDEWEB)

    Henning, Annette; Lorenz, Klaus [Dalarna Univ., Borlaenge (Sweden). Solar Energy Research Center, SERC

    2005-07-01

    According to the project results, two motives are the without comparison most common reasons for owners of single-family houses to reject an offer of district heating installation. One of these motives is a wish to keep a sense of free will and control over their heating system. The second common reason is that a well functioning heat pump or furnace, for example, has already been installed. Installation costs for each single-family house are heavily dependent on the amount of district heating installations that can be made in a certain residential area at a specific time. Therefore, it should be of great interest for energy companies with plans to extend their district heating grid to consider how they could convince households with any of these two main motives to change their mind. District heating companies could ask themselves how they might offer households a way to connect to the district heating grid without loosing their sense of independence, control, and free will. They could also ask themselves how their long-term planning might help them compete with heat pumps and furnaces for bio-fuel and electricity as a replacement for old oil-burning furnaces. These heating systems have the important advantage over district heating that they may be installed whenever it suits each respective household. They also have the advantage of being perceived as easier than district heating to replace at a later stage, thus retaining a sense of free will for household members. Thus, district heating combined with control and free will for the customer is a key issue here, as is the opportunity to have district heating installed at a point in time when it suits each respective household. These key issues are linked to the varying life-cycles of households, houses, and heating systems. Therefore, if district heating companies wish to increase the amount of installations at a specific time, it is of crucial importance for them to focus, not merely on household categories, but on how these change in course of time. The results of this study indicate that one way for district heating companies to reach each household at a suitable point in time could be to offer them varying degrees of connection. Thus, connection variations could include merely pipes drawn into the house, varying ways of co-ordinating district heating with other heating systems, as well as full district heating installation. In this way, the degree to which district heating is accepted in a certain living area could be less affected by the varying age and function of existing heating systems, as well as by the present situation of each respective household. Nevertheless, a higher degree of initial connections, as well as an expected increase in the use of district heating with ageing household members and parallel heating systems, need to be weighed against an initially lower district heating use per customer, as well as a situation of continuous competition. It could be considered positive for public welfare that customers who would otherwise not have had their houses connected to environmentally beneficial district heating now may do so. Flexible district heating connections could also be considered positive for public welfare if they are used as a local environmental steering instrument of energy carriers and heating system. A third positive example is a case where energy could be saved by combining district heating with solar heating or heat recovery. The impact on public welfare is more uncertain in cases when the use of less environment friendly boilers partially replace district heating.

  15. Possibilities for improved practice, decision support for permit applications of ash utilization in constructions; Laett att goera raett, beslutsunderlag foer miljoeproevning av askor i anlaeggningar

    Energy Technology Data Exchange (ETDEWEB)

    Toller, Susanna; Johansson, Mats; Wik, Ola; Erlandsson, Aasa; Lundberg, Kristina

    2011-02-15

    Combustion of solid biofuels, peat and different types of waste in Sweden for the purpose of energy production generates approximately 1.3 million tonnes of residues yearly. These have varying chemical and technical properties, depending on the type of fuel, the combustion process and the type of furnace. From a technical point of view, some of the ashes may be used for civil works. However, the Swedish Environmental Code requires that operators obtain a permit from the local environmental authorities if ashes are utilized for construction purposes. Previous studies on the application and permitting process have indicated that it can be improved, in particular both the information provided by the operators and the decision process. The stakeholders involved in the decision process have expressed that they have limited knowledge on expected environmental impacts from the utilization of ashes in civil works and that existing knowledge not is being fully applied in practice. The aim of this project was to improve the decision support for permit application of ash utilization in constructions. The goals were to - initiate and develop the discussion regarding which information should be used in the decision process - suggest the scope and content of the information to be supplied in the permit application - contribute to improved communication between different stakeholders - identify possibilities of using the knowledge obtained by research for decision support The stakeholders' (operators and environmental authorities) opinions and viewpoint on the assessment and application process were achieved through interviews. The results from the interviews were presented and discussed during a seminar. Both the interviews and the seminar provided information, but at the same time they served to initiate a discussion on permit application procedure and to increase the communication between different stakeholders. The outcomes from these activities (interviews and seminar) form the basis for the discussion in this report. The views and thoughts of the stakeholders differed greatly regarding both their previous experiences of permitting processes and their views on the preferred content of permit applications. It was therefore concluded that a general praxis is needed on the scope of the information that should be requested in an application. However, it is not possible and it is not desirable that this praxis is detailed. Instead, the general praxis needs to be complemented with separate guidelines for specific ashes and for the relevant and specified utilization of these ashes. Such guidelines need to be established and agreed upon by all the stakeholder groups involved. Suggestions are given on which aspects to be considered in the application process, based on the Swedish Environmental Code. Furthermore, improved cooperation and improved dialogue are needed between stakeholders involved in permitting processes for ash utilization. The aspects suggested need to be further elaborated and agreed upon and long term goals and strategies for ash management in Sweden should be discussed. The different stakeholders involved in the permitting process have sometimes very different starting-points and these needs to be understood by the other stakeholders in order to achieve a constructive communication. In conclusion, to obtain decisions that are based on current legislation and to achieve that through an efficient process, the demands from the authorities need to be more clearly expressed as well as good quality information needs to be provided by the operators. Finally, the different stakeholders involved in the permitting process need to discuss and agree upon goals and strategies for utilization of combustion residues

  16. Investigation of quality assurance routines of DAP-meters in Swedish hospitals; Kartlaeggning av kvalitetssaekringsrutiner foer DAP-maetare i svensk sjukvaard

    Energy Technology Data Exchange (ETDEWEB)

    Almen, Anja; Grindborg, Jan-Erik; Leitz, Wolfram

    2005-11-01

    The Swedish Radiation Protection Authority has investigated quality control of dose area product meters (DAP meters) used in x-ray diagnostics. A questionnaire was sent out to medical physics experts who are working with diagnostic radiology in Swedish hospitals. This report presents information about the routines practised and gives examples of measures to improve the quality of these practices.

  17. Radiation doses to patients in computed tomography including a ready reckoner for dose estimation; Patientdoser vid datortomografi med lathund foer beraekning av effektiv dos

    Energy Technology Data Exchange (ETDEWEB)

    Szendroe, G.; Axelsson, B.; Leitz, W.

    1995-11-01

    The radiation burden from CT-examinations is still growing in most countries and has reached a considerable part of the total from medical diagnostic x-ray procedures. Efforts for avoiding excess radiation doses are therefore especially well motivated within this field. A survey of CT-examination techniques practised in Sweden showed that standard settings for the exposure variables are used for the vast majority of examinations. Virtually no adjustments to the patient`s differences in anatomy have been performed - even for infants and children on average the same settings have been used. The adjustment of the exposure variables to the individual anatomy offers a large potential of dose savings. Amongst the imaging parameters, a change of the radiation dose will primarily influence the noise. As a starting point it is assumed that, irrespective of the patient`s anatomy, the same level of noise can be accepted for a certain diagnostic task. To a large extent the noise level is determined by the number of photons that are registered in the detector. Hence, for different patient size and anatomy, the exposure should be adjusted so that the same transmitted photon fluence is achieved. An appendix with a ready reckoner for dose estimation for CT-scanners used in Sweden is attached. 7 refs, 5 figs, 8 tabs.

  18. Policies, strategies and systems for the disposal of spent nuclear fuel; Principer, strategier och system foer slutligt omhaendertagande av anvaent kaernbraensle

    Energy Technology Data Exchange (ETDEWEB)

    Grundfelt, Bertil (Kemakta Konsult AB (Sweden))

    2010-12-15

    In this report an up-to-date account is made of the status of different principles, strategies and systems for the management and disposal of spent nuclear fuel. As large scale use of nuclear power for the production of electricity began in the 1960s and 1970s, studies of various principles and strategies for the management of the spent nuclear fuel were initialised. In particular in the USA, comprehensive studies were conducted of all strategies described in this report

  19. Research-, development- and demonstrationprogram for a KBS-3 repository with horizontal deposition; Forsknings-, utvecklings- och demonstrationsprogram foer ett KBS-3-foervar med horisontell deponering

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2001-12-01

    This report gives an account of what RD and D efforts that would be necessary in order to make a full comparison between a KBS-3 repository with horizontal deposition of several canisters in each deposition hole, and the reference design with vertical deposition. A horizontal repository has no deposition tunnels, since the canisters are deposited directly from the transport tunnels. This means that the excavated rock mass is much reduced, compared to vertical deposition. Economically, it is calculated that horizontal deposition can be about 1 billion SEK (about 100 million USD) cheaper. The costs for performing the RD and D program are estimated to 150 million SEK.

  20. Evaluation of electrochemical techniques for measurement of fireside corrosion in thermal power plants; Utvaerdering av elektrokemiska tekniker foer maetning av roekgassidig hoegtemperaturkorrosion i pannor

    Energy Technology Data Exchange (ETDEWEB)

    Hjorrnhede, Anders

    2007-12-15

    The possibility to measure the corrosion rate on-line, in situ, is getting more and more interesting due to increased corrosion. The worsening may be a result of lower fuel quality or increased steam data due to raised efficiency demands. Also the use of inhibitors can be improved and the lifetime of important components can be increased. Today, virtually all corrosion measurements of materials used for waterwalls, superheaters, economisers and other heat-transferring surfaces are based on in-situ probe tests of coupons or rings. The aim of the project is to evaluate the practicability of commercial or semicommercial on-line in-situ corrosion probes for use in waste fired boilers. The target groups are owners of boilers, operators, service personnel but also boiler manufacturer and material producers. Since the use of on-line, in situ, corrosion probes is substantial, some of the most promising corrosion probes have been tested in a waste fired boiler in Hamburg, Germany. Tests in waste fired boiler have never before been performed. The MECO CB, a Linear Polarisation Resistance (LPR) corrosion probe from Coresto Oy, Finland was tested and from Lehrstuhl fuer Umweltverfahrenstechnik und Anlagentechnik (LUAT) der Universitaet Duisburg-Essen, Germany an Electrochemical Noise (EN) - probe was tested. From Pepperl + Fuchs both EN- and LPR-CorrTran corrosion sensors were tested. The test periods were lasting from 1050h to 3750h. The test materials were the low alloyed steel 15Mo3, the Ni-based super alloys Sanicro 63 and Haynes Hastelloy C-2000. The fluegas temperatures were 635 deg C or 520 deg C. The material temperatures were 440 deg C, 420 deg, 350 deg C and was swept from 400 deg C to 300 deg C. All probes are measuring a signal which has a correlation to the corrosion process, but the quantification procedure is not working well. The results achieved from the corrosion probes must be calibrated against corrosion rates measured by means of conventional corrosion probes in order to determine the exact corrosion rate. However, a correlation between the temperature and the corrosion rate exists. The practical use of the on-line corrosion probes is in use together with conventional corrosion probes. Either should the quality of the measured corrosion rates given from the corrosion probes increase or the post treatment of the data must be standardised in order to avoid different kind of influences on the results

  1. Environmental impact data for fuels. Part 2: Background information and technical appendix (New revised edition); Miljoefaktabok foer braenslen. Del 2: Bakgrundsinformation och Teknisk bilaga (Ny reviderad upplaga)

    Energy Technology Data Exchange (ETDEWEB)

    Uppenberg, S.; Almemark, M.; Brandel, M.; Lindfors, L.G.; Marcus, H.O.; Stripple, H.; Wachtmeister, A.; Zetterberg, L.

    2001-05-01

    This report is a compilation of data concerning environmental impacts from the utilization of different fuels. The entire life cycle is studied, from the extraction of raw materials to combustion. The fuels under study are gasoline, gasoline with MTBE, diesel, fuel oil, LPG, coal, natural gas, peat, refuse, ethanol, RME, DME, methane and wood fuels (forestry residues, Salix, pellets/briquettes). Utilization areas studied are heating plants, cogeneration plants, power plants, domestic boilers, and light and heavy vehicles. In this new edition, the following changes were made: New life cycle analyses have been included, a few new fuels added, electricity from hydroelectric plants, wind power plants and nuclear power plants have been included and some other minor changes.

  2. Measurements of emissions during waste wood combustion to identify refurbishment needs; Maetning av emissioner vid foerbraenning av RT-flis foer att identifiera eventuella ombyggnadsaatgaerder

    Energy Technology Data Exchange (ETDEWEB)

    Lindau, Leif

    2003-01-01

    The background to this project is the new EU directive 2000/76/EG regarding incineration of waste. This directive may have an effect on emission limits for Swedish plants firing waste wood. It may lead to needs of refurbishment in e.g. the area of flue gas cleaning equipment. In order to produce a basis to evaluate the need for such upgrading, measurement of metals, HCI, SO{sub 2} , CO, TOC and dioxin have been carried out on three plants firing wood waste: a grate boiler (Handeloeverket P11), one circulating fluid bed boiler (Aaterbruket in Lomma), and a bubbling fluidised bed boiler (Johannes in Gaevle, firing 50% waste wood). The measurements have mainly been carried out after boiler, equivalent to upstream flue gas cleaning. The results are that the demands of the EU directive on most points can be managed with existing equipment if this consists of electrostatic precipitator or bag filter with good performance and flue gas condensor. Without flue gas condensor, there is a need for other measures for 1-10 and for grate boilers, SO{sub 2} as well. The requirements in the directive for TOC is weaker than the demand on CO, and correspondingly, the demand on CO is driving. The level of dioxin from the boiler (upstream filter) exceeds allowed emission, and is in the range of 0,1-2 ng TE/Nm{sup 3} tg, 6 % O{sub 2} . Existing equipment will meet the emission limit for the lower levels (0,1-0,3) , but not safely for the higher levels (1,5-2). Correspondingly, there may be a need for equipment upgrading, e.g. in the form of activated carbon injection upstream flue gas filter.

  3. Review of SKB's preliminary safety evaluations for Forsmark and Laxemar; Myndigheternas granskning av SKB:s preliminaera saekerhetsbedoemningar foer Forsmark och Laxemar

    Energy Technology Data Exchange (ETDEWEB)

    Norden, Maria; Wallberg, Petra; Wiebert, Anders; Dverstorp, Bjoern; Shulan Xu (Swedish Radiation Protection Authority, Stockholm (Sweden)); Toverud, Oeivind; Stroemberg, Bo; Kautsky, Fritz; Simic, Eva (Swedish Nuclear Power Inspectorate, Stockholm (Sweden))

    2008-01-15

    This report presents SKI's and SSI's review of SKB's preliminary safety evaluations for Forsmark and Laxemar. The purpose of the review is to assess if the extent of SKB's initial site investigations are sufficient and if they are performed with adequate quality and also if they comprise the data that is needed for future safety analysis. To meet the request from the municipalities where site investigations are performed the authorities have also attempted to elucidate if a site has such obvious weakness that it probably will not comply with authority regulations. The target groups for the review are the municipalities in Oskarshamn and Oesthammar, and SKB

  4. Reduced Bed Temperature in FB-Boilers Burning Waste - part II; Saenkt baeddtemperatur i FB-pannor foer avfallsfoerbraenning - etapp 2

    Energy Technology Data Exchange (ETDEWEB)

    Niklasson, Fredrik; Pettersson, Anita; Claesson, Frida; Johansson, Andreas; Gunnarsson, Anders; Gyllenhammar, Marianne; Victoren, Anders; Gustafsson, Goeran

    2010-07-01

    This project focuses on evaluating whether lowered bed temperature in FB-boilers for waste combustion gives operational benefits, such as reduced fouling in the convection pass. If so, this mode of operation could reduce the number of unplanned boiler outages, reduce the need for soot blowing, and extend the lifetime of the superheaters at unaltered steam temperature. The project is based on full-scale experiments performed at Ryaverket in Boraas. The plant has two waste-fired 20 MW{sub t} FB-boilers. The study is based on a comparison between operational data and measurement results from two different operating conditions of the boilers. In addition to the data that normally are logged by the control system, samples of fuel, ashes, particles, and deposits were taken and subsequently analyzed. The structure of the bed ash was altered by lowering the bed temperature. Under normal boiler operation, the bed ash contains many small agglomerates that disappeared when the bed temperature was lowered. Due to this, the sand consumption of the plant could be reduced by roughly 25 %. At lowered bed temperature, the concentration of chlorine increased in the bed ash and in the recycled sand while it decreased in the ashes from the cyclone and fabric filter. The concentration of HCl in the flue gas increased as the bed temperature was lowered. This is considered a consequence of less chlorine forming alkali chlorides. Moreover, the particle measurements showed that the amount of submicron particles decreased during lowered bed temperature, which also is an indication of less alkali chlorides in the flue gas. The deposit probes showed an approximate 20 % reduction of the fouling rate when the bed temperature was lowered from 876 to 714 deg C. The chlorine content also decreased in the deposits. For the deposit probes at 500 deg C, (corresponds to a steam temperature of 465 deg C) significant amounts of KCl were found in the deposits, even when the bed temperature was lowered. An economical estimation of the consequences from lowering the bed temperature showed a saving of ca 1000 kSEK per year for the boilers in Boraas. Please note that this is an uncertain estimate. The results are of interest for plant owners that may improve the operation of existing plants by adjusting the operating point. Furthermore, the results can be used by boiler manufacturers to further improve the design of new facilities

  5. Dose conversion factors for radiation doses at normal operation discharges. E. Exposure pathways and radioecological data; Dosomraekningsfaktorer foer normaldriftutslaepp. C. Exponeringsvaegar och radioekologiska data

    Energy Technology Data Exchange (ETDEWEB)

    Karlsson, Sara; Aquilonius, Karin

    2001-10-01

    A study has been performed in order to develop and extend existing models for dose estimations at emissions of radioactive substances from nuclear facilities in Sweden. This report presents a review of all exposure pathways in the project, in order to secure that no important contributions have been omitted. The radioecological data that should be used in calculating conversion factors for air and water emissions are also reviewed. Nuclid-specific conversion factors have been calculated for radiation doses from inhalation and intake for children in different age groups.

  6. The significance of the golden eagles domestic areas, the habitat and movements for wind power establishment; Betydelsen av kungsoernars hemomraaden, biotopval och roerelser foer vindkraftsetablering

    Energy Technology Data Exchange (ETDEWEB)

    Hipkiss, Tim; Dettki, Holger; Moss, Edward; Hoernfeldt, Birger [Inst. foer vilt, fisk och miljoe, Sveriges lantbruksuniv., Uppsala (Sweden); Ecke, Frauke [Inst. foer vilt, fisk och miljoe, Sveriges Lantbruksuniv., Uppsala (Sweden); Inst. foer vatten och miljoe, Sveriges Lantbruksuniv., Uppsala (Sweden); Sandgren, Carolin [Inst. foer vilt, fisk och miljoe, Sveriges Lantbruksuniv., Uppsala (Sweden); Naturvaardsenheten, Laensstyrelsen i Jaemtlands laen, Oestersund (Sweden)

    2013-10-15

    There is a need for developing methods for reliable environmental impact assessment of wind farms in Sweden, and to facilitate the establishment of 'eagle friendly' wind farms. During 2010 and 2011 a total of 43 adult and juvenile golden eagles in northern Sweden were marked with GPS transmitters, to provide information on the species home range, habitat selection and ranging behaviour. These transmitters have so far provided more than 100 000 valid GPS positions. Individual eagles fitted with the most effective type of transmitter provided on average more than 2,000 positions during the 2012 breeding season. The home ranges of adult golden eagles covered an average area of over 200 km{sup 2} during the breeding season, although there was considerable variation among eagles. Fledged juvenile eagles used a smaller area within their parents home range, until they left their natal area and their parents in October. Within their home ranges juvenile and adult eagles showed a particular preference for clear cuts, but also for coniferous forest on lichen-dominated bedrock, while dense, young forest and mires were avoided. Steep slopes were preferred over flatter areas. Adult golden eagles occasionally undertook long-distance movements during both summer and winter. Juveniles migrated south and spent their first winter in southern and central Sweden, and migrated north the following spring to the Scandinavian mountain region. The results in this report are largely based on one breeding season, and should thus be treated with some degree of caution. However, this also highlights the need for the project to continue, so that incoming transmitter data can continue to be processed and analysed, and that annual variation can be assessed. Nevertheless, we do not suspect that the results for e.g. habitat selection are in any way unusual, since they generally agree with what is known from other parts of the world, that golden eagles require open habitats for hunting and therefore avoid dense, impenetrable habitats.

  7. Report on the Swedish National Energy Administration's program for energy efficiency 1998-2001; Redovisning av Energimyndighetens insatser foer energieffektivisering aaren 1998-2001

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2002-01-01

    Support for raising energy efficiency is reported for the following five areas during 1998-2001: 1. Fuel-based energy systems with the sub-areas: Sustainable production of biofuels, including ash recycling; Cogeneration; and Large scale heat production. 2. Transport with two sub-areas: Internal combustion engines; and Electric drive-lines. 3. Power production/Power technology with the sub-areas: Hydropower; Wind power; Power transmission and distribution; and Photovoltaic solar cells. 4. Industry with the sub-areas: Processes; and Support systems in industry. 5. Buildings with the sub-areas: Heating, cooling and climatic shields; and Components and support systems. In total, 1,800 M SEK (about 180 M USD) was contributed by the Energy Administration during this period. An overview of the projects is presented in this report.

  8. Biological effects in limed forests; Biologiska effekter i kalkad skog. Aarsrapport 1998. Effektuppfoeljning av Skogsstyrelsens program foer kalkning och vitaliseringsgoedsling av skogsmark

    Energy Technology Data Exchange (ETDEWEB)

    Larsson, Per-Erik; Akselsson, Cecilia; Bengtsson, Roland; Bjelke, Ulf

    1999-10-01

    The Swedish Board of Forestry experimental work with liming and vitalising (nutrient compensation) of forest soil includes an extensive review program of the effects of this work. Results from the experimental work are presented in annual reports. This report gives an account of the review program carried out to indicate the results of the biological effects. The studies are performed within the Swedish Board of Forestry's large-scale experiments with the liming and vitalising fertilisation of forest soil. The report covers the time period, or parts of the period, from 1991 to 1998. The results in short are as follows: (1) Benthic invertebrate: The investigation revealed that a dose of 3 tonnes per hectare was insufficient to have a substantial effect on the fauna in acidified streams during the first seven years after treatment. An increase in the number of species and taxon or larger bio-diversity could not be confirmed. No indications of harmful effects on the fauna, caused by high lime concentrations, were found., (2) Benthic algae: Changes to benthic flora in streams after soil treatment was minimal. The total number of species increased slightly after lime treatment. At the same time the number of acid indicating species diminished. In other words, the decrease in acidity has improved the water quality. No negative effects, as a result of soil treatment were found., (3) Nutritional status in needles: The trees reacted quickly to the treatments. The soil treatment led to an increase in levels of calcium in the needles. Treatment using wood ash and the vitalising agent 'Skogvital' led to an increase in calcium and boron levels. Treatment using a mixture of wood ash and lime resulted in increased magnesium and manganese levels. Samples were taken one and three years respectively after treatment. A longer period of time is required to carry out a detailed evaluation of the nutritional status of the needles., and (4) Tree vitality: It is not possible to identify any variations in needle loss comparing limed areas and untreated reference areas during the six-year study. Similarly in the observation areas set up by the Swedish Board of Forestry, there was no evidence of any reductions in needle loss in spruce forest during the test period.

  9. Knowledge basis concerning the market for electric vehicles and plug-in hybrids (KAMEL); Kunskapsunderlag angaaende marknaden foer elfordon och laddhybrider (KAMEL)

    Energy Technology Data Exchange (ETDEWEB)

    2009-07-01

    The Swedish Energy Agency is proposing a four-year demonstration and development program to support the market introduction of electric vehicles and plug-in hybrids (electric vehicle applications). This in light of the uncertainties in the market introduction of vehicles, cost of key components such as batteries, the possibility of industrial development in Sweden and the uncertainty of how to complement to existing charging infrastructure in an socioeconomic way. In addition to this, the more general aid to electric cars and plug-in hybrids is to be reviewed. Today, electric vehicles, hybrids, ethanol vehicles, bio-gas vehicles and fuel-efficient vehicles, are supported by the green car definition and the environmental classification system. Furthermore, ethanol vehicles and biogas vehicles have support through tax reduction for biofuels. Overall, community support for electric vehicles and plug-in hybrids is lower than for the introduction of ethanol vehicles and biogas vehicles which do not reflect the environmental benefits they have. The review of the general subsidies for electric vehicles and the support through a demonstration program represent a concerted strategy to overcome the initially very high additional cost of these vehicles

  10. Cost studies concerning decontamination and dismantling. The interim store for spent fuel at Studsvik; Kaerntekniska kostnadsstudier avseende dekontaminering och nedlaeggning. Mellanfoervaret foer anvaent kaernbraensle i Studsvik

    Energy Technology Data Exchange (ETDEWEB)

    Sjoeblom, Rolf; Sjoeoe, Cecilia [Tekedo AB, Nykoeping (Sweden); Lindskog, Staffan; Cato, Anna [Swedish Nuclear Power Inspectorate, Stockholm (Sweden)

    2006-04-15

    The interim store for spent fuel at Studsvik was designed and constructed in 1962-64. It has been used for wet storage of fuel from the Aagesta Nuclear Power Plant as well as the R2 reactor at Studsvik. The interim store comprises three cylindrical pools for fuel storage as well as equipment for handling and decontamination. The purpose of the present work is to develop methodology for calculation of future costs for decontamination and dismantling of nuclear research facilities. The analysis is based on information from Studsvik as well as results from information searches. The requirements on precision of cost calculations is high, also at early stages. The reason for this is that the funds are to be collected now but are to be used some time in the future. At the same time they should neither be insufficient nor superfluous. It is apparent from the compilation and analysis that when methodology that has been developed for the purpose of cost calculations for power reactors is applied to research facilities certain drawbacks become apparent, e.g. difficulties to carry out variation analyses. Generally, feedback of data on incurred costs for the purpose of cost calculations can be achieved by using one or more scaling factors together with weighing factors which are established based on e.g. expert judgement. For development and utilisation of such tools it is necessary to have access to estimated costs together with incurred ones. In the report, the following combination of aspects is identified as being of primary significance for achieving a high precision: Calculations with the possibility to calibrate against incurred costs; Radiological surveying tailored to the needs for calculations; Technical planning including selection of techniques to be used; Identification of potential sources for systematic deviations. In the case of the interim store, some of the sources of uncertainty are as follows: Damaged surface layers in the pools; Maintenance status for the drains; Radiological surveying; Compilation and selection of techniques to be used. A number of aspects were compiled in the information search and the results give support to the above conclusions. Leakage to the groundwater and methodology for removal of surface layers might be mentioned as examples. It is assessed, in conclusion, that it is reasonable to achieve a confidence level of 80 % using the above summarised methodology. This assessment is based on known error margins in planning of new plants in combination with achievable reduction in uncertainty in the most important sources of systematic errors in cost calculations for nuclear research facilities.

  11. Nuclear cost studies for decontamination and dismantling. The interim storage for spent fuels at Studsvik.; Kaerntekniska kostnadsstudier avseende dekontaminering och nedlaeggning. Mellanfoervaret foer anvaent kaernbraensle (FA) i Studsvik.

    Energy Technology Data Exchange (ETDEWEB)

    Sjoeblom, Rolf; Sjoeoe, Cecilia [Tekedo AB, Nykoeping (Sweden); Lindskog, Staffan; Cato, Anna [Swedish Nuclear Power Inspectorate, Stockholm (Sweden)

    2005-05-01

    The interim store for spent fuel (FA) at Studsvik was designed and constructed in 1962-64. It has been used for wet storage of fuel from the Aagesta Nuclear Power Plant as well as the R2 reactor at Studsvik. FA comprises three cylindrical pools for fuel storage as well as equipment for handling and decontamination. The purpose of the present work is to develop methodology for calculation of future costs for decontamination and dismantling of nuclear research facilities. The analysis is based on information from Studsvik as well as results from information searches. The requirements on precision of cost calculations is high, also at early stages. The reason for this is that the funds are to be collected now but are to be used some time in the future. At the same time they should neither be insufficient nor superfluous. It is apparent from the compilation and analysis that when methodology that has been developed for the purpose of cost calculations for power reactors is applied to research facilities certain drawbacks become apparent, e.g. difficulties to carry out variation analyses. Generally, feedback of data on incurred costs for the purpose of cost calculations can be achieved by using one or more scaling factors together with weighing factors which are established based on e g expert judgement. For development and utilisation of such tools it is necessary to have access to estimated costs together with incurred ones. In the report, the following combination of aspects is identified as being of primary significance for achieving a high precision: Calculations with the possibility to 'calibrate' against incurred costs; Radiological surveying tailored to the needs for calculations; Technical planning including selection of techniques to be used; Identification of potential sources for systematic deviations. In the case of FA, some of the sources of uncertainty are as follows: Damaged surface layers in the pools; Maintenance status for the drains; Radiological surveying; Compilation and selection of techniques to be used. A number of aspects were compiled in the information search and the results give support to the above conclusions. Leakage to the groundwater and methodology for removal of surface layers might be mentioned as examples. It is assessed, in conclusion, that it is reasonable to achieve a confidence level of 80 % using the above summarised methodology. This assessment is based on known error margins in planning of new plants in combination with achievable reduction in uncertainty in the most important sources of systematic errors in cost calculations for nuclear research facilities.

  12. Portable energy. Research and development of batteries for portable applications in USA; Baerbar energi. Forskning och utveckling av batterier foer portabla tillaempningar i USA

    Energy Technology Data Exchange (ETDEWEB)

    Jonsson, Paer

    1999-07-01

    The aim of this report is to: (1) give a summary of recent activity in the R, D and D on batteries for portable applications in USA, (2) describe governmental funding, (3) describe some future products, (4) list companies, universities and laboratories working with batteries, and (5) inspire to increased Swedish R, D and D activity on batteries, both in industry and in the academic field.

  13. Biofuels from the forest. A study of environmental impacts and economy of different uses; Biobraensle fraan skogen. En studie av miljoekonsekvenser och ekonomi foer olika anvaendningar

    Energy Technology Data Exchange (ETDEWEB)

    Ekstroem, Clas; Amnell, Goesta; Anheden, Marie; Eidensten, Lars; Kirkegaard, Gunilla [Vattenfall Utveckling AB (Sweden)

    2002-04-01

    The energy and environmental council of the Royal Swedish Academy of Engineering Sciences initiated this study of how an additional 30 TWh/year of forest biofuel could be used in the Swedish energy system within a 10-year period. The specifications include that the forest biofuel shall be used in such a manner that the greatest possible reduction in carbon dioxide emissions will be achieved at the lowest cost without risking other environmental goals, such as good quality of local air. The figure chosen as starting point for the study, 30 TWh/year, was selected as it is this amount that available data have suggested could be extracted without negatively affecting the long-term productive capacity of forest land. The long-term potential of biofuel will probably be much larger than the volume used today, together with the additional use of 30 TWh/yr. We therefore studied fields of use that, totally, will be considerably larger than 30 TWh/yr. The starting point for comparisons of different uses for forest biofuel was the available benefit/utility for industrial, transportation and service sectors, together with domestic uses. The reference alternative was the existing uses of fossil fuels. Comparisons of different alternatives were made including differences in fuel consumption, CO{sub 2} emissions, emissions of sulfur dioxide, nitrogen oxides and dust, as well as costs without environmental and energy taxes or subsidies. Monetary estimations of sulfur dioxide, nitrogen oxides and dust in accordance with the EU ExternE Project were included in the costs. In our study, we have used two scenarios as starting points in order to cover the range of results. Summary of results: The largest reductions in CO{sub 2} emissions (generally about 0.6-1 Mtonnes CO{sub 2} /TWh forest biofuel and for heat pumps slightly more than 2 Mtonnes CO{sub 2}/TWh forest fuel) at the lowest cost are obtained when bioenergy replaces electricity produced by coal fired condensing power stations in neighbouring countries. In some of these cases, bioenergy would not imply any additional cost in comparison with the use of electricity produced by coal condensing plants. In most other cases the estimated additional costs will not be higher than about 60 SEK/tonne reduced CO{sub 2} emissions (up to 90 SEK/MWh electricity). If bioenergy in cases with additional costs is to replace electricity from coal condensing plants it is necessary to place a price on the CO{sub 2} emissions by coal power stations and/or submit them to carbon dioxide taxation. This is not the case today. Pellet boilers in multi-family houses can utilise considerable amounts of forest biofuel and provide heating at lower costs than electric boilers. District heating and cogeneration of power and district heating can also utilise large volumes of forest biofuel (up to 20 TWh resulting in more than 12 Mtonnes/year reduced CO{sub 2} emissions) at low added costs (about 60 SEK/tonne reduced CO{sub 2} emissions corresponding to 20-40 SEK/MWh district heating) in comparison with fossil alternatives. Emissions of other air pollutants can then more easily be minimised and will occur further from built-up areas. The amount of electricity that can be produced from forest biofuel at these low added costs in comparison with fossil alternatives is restricted by the level of district-heating production. Today the power transmission systems permit only limited exports of electrical power, and consequently important reductions in CO{sub 2} emissions can be achieved at low cost if electricity from biofuel-fired cogeneration plants, that cannot be exported, is used by new heat pumps in villas. This would also give lower emissions of other air pollutants in urban areas than if pellets or oil were used to fire the villa boilers. Heat pumps and pellet boilers will be the most favourable forest biofuel based heating alternative for villas heated by water radiators. Heat pumps give greater reductions in CO{sub 2} emissions at lower cost provided they can be assumed to be powered by electricity obtained from a forest biofuel based cogeneration plant. If transmission of electricity between Sweden and northern Europe could take place with considerably less physical restrictions than the case today, then the largest CO{sub 2} reductions at the lowest added costs would be obtained through maximal production of district heating and cogeneration electricity, heating of homes and premises that are not linked to the district heating using pellet boilers instead of electric boilers, and by reducing consumption of electricity in villas with direct electric heating by introduction of pellet stoves. In this scenario, the use of heat pumps in villas instead of electric boilers would mean reduced consumption of electricity produced by coal condensing plants and thus result in reduced CO{sub 2} emissions. However, this cannot be related to the use of forest biofuel. (abstract truncated)

  14. Long term effects on wet stored calcium rich fly ash with bearing on ground improvement work; Laangtidspaaverkan av kalkrika flygaskor vid vaatlagring foer anvaendning inom markstabilisering

    Energy Technology Data Exchange (ETDEWEB)

    Lagerlund, Johan; Jansing, Christiane

    2012-02-15

    Generation of electricity and heat by means of thermal power demands a product that can be ignited. This combustible material is usually coal, oil, gas, biomass and waste. If using solid fuels as coal, biomass and waste a by product known as ash is formed in the process; FA, (FA) and bottom ash. Roughly 600 Mt ashes are annually produced throughout the world and 70 weight % of these ashes are FA, 25 weight % bottom ashes and 5 weight % slag. 41 weight % of all ashes are annually reused in some form. Given the environmental impact of combustion i.e. CO{sub 2} emissions, a widened use of biomass fuels and co-combustion is expected in the near future. This will however create new problems when reusing ashes and FA in particular. The reuse of FA within the concrete industry stand for a total of about 25 % but the reuse of non-coal derived FA in the concrete industry is prohibited. Non-coal derived FA usually has higher amounts of calcium oxide, which acts expansively in concrete. Less than 20 % of biomass or co-combustion FA are reused today in Europe. A new standard, the EN 450, is however under construction. This standard will deal with the reuse of noncoal derived FA within the cement and concrete industry. In Sweden, coal is very seldom used as a fuel. More common is the use of biomass, peat and waste. It means that the FA are all non-coal derived and thus derived from reuse within the cement and concrete industry. Beside their non-coal origin, the main part of the FA is produced during November- March. This means that it might be hard to find available FA all year around, making the reuse of FA less attractive. Hence, FA must be stored prior to use. Little research have been made on the storage of calcium rich FA from biomass and co-combustion. Storing FA in a cheap way requires an addition of water to prevent from dusting when stockpiled outdoors. Addition of water in calcium rich FA will however cause an hardening of the material, thus causing detrimental effects within the FA

  15. Digestion with initial thermophilic hydrolysis step for sanitation and enhanced methane extraction in wastewater treatment plants; Roetning med inledande termofilt hydrolyssteg foer hygienisering och utoekad metanutvinning paa avloppsreningsverk

    Energy Technology Data Exchange (ETDEWEB)

    Persson, Emelie; Ossiansson, Elin [BioMil AB, Lund (Sweden); Carlsson, My; Uldal, Martina; Johannesson, Sofia [AnoxKaldnes AB, Lund (Sweden)

    2012-02-15

    Thermophilic (55 deg) pre-hydrolysis has been shown to improve methane yield, organics reduction and/or treatment capacity when applied to anaerobic digestion (Persson m. fl. 2010). The method has also proven to kill off pathogens, making it an interesting hygienisation alternative to pasteurisation. The Swedish Environmental Protection Agency has opened up for the possibility to validate new methods for hygienisation, if the pathogen reduction can be proven to be efficient enough. Thermophilic pre-hydrolysis has several possible advantages to pasteurization; e. g. district heating of lower temperature can be used, the stability of the process may increase, as well as the efficiency and extent of the digestion process. The objective of this study is to evaluate the effect of thermophilic pre-hydrolysis on anaerobic digestion (AD) of sewage sludge with respect to: 1. Biogas/methane production and solids reduction. 2. Correlations between substrate properties, process conditions and effect on the AD process. 3. Pathogen reduction efficiency. 4. Operational consequences. Laboratory trials in continuous and batch mode were conducted on sewage sludge from four Swedish wastewater treatment plants. In the trials thermophilic pre-hydrolysis with consecutive mesophilic AD was compared to conventional one-step mesophilic AD, as well as pre-pasteurisation with consecutive AD. For all the tested sludge samples the reduction of TS and VS increased as a result of thermophilic pre-hydrolysis prior to mesophilic AD. The results with respect to methane yield were not as straightforward. Increased production of biogas was achieved in pilot scale, but the methane production did not improve. In the laboratory trials the effect on methane production varied from -8 % till +18 % for the sludge samples tested. The most positive results were achieved in the test that had the highest organic load and that was fed with a sludge that was low in fat and high in carbohydrates, compared to the other sludge samples. The VS reduction increased more than the methane production as a result of thermophilic pre-hydrolysis prior to mesophilic AD. Possible explanations are loss of hydrogen gas and/or volatile organic compounds in the pre-hydrolysis step, partially aerobic degradation and errors in the gas flow measurements. None of the performed measurements or analyses can confirm the cause, but loss of methane potential through hydrogen release in the pre-hydrolysis step seems most likely. The study has shown that thermophilic pre-hydrolysis has a hygienising effect. In the pilot trial with pre-hydrolysis at 6 hours exposure time and 1.5 days hydraulic retention time the requirements for pathogen reduction that have been suggested for sewage sludge for Salmonella and E-coli were reached, but could not be reached with respect to Enterococcus. In the lab-scale trials with 24 h exposure time the same level of pathogen reduction could not be reached. The results were in these cases inconsequent and difficult to interpret, both from pasteurization and from thermophilic pre-hydrolysis. A possible explanation for this could be that the area of contact per volume is considerably larger in lab scale than in pilot scale. The gas produced in the pre-hydrolysis step needs to be introduced into the main digester in order for it to be fully utilized. If there is a risk that the concentration of hydrogen gas in the pre-hydrolysis step can exceed 25 % by volume, the safety requirements of the plant need to be revised. Simulations have shown that the hydrogen level may momentarily increase after intermittent feeding, so this should be further investigated.

  16. The future market for biogas from waste - Sub-Project 3; Framtida marknaden foer biogas fraan avfall - Delprojekt 3 inom projektet Perspektiv paa framtida avfallsbehandling

    Energy Technology Data Exchange (ETDEWEB)

    Holmstroem, David; Bisaillon, Mattias; Eriksson, Ola; Hellstroem, Hanna; Nilsson, Karolina

    2013-09-01

    The overall aim of the project was to study the conditions, opportunities and constraints for the development of the market for biogas from waste in Sweden. Seven areas of importance to the development have been identified in previous projects. The areas are: market and competition, supply and demand for waste, environmental benefits of biogas utilization, technology development, economic value of biogas, political instruments and the handling of digestate. The ambition has been to create a fact and market report for these areas for stake holders such as operators, representatives of authorities and decision makers. The project is a sub-project of 'Perspectives on future waste treatment'. The goal achievement of the project is expected to be good. During the project, there has also been considerable interest in the results, which is already used by a number of operators, both within and outside the project. Thereby, the results have a good spread, even before the project is completed.

  17. Energy statistics for single-family houses, apartment buildings and non-residential premises in 2012; Energistatistik foer smaahus, flerbostadshus och lokaler 2012

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2013-07-01

    This report presents a summary of energy use and heating method in Swedish buildings (2012). The report covers basically three surveys - energy use in houses, in apartment buildings and premises. These three studies are first published separately. The results are then processed further, with the aim to provide a comprehensive picture of energy use in permanently occupied dwellings (houses and apartments) and commercial buildings (excluding industrial premises). This report presents the results of these operations.

  18. Analysis of algorithms for detection of resonance frequencies in vibration measurements on super heater tubes; Analys av algoritmer foer detektering av resonansfrekvenser i vibrationsmaetningar paa oeverhettartuber

    Energy Technology Data Exchange (ETDEWEB)

    Eriksson, Daniel

    2010-07-01

    Combustion of fuel in thermal power plants emits particles which creates coatings on the super heater tubes. The coatings isolate the tubes and impairs the efficiency of the heat transfer. Cleaning the tubes occurs while the power plant is running but without any knowledge of the actual coating. A change in frequency corresponds to a change in mass of the coatings. This thesis has been focusing in estimating resonance frequencies in vibration measurements made by strain gauges on the tubes. To improve the estimations a target tracking algorithm had been added. The results indicates that it is possible to estimate the resonance frequencies but the algorithms need to be verified on more signals.

  19. Evaluation of pine bark for treatment of water from biomass fueled plants; Utvaerdering av bark foer rening av vatten vid biobraensleeldade anlaeggningar

    Energy Technology Data Exchange (ETDEWEB)

    Hansson, Christina; Hansson, Helen; Hansson, Soeren [Carl Bro Energikonsult AB, Malmoe (Sweden)

    2004-01-01

    In Sweden, large amounts of pine bark are produced as a by-product from the pulp and forest industry. This makes pine bark available in large volumes to a relative low price. Pine bark has shown good absorption effect for organics pollutants, such as oil, in water and pine bark is used commercially as an oil absorbent. In a study the pine bark has also shown to have good absorption effects on heavy metals in water, in laboratory conditions. This indicates that pine bark also could be used as a natural absorbent for heavy metals in flue gas condensate and for leachate from biomass fuel storage. For the latter purpose the bark could be used as a combined heavy metal and oil absorber. In this project the pine barks ability to absorb heavy metals from flue gas condensate has been studied. The tests were performed using an untreated flue gas condensate, which was purified by using a basket filter with commercially available pine bark (trademark EcoBark) as absorbent. The bark filter has the same function as a tube reactor, which would imply that the absorption of heavy metals should be better than the laboratory tests. However, the results from the flue gas condensate tests showed much lower absorption of heavy metals than the laboratory tests. The only significant absorption levels were found for iron and mercury, which showed a reduction ratio of about 25 %. Other metals, such as lead, cadmium, copper, nickel, vanadium and zinc had a reduction ratio of about 10 %, which is quite low compared to the 98 % reduction for lead and about 80 % for copper and zinc that was achieved in the former laboratory tests. The most probable reason that the pine bark had a very low absorbent effect in the flue gas condensate is that the concentration of potassium and calcium restrains the ion exchange capacity of the pine bark. It is also likely that iron mainly is absorbed by the bark, while other metals only are separated as particles. Another possible reason for the rather poor absorption results in the flue gas condensate tests could be that iron affects the absorption of other metals. The water temperature could also have some influence on the results while the laboratory tests were performed at a considerably lower water temperature, 22 C. The flue gas condensate tests also included measurements of COD upstream and downstream the bark filter. The analyses shows that the COD concentration in the condensate upstream the filter is very low, 20-25 mg/litre, while the COD concentration downstream the filter is considerably higher, in the range 40 - 220 mg/litre. The COD before the filter probably originates from the small amount of char particles in the flue gas condensate and the increase of COD after the bark filter comes from humus that has been dissolved from the bark. The heavy metal absorption that has been analysed in the test with flue gas condensate should be comparable with heavy metal absorption from leachate from bio fuel storage, even if the water temperature in the latter case is lower.

  20. Nuclear industry practice for clearance of materials, facilities and buildings as well as land. Tutorial; Kaerntekniska industrins praxis foer friklassning av material, lokaler och byggnader samt mark. Handledning

    Energy Technology Data Exchange (ETDEWEB)

    2011-12-15

    This handbook comprises the common practices of the Swedish nuclear industry for the clearance of material, rooms, buildings and soil in order to be exempted from the Swedish Nuclear Activities Act and the Swedish Radiation Protection Act. After clearance the management/usage of material, rooms, buildings and soil is permitted without any control from the radiation protection point of view. Clearance is practiced to reduce the amount radioactive waste. Cleared material can be reused according to its original form, recycled or, if these two possibilities are not available, disposed as conventional waste. The working procedures described in this handbook are mainly based on the regulation SSMFS 2011:2 from the Swedish Radiation Safety Authority: 'Regulations concerning clearance of material, rooms, buildings and soil from activities with ionising radiation'. The purpose of this handbook is to serve as a tool and guidance for generating specific routines and instructions for clearance. It describes the principles, processes and routines that should be followed under a clearance procedure. The intention is to accomplish the current regulation by following the routines and principles described in this manual. This handbook spans over a large number of conditions towards clearance, such as facility specific conditions and different types of objects. Because not all the conceivable conditions and objects can be included here, the purpose has been to cover the most common types of clearance practices. The practices comprise: - Description of regulations and recommendations, Swedish and international, that represent the basis of the requirements in this handbook. - Presentation of the processes for clearance of material, rooms, buildings and soil. Those which cannot be cleared are considered as radioactive waste. A proposal for the decision-making process is presented. - Illustration for radiological surveys to systems and components, buildings and soil in regard to the radioactive substances carried during the activities. - Description of measuring methods and related technical equipment that can be used in a clearance process. Issues on radiological background in measuring places, detection limits and confidence of measurements are addressed. - Presentation of proposals on routines for clearance, as well as grouping of material flows from a clearance point of view, and discussion on sorting criteria. - Principles for quality assurance and documentation. Detailed directives must be addressed in every company's leading system. - Review on the need of competence for the personnel performing measurements, evaluating results and approving cleared material. Competence profiles for the different roles involved in the clearance process

  1. Biodiversity on mire ecosystems and drained peatlands - a basis for environmental peat harvesting; Biologisk maangfald paa myrar och dikad torvmark - underlag foer ett miljoemaessigt torvbruk

    Energy Technology Data Exchange (ETDEWEB)

    Stedingk, Henrik von (Swedish Biodiversity Centre, Uppsala (Sweden))

    2009-07-01

    The interest of peat harvesting has increased, due to the political ambition to reduce greenhouse gas emissions and to increase the use of local energy sources. Peatlands drained for forestry, a common resource in Sweden, can be a good energy source in terms of greenhouse gas emissions, under certain conditions. The question is what consequences increased peat harvesting would have on biodiversity in the forest landscape. To answer this question this literature study was performed to summarize what is known about the life of a natural and drained mire, and to discuss what conservation values could be found on a drained peatland. The definition of mire is a wetland with active peat accumulation, even if mires also are distinguished based on specific plant communities. A mire often contains several mire types. Some mire taxa are specialized for living on mires, other organisms have other main habitats but utilize the mire for fulfilling their life cycle. The level of knowledge varies for different organisms. The best known groups are vascular plants and bryophytes. They are also used for classifying mires since their abundance is related to gradients of pH, fertility and water level. Arthropods is a diverse group on mires favored by open moist forests and water pools. Poor mires with restricted flora may be good insect habitats. Birds are found in habitats rich in insects. Large mires are richer in wader species thanks to higher heterogeneity and a variety of insect habitats. The microscopic life in peat is rich and the species composition differs from the forest soil, even if the level of knowledge is limited. Drainage leads to species turn over for many groups of organisms and drainage often leads to a decrease in diversity. However, drained peatlands is a collective concept including different peatland types in different succession phases and different intensity of drainage. Therefore in general, drained peatlands cannot be treated as less important for biodiversity than not drained peatlands. The plant succession following drainage leads to denser vegetation and dominance of forest plants. Often drainage is followed by forestry, leading to even lower nature conservation values. Conservation values on drained peatlands are rarely studied. Potential environments for nature conservation in drained peatlands are: 1) Areas with little drainage influence and preserved mire function. 2) Late forest successions after drainage with deciduous trees and dead wood. 3) Open pine forest or swamp forest that act as refugia for old growth lichens and wood fungi. 4) Pools and stream like older ditches with running water. An inventory focused on conservation values on drained peatlands is recommended. Peat harvesting causes ecosystem shift and species living on the mire disappear. An estimation of biodiversity effects from peat harvesting must include the lost mire, time of exploitation, as well as the after-treatment. A longer time perspective is therefore required when evaluating consequences of peat harvesting. The development of a broader spectra of after-treatment involving biodiversity is essential, as well as a system that guarantees a long term perspective in after-treatment for biodiversity. Methods for evaluating effects on the landscape level from increased peat harvesting are required. Increased peat harvesting on drained peatlands could be in convergence with the Swedish environmental goals, if choice of site and after-treatment is based on landscape analysis focusing on biodiversity

  2. Mechanical pre-treatment for enzymatically enhanced energy efficient TMP; Mekanisk foerbehandling av flis foer effektiv enzymatisk paaverkan vid energieffektiv TMP tillverkning

    Energy Technology Data Exchange (ETDEWEB)

    Viforr, Silvia

    2008-11-15

    Thermomechanical pulp (TMP) processes are high energy demanding. This together with the high energy prices of nowadays results in significant costs, why less energy demanding processes are wished. This project has evaluated the potential for energy reductions in a TMP process by a mechanical pre-treatment of the wood chips combined with an enzymatic modification based on a cellulase mixture. The structure of the wood was opened up by the mechanical pre-treatment making it easier for the enzymes to penetrate into the pre-treated wood material. The enzymatic treatment was then run at optimum standard conditions. The EU project - Ecotarget 2004-2008 (www.ecotarget.com) have studied different types of enzymes that could be used for pre-treatment of wood chips in order to save energy during TMP processes. Based on these studies cellulose enzyme was recommended to be used at pre-treatment experiment performed by the Vaermeforsk project. Due to the fact that the Ecotarget-project has also been run during 2008 with activities involving enzymes, the steering board of the Vaermeforsk project took the decision to co-ordinate the experiments from both of the projects. This co-operation increased the funds and also the number of experiments for both of the projects. The experimental results from this project showed that energy reductions at a given tensile index could be achieved if gently mechanical pre-treated wood chips were enzymatically treated. An intensive mechanical pre-treatment gave negative effects on both fibre length and tear index while the light scattering coefficient was promoted, probably due to the fibre shortening. Enzymatic modification of mechanically pre-treated chips showed a favourable modification of the fibres, even regarding the fibre shortening, if compared to mechanical pre-treated chips only. The effects of cellulases was however not as expected, why a high amount of cellulases was used. Other types of enzymes which could attack the primary wall of the wood cell should be tested in mechanical pre-treatment of wood chips for energy savings in TMP processes. Such enzymes could be xylanases, pectinases or proteases. New equipments that could pre-treat wood chips more gently may also be desired

  3. Variations in the wood raw material for pellets manufacture and its influence on the quality of wood pellets; Variationer inom traeraavaran foer pelletstillverkning och deras paaverkan paa pelletskvaliteten

    Energy Technology Data Exchange (ETDEWEB)

    Jirjis, Raida; Vinterbaeck, Johan; Engberg, Jessica [Swedish Univ. of Agricultural Sciences, Uppsala (Sweden). Dept. of Bioenergy; Oehman, Marcus [ETC Energitekniskt Centrum, Piteaa (Sweden)

    2002-05-01

    The aim of this project was to study the variations in properties of raw material and its effect on pellets quality. The project included three parts which together would help describe the relationship between material properties, process parameters and fuel quality. The first part dealt with a small-scale production of pellets using a well defined raw material. The objectives of this part were to study the effect of tree species, stem diameter and storage of raw material on pellets quality. In the second part of the project data concerning characteristics of raw material and product quality were collected from two pellet factories: SAABI AB, where spruce is the major raw material, and Bioenergi i Luleaa AB, which uses mainly sawdust from pine. The objectives of this part of the project were to analyse and evaluate the relationship between raw material properties/process parameters and fuel quality using multivariate data analysis. Part three of this project involved a questionnaire survey in which pellets producers were asked at four occasions during one year of production, to give information about variations in raw material properties during various seasons, characteristics of the material during pressing and to supply data related to process parameters. Data concerning variations in pellet quality during the whole year were also requested. The sawdust used in the first part of the project was originated from small diameter trees (14 cm in average) and large diameter stems (30-36 cm) of Scots pine and Norway spruce. One third of the material was dried at room temperature to a moisture content (MC) around 12 % (fresh weight basis), then frozen until needed. The rest of the material was stored in 32 plastic net bags in a large outdoor pile during the period end of May-January. The average dry matter loss in all assortments after eight months of storage was about 0.5 % per month. An attempt to produce pellets from the fresh and stored material from the various assortments was undertaken using a small Metador press machine. To study the effect of variations in the raw material on pellets quality, the setting of the press equipment was kept unchanged during the pressing of all assortments. Many technical difficulties were encountered during the small-scale manufacturing of the pellets. We only succeeded in pelletizing sawdust from fresh and four-months stored pine but not from 8-months stored pine or spruce assortments. The ash content in sawdust taken from different material was low and varied between 0.2 and 0.35 % of dry weight. The content of ash in the small-scaled produced pellets was close to that of the raw material. The initial average calorific heating values of pine, both thin and large diameter trees, were higher than that of spruce. The concentration of extractives, both those extracted with acetone or with alcohol, were generally higher in pine compared to spruce samples. A marked increase in the concentration of alcohol-soluble extractives was measured during the storing of sawdust from both pine and spruce. The pellets made from this material showed a similar pattern. This increase possibly reflects changes in some chemical components that were affected by the high temperature developed during storage. Attempts to relate the changes occurred in the raw material to the quality of the produced pellets were not totally successful partly due to the large variations within the raw material itself and partly because of the failure to palletise certain assortments. However, general conclusion are still possible to draw. The compact density of individual pellets varied very little between various samples produced by the small-scale pelletizing method. Similar results were obtained in pellets manufactured at the industrial factories. The durability of pellets produced using the small-scale method was generally higher when the raw material was stored before pelletizing. This observation is in agreement with the general opinion of many industrial manufacturers. No clear correlation between the extractives content and pellets durability was observed. Bulk density measurements, reported by the two pellets factories, varied very little between various seasons with possibly a slight increase during the winter. From the results obtained through the first two parts of the project, it was clear that both variables, i.e. raw material properties and process parameters have a considerable effect on pellets quality. Due to various reasons, the results obtained through the survey analyses in the third part of this project, were not sufficient to draw any reliable conclusions concerning the effect of seasonal variations on pellets quality.

  4. Methodology for classification of the H14 criterion according to the directive 2008/98/EC on waste. Proposal of a biotest battery for the classification of hazardous waste. Ecotoxicological testing with bacterium, algae, crustacean and fish embryo; Metodik foer klassificering av H14-kriteriet i Avfallsfoerordningen. Foerslag till biotestbatteri foer klassificering av farligt avfall. Ekotoxikologisk testning med bakterie, alg, kraeftdjur och fiskembryo

    Energy Technology Data Exchange (ETDEWEB)

    Stiernstroem, Sara; Hemstroem, Kristian; Wik, Ola; Carlsson, Gunnar; Breitholtz, Magnus

    2009-02-15

    Waste, including ashes that can cause ecotoxicological effects, should be classified under criterion H-14 in the Directive on Waste 2008/98/EC. The complex nature of ash production and the fact that it has a complex chemical composition makes ecotoxicological hazard and risk assessment of ashes based on mere chemical analysis insufficient. Biological test systems are thus indispensable tools to support the ecotoxicological characterisation and classification of the properties of ashes. The objectives of this study were (1) to develop a leaching procedure suitable for preparation of water extracts for ecotoxicity testing, and (2) to evaluate an ecotoxicological test battery for the characterisation of ashes. A leaching procedure developed for organic compounds was assumed to be more realistic than existing standard methods for preparation of eluates for ecotoxic tests from complex matrices. A modified version of a recirculation column test, the ER-H method, developed for leaching of nonvolatile organic compounds and validated for PAHs and CPs, was used in this study and compared with the batch test EN 14735 (Characterization of waste - Preparation of waste samples for ecotoxicity tests). The ecotoxicological test battery included species representing different trophic levels; the bacterium Vibrio fisheri, a growth inhibition test with the micro algae Pseudokirchneriella subcapitata formerly known as Selenastrum capricornutum, a larval development test with the copepod Nitocra spinipes and an embryo toxicity test with sebra fish (Danio rerio). These test species show a relatively low sensitivity to elevated salinity levels. This test battery can be used to test a wide variety of matrices (e.g. single chemicals, complex effluents, eluates and sediments), and therefore offers flexible solutions for testing of leachates with differing and difficult properties. Both the ashes and their leachates were also analyzed chemically for organic and inorganic substances. All the test organisms responded with distinct concentration-responses when exposed to different bottom/fly ash leachates. The larval development test with Nitocra spinipes was the overall most sensitive test. Despite that, the project demonstrated that no single species or endpoint were the most sensitive to all the ashes. This emphasizes the importance of using a battery of biotests when evaluating ecotoxicological effects of ashes. The observed toxicological effects were not possible to foresee with mere chemical analyses and literature ecotoxicological data, which shows the importance of using a combination of chemical and biological tests when evaluating the ecotoxicological effects of complex eluates. The leaching of inorganic substances, when using the column leaching test developed for leaching of organic compounds, was largely in agreement with the leaching from the standardized batch test (EN 14735). In our opinion the column leaching test is in general more suitable for preparation of eluates used for ecotoxicological characterisation since standard leaching methods for wastes contain features that have been proven to be less suitable for leaching of hydrophobic organic compounds, e.g. end-over-end rotating or shaking and filtration. The preparation of ashes (ageing, drying etc.) before leaching will affect the properties of the eluates. Clearly, this will influence their ecotoxicological properties. Sample treatment should therefore follow a fixed routine before the ecotoxicological tests with ashes are conducted and evaluated. For example, the role of pH in the leaching process must be understood, as well as its importance for the outcome of the ecotoxicity tests. An important conclusion from this study was that to fully understand the hazard potential of the tested ashes, an integrated analysis of biological and chemical data is necessary

  5. Small-scale power production for sustainable development. Households', Utilities' and Retailers' experiences from the market for small-scale solar panels and wind turbines; Smaaskalig elproduktion foer en haallbar utveckling. Hushaalls, energibolags och aaterfoersaeljares erfarenheter av marknaden foer smaaskaliga solpaneler och vindturbiner

    Energy Technology Data Exchange (ETDEWEB)

    Palm, Jenny; Tengvard, Maria

    2009-06-15

    In this report, a special form of small scale renewable solutions marketed towards Swedish households is targeted. During the autumn 2008 the Swedish companies 'Egen El i Stockholm AB' ('Egen El') and 'Home Energy' launched a concept with small scale wind turbines and solar cells that the households connect to the electricity socket so that the own produced electricity can be used directly. The purpose with this report is to analyze how users, retailers and grid companies look upon such small scale production of electricity and discuss what institutional effects own produced energy could have on the electricity market. The main research method used was in-depth interviews. We conducted interviews with representatives of eight retail companies, five grid companies, the industry organization Swedenergy, IKEA Greentech, and 20 households. A main conclusion is that the market concerning households small scale production of electricity is still immature. Though, the media attention that Egen El relieved during spring 2008 has made more households aware of the concept and householders increased interest in the concept is also recognized by other retailers and amongst the grid companies. According to the retailers, it is still hard to make a living from selling these kind of products to household. Nevertheless, they are optimistic and believe that the changes in regulations concerning small scale production of electricity and IKEA's investment in PVs will improve the situation. The grid companies, too, have a positive outlook. Though, they stress a number of problems that could occur with many households producing their own electricity. This is mainly related to security and whether the grid will be able to handle this produced electricity. As for the households, environmental concerns supply the main motive for adopting PVs or micro wind power generation. In some cases, the adopting households have an extensively ecological lifestyle, so such adoption represents a way to take action in the energy area. This investment is symbolic for some, displaying environmental consciousness to others - to set an example. For still others, the adoption is a protest against 'the system' with its large dominant actors or is a way to become self-sufficient. Such micro-generation installations are rejected mainly on economic grounds; other motives are respect for neighbours and difficulties finding a place to install a wind turbine. For these solutions to reach a majority of Swedish households, some important measures are needed to be implemented to eliminate the economic hindrances and to simplify the rules and installation process

  6. The use of FTIR technique for determination of gas phase emissions from wood pellet manufacturing. Evaluation of the Time Correlated Tracer (TCT) method for assessment of diffuse terpene emissions from wood pellet production; Anvaendning av FTIR teknik foer bestaemning av gasformiga emissioner vid traepelletstillverkning. Utvaerdering av Time Correlated Tracer (TCT)-metoden foer bestaemning av diffusa terpenemissioner fraan pelletstillverkning

    Energy Technology Data Exchange (ETDEWEB)

    Svedberg, Urban; Galle, Bo [Sundsvall Hospital (Sweden). Clinic of Occupational and Environmental Medicine

    2001-04-01

    In the original project proposal, quantification of the total emission of terpenes from wood pellet manufacturing with the novel TCT-method (Time Correlated Tracer) based on FTIR-technique (Fourier Transform Infrared) and tracer gas was suggested. The expected outcome was a general algorithm for the calculations of the emissions expressed as amount emitted per unit produced. This information would be useful when planning the location of new facilities in relation to domestic housing as well as to other industrial activities. Initial point sampling with an FTIR White cell was made in order to establish the locations of the sources of terpene emissions. The results showed that the dominating terpene emissions came from the smoke stacks gases and was not of such diffuse nature as originally believed. Neither in the pellet storage room, inside the main process facilities, outside the buildings, nor close to the wood chip storage piles, could terpene be detected with the FTIR point sampling cell. In the smoke stack gases terpenes, carbon monoxide, carbon dioxide, acetone, methanol, ethylene, acetylene, formaldehyde and methane was detected. The conclusions so far is that it is not economically or scientifically justifiable to continue the measurements with the proposed TCT method since, the terpene emissions are not of a diffuse nature. Instead it is concluded that terpene emission is best established by direct measurement in the smoke stack gases. In accordance with the intentions of the project, an algorithm for the terpene emission was established based on the measurements in the smoke stack gases. This algorithm shows an average emission of 255 grams of terpenes per produced ton of pellets. This gives an annual emission of 21,700 kg of gaseous terpenes from the investigated plant, based on an annual production of 85,000 tons pellets. When compared to other establishments processing wood, i.e. saw mills, this amount is not large. The results shed some light on other gaseous emissions and odors present in the factory which previously has raised some concerns among the process operators. In the pellet storage room, elevated levels of aldehydes, primarily hexanal and pentanal along with acetone and methanol were detected. Particularly the relatively high aldehyde levels raise concern from a occupational perspective. It is suspected that the odor from these chemicals also constitute the odors experienced among final users of the product when delivered to their homes. In and around the condensing tanks elevated levels of acetone and methanol were detected. Inside the production halls no elevated levels were detected. Outside the building, elevated levels of formaldehyde, around 1 ppm, was detected, which is above the permissible occupational exposure limit of 0.5 ppm. Finally, it was concluded that the blue haze emitted from the smoke stack, probably was made up of condensed tar.

  7. Ash and sludge covering of mine waste - Final report. Benefits and/or risks using ash and sludge for covering of weathered mine waste; Aska och roetslam som taet- och taeckskikt foer vittrat gruvavfall - Slutrapport. Foerdelar och/eller risker med att anvaenda aska och slam som taet- och taeckskikt foer vittrat gruvavfall

    Energy Technology Data Exchange (ETDEWEB)

    Baeckstroem, Mattias; Karlsson, Ulrika [Oerebro Univ. (Sweden). Man-Technology-Environment Research Centre

    2006-02-15

    One of the main sources for metal pollution in Sweden is mine waste. One way to decrease the leaching of metals from mine waste areas are covering which decreases the volume of acid drainage. There is a shortage of appropriate materials to use for covering and excavation of till and clay from the environment might cause damages on the landscape. Previous studies have demonstrated that sludge and ashes are suitable materials for covering of waste deposits. When covering mine waste with ash and sludge various positive effects would arise, since the production of drainage water decreases as well as the pH increases due to the high buffer capacity of the ash. In Ervalla outside Oerebro an area with mine waste (tailings) has been covered with ash and sludge. This area gives a unique possibility to study benefits and/or risks with the covering of mine waste with ash and sludge. Unfortunately, the covering was not, from the start, carried out in a way that made it possible to evaluate the data. For instance, data about the surface and groundwater quality prior to the covering is lacking. Sulphidic minerals are also very common in the area, giving rise to acidic groundwater from other parts of the area, which haven't been remediated. This report is a final report where all phases are presented (phase 1 and 2). Focus in phase 1 has been on characterization of the material that has been used for covering and initiation of a monitoring program. In phase 2 focus has been on evaluation of monitoring data and the pros and cons of the deposit regarding the environment. Preliminary findings indicate that that the covering increases the leaching of some metals whereas the leaching of some metals decreases. An increase was observed for pH, calcium, potassium, sodium, arsenic, barium, chromium and copper. A decrease in the concentration of iron, nickel, cobalt, lead and zinc was observed. Other benefits with the remediation is also discussed (increased plant growth and an area for storing timber). From the results an approach towards future covering of weathered mine waste with ash and sludge is presented.

  8. Ash and sludge covering of mine waste. Benefits and/or risks using ash and sludge for covering of mine waste; Askor och roetslam som taeckskikt foer gruvavfall. Foerdelar och/eller risker med att anvaenda aska och slam som taeckskikt foer gruvavfall

    Energy Technology Data Exchange (ETDEWEB)

    Baeckstroem, Mattias; Johansson, Inger [Oerebro Univ. (Sweden). Man-Technology-Environment Research Centre

    2004-01-01

    One of the main sources for metal pollution in Sweden is mine waste. One way to decrease the leaching of metals from mine waste areas is covering which decreases the formation of acid drainage. There is a shortage of appropriate materials to use for covering, and excavation of till and clay from the environment might cause damages on the landscape. Previous studies have demonstrated that sludge and ashes are suitable materials for covering of waste deposits. When covering mine waste with ash and sludge various positive effects would arise, since the production of drainage water decreases as well as the pH increases due to the high buffer-capacity of the ash. In Ervalla outside Oerebro an area with mine waste has been covered with ash and sludge. This area gives a unique possibility to study benefits and/or risks with the covering of mine waste with ash and sludge. This report is a summary of the first phase of the project and the focus has been on characterisation of the material that has been used for covering. Also a monitoring program for the area has started. Preliminary findings indicate that that the covering decreases the leaching of some metals whereas the leaching of some metals increases. A decrease in the concentration of iron, nickel, cobalt and lead was observed and an increase was observed for arsenic, barium, chromium and copper.

  9. Outlook on renewable fuels in Sweden - Update and extension of the study 'Opportunities for renewable fuels in Sweden to 2030' by Grahn and Hansson, 2010; Utsikt foer foernybara drivmedel i Sverige - Uppdatering och utvidgning av studien 'Moejligheter foer foernybara drivmedel i Sverige till aar 2030', av Grahn och Hansson 2010

    Energy Technology Data Exchange (ETDEWEB)

    Hansson, Julia [IVL, Stockholm (Sweden); Grahn, Maria [Chalmers Tekniska Hoegskola, Goeteborg (Sweden)

    2013-02-15

    The purpose of this study is to update and extend the authors' analysis, from 2010. The report includes a compilation of other actors visions for the development of renewable fuels, a compilation of control means for renewable fuels, a survey of existing and planned production for biofuels in Sweden and outlook to the world. There is a discussion of Sweden's future import opportunities, a survey of the state of infrastructure and vehicles, and finally scenarios for the development of renewable fuels in Sweden to 2030, with different assumptions. The study's analysis is based on literature studies, contacts with actors in the field and on the results of our own scenarios. The scenarios provide a picture of the potential contribution of renewable fuels, to the Swedish road transport sector, can range from 7 to 16 TWh in 2020 and 13-30 TWh in 2030 (of which 5 to 13 TWh in 2020 and 13-26 TWh in 2030 is the possible domestic contribution that is., without imports)

  10. The basis for decisions in the nuclear waste issue. Experiences of the legislative basis and the EIA process; Grunden foer beslut i kaernavfallsfraagan. Upplevelser av lagstiftningsgrund och MKB-process

    Energy Technology Data Exchange (ETDEWEB)

    Keskitalo, Carina; Nordlund, Annika; Lindgren, Urban (Umeaa Univ., Umeaa (Sweden))

    2009-03-15

    The purpose of the present study is to analyze the multi-level governance process in conjunction with the siting and design of a final repository for spent nuclear fuel. Since no similar activities have ever been implemented in Sweden, there is no available practice for how different laws should be coordinated and interpreted. The study sheds light on three general questions: 1) What is the formal decision-making mandate and what are the decision-making bodies at different levels (municipal level, regional or county level, and national level) according to the legislation, and what interpretation problems have these actors experienced with regard to the legislation and the EIA process? 2) What 'broader public' and organizations besides groups within the formal decision-making mandate have participated in the consultations, and what viewpoints have they expressed regarding the EIA process and consultations? 3) How have judgements and understanding of, and reactions to, risk related to the final repository been handled in the process? The study is mainly based on two different sources of material. A literature review with a focus on nuclear fuel management has been carried out within the social sciences field. Special interest has been devoted to discussing the content of legislation in relation to the EIA process and licensing, and the background and design of the EIA process. The EIA process is of special interest here, since it brings in both formal decision-making bodies and participation by broader groups. Furthermore, the literature review deals with theoretical perspectives regarding perceptions and communication of risk assessments. Literature reviews have also been conducted on minutes from EIA consultations during the period 2001 to 2007. The main source of the material used in the study is interview studies. The interview subjects represent both government authorities and non governmental organizations at the national, regional and local level. The results of the studies show that there are differences in participation between actors at different levels. The interviews show that the municipal level and local environmental organizations have played an active role in the process, while the role played at the regional level by the county administrative boards has been more limited. On the national level, particular attention is given to the state's impact on the EIA process via recommendations for research and financial support for the participation of different groups via the Nuclear Waste Fund. A universal perception of the legislation is that most of the actors feel secure in their own role within their particular profession, but that the interaction between sectoral laws and the Environmental Code is unclear in some respects when it comes to the complex issue of nuclear waste. The interview subjects express the view that the process for EIA and consultations has been based on practice established between the parties who have participated in the site selection process since the early 1990s. The forms for the consultation were thus worked out before the beginning of the formal consultation process in 2001. Many of the environmental organizations perceive that they have entered this process after the consultation form had already been developed, which has somewhat curtailed their chances to influence it. The broadening of participation via the Environmental Code has, however, given the environmental organizations access in another way than they have had via their traditional oppositional role as non governmental organizations outside the establishment. The environmental organizations and established parties have, however, largely had different perspectives on EIA and the role of the consultations. Here established parties, including regulatory authorities, can to some extent be seen as representing a planning paradigm (where the project itself and political decisions about it are in focus), while many environmental organizations traditionally represent an environmental paradigm that focuses on the pr

  11. Evaluation of chemical phenomena that could have an effect on the performance of recirculation strainers in a Ringhals PWR; Bedoemning av kemiska fenomen med betydelse foer silfunktionen i Ringhals PWR-reaktorer

    Energy Technology Data Exchange (ETDEWEB)

    Liljenzin, Jan-Olov [Liljenzins data och kemikonsult, Goeteborg (Sweden)

    2005-01-15

    An evaluation has been made of the various chemical phenomena that could have an effect on the performance of recirculation strainers after a LOCA in a PWR. Values of pH and concentrations in the water at the bottom of the containment have been calculated as functions of time and temperature for a postulated LOCA. The behaviour of glass wool insulation, its dissolution, and precipitation of amorphous silic acid have been evaluated. Also the corrosion of galvanized surfaces has been considered. Dissolution of zinc by hot boric acid solution can lead to a later precipitation of amorphous zinc hydroxide or phosphate when pH increases and temperature drops. Also a possible growth of microorganisms is discussed. A rough classification of the various phenomena possible along a simplified time scale yields the following conclusions: Hours after the beginning of the LOCA: Precipitation of zinc hydroxide and/or phosphate. Dissolution of glass wool giving rise to an increasing concentration of silic acid in the water. Days after the beginning of the LOCA: Continued dissolution of glass wool and increasing concentration of silica in the water. Perhaps a precipitation of phosphates or carbonates of the metal ions released during dissolution of glass wool. Weeks after the beginning of the LOCA: Continued slow dissolution of glass wool leading to a risk of precipitation of amorphous silica. Perhaps a precipitation of phosphates or carbonates of the metal ions released during dissolution of glass wool. Initial growth of microorganisms in the water and on surfaces after mutations and adaptation to the existing environment. Months after the beginning of the LOCA: Continued slow dissolution of glass wool leading to a risk of precipitation of amorphous silica. Perhaps a precipitation of phosphates or carbonates of the metal ions released during dissolution of glass wool. Continued growth of adapted microorganisms.

  12. Contents of a regulatory strategy for assessing future human actions in the safety evaluation of a repository for spent fuels; Innehaallet i en strategi foer myndighetsbedoemning av framtida maenskligt handlande vid vaerdering av saekerheten for slutfoervar

    Energy Technology Data Exchange (ETDEWEB)

    Wilmot, R.D.; Wickham, S.M.; Galson, D.A. [Galson Sciences Ltd., Oakham (United Kingdom)

    2001-08-01

    The objective of this report is to discuss issues that should be considered in the development of a regulatory strategy for assessing future human actions in any forthcoming license application for a deep repository for spent fuel in Sweden and for sites of other repositories. The report comprises an outline of key issues concerning the treatment of future human actions in safety assessment, reviews of regulatory developments, recent safety assessments and supporting studies, and international initiatives on the treatment of future human actions in safety assessment, and the principal elements of a regulatory strategy. Performance assessments (PAs) are generally accepted as providing illustrations of system performance under given sets of assumptions. The results of PAs are clearer and easier to understand if certain large uncertainties are accounted for by determining performance under several different sets of assumptions or scenarios, each of which defines a possible evolution of the disposal system. A number of assumptions can be made that would restrict the scope of an assessment without reducing the credibility of the corresponding safety case. Reducing speculation about technological development, by assuming that the techniques used in future human activities are similar to those currently in use in the region or at similar sites, will simplify the assessment. A distinction is generally made between inadvertent and intentional intrusion, with intentional activities excluded because society cannot protect future populations from their own actions if they understand the potential consequences. A division of human activities into 'recent and ongoing' and 'future' activities considers not only the timing of the activities but also the degree of control or influence that can be imposed on them. Recent and ongoing human activities are those that affect an area beyond the immediate vicinity of the disposal facility and which neither the proponent nor the regulator can influence. Examples include anthropogenic climate change and activities that have recently taken place in the vicinity of the disposal site, such as groundwater abstraction. Future human activities are those that may take place in the vicinity of the disposal system at some time in the future and which may affect the performance of the disposal system by by-passing or affecting the characteristics of the engineered and natural barriers. Institutional controls can prevent or reduce the likelihood of any disruptive activities. It may be inappropriate to treat recent and ongoing human activities in the same way as future human activities. Scenarios that include the occurrence of future human activities are conditional and are used to illustrate the potential behaviour of the system. Scenarios including recent and ongoing human activities are not conditional and may provide a better estimate of system performance than those that exclude such activities. The focus of assessments of future human actions should be on longer-term doses received by groups of people who might anyway be considered in the Reference Scenario In particular, human intrusion assessments should include groups considered in assessments of groundwater releases who may receive additional doses from new pathways arising from future human actions, and groups consuming foodstuffs contaminated by radionuclides brought to the surface during or subsequent to an intrusion and dispersed into, the biosphere. Members of a drilling crew that intrude into a repository do not fulfil the definition of a potentially exposed group because any intrusion would be an isolated activity not occurring on a day-to-day basis. The dose received by one individual from a specific short-term event cannot be compared with a regulatory criteria expressed as an average annual dose. The following outline strategy is proposed as a basis for consultation on the treatment of future human actions. Assessments must include calculations of disposal system performance without any disruptive future human actions. These calculations should include the effects of any recent and ongoing human activities that might affect the performance of the disposal system. Additional calculations should illustrate the potential effects of disruptive human actions. Assessments of future human actions should be based on present-day conditions in the region of the disposal site and similar sites. Site-specific definitions of the region considered and the period examined for defining rates and frequencies should be provided by the proponent. Assessments should consider the long-term effects of disruption through the formation of new pathways and the dispersal of radioactive material in the biosphere. The proponent should develop and justify the scenarios analysed in an assessment. (abstract truncated)

  13. Presentation of safety after closure of the repository for spent nuclear fuel. Main report of the project SR-Site. Part II; Redovisning av saekerhet efter foerslutning av slutfoervaret foer anvaent kaernbraensle. Huvudrapport fraan projekt SR-Site. Del II

    Energy Technology Data Exchange (ETDEWEB)

    2011-07-01

    The purpose of the safety assessment SR-Site is to investigate whether a safe repository for spent nuclear fuel by KBS-3 type can be constructed at Forsmark in Oesthammar in Sweden. The location of the Forsmark has been selected based on results of several surveys from surface conditions at depth in Forsmark and in Laxemar in Oskarshamn. The choice of location is not justified in SR-Site Report, but in other attachments to SKB's permit applications. SR-Site Report is an important part of SKB's permit applications to construct and operate a repository for spent nuclear fuel at Forsmark in Oesthammar. The purpose of the report in the applications is to show that a repository at Forsmark is safe after closure

  14. Measuring of moisture content in biofuel with on-line NIR, for forward control of a fluidized boiler; On-line NIR-fukthaltsmaetning foer styrning av panna i vaermekraftverk

    Energy Technology Data Exchange (ETDEWEB)

    Lestander, Torbjoern; Hedman, Bjoern (Enheten foer biomassateknologi och kemi (BTK), SLU (Sweden)); Funkquist, Jonas; Lennartsson, Andreas; Svanberg, Marcus (Vattenfall Research and Development (VRD), Stockholm (Sweden))

    2008-06-15

    Feedback control of the bed temperature in a fluidized bed boiler can be insufficient and give rise to large variations in operation parameters. This project evaluated the potential for feed forward control of the bed temperature using an online moisture measurement signal of the fuel. The target group is fluidized bed boilers using both fossil and renewable fuels. A NIR spectrometer was installed on the fuel-feed to a 47 MW circulating fluidized bed (CFB) biofuel boiler. Calibration of the signal was performed by extracting fuel samples, drying them and comparing the results with the corresponding spectra. Step tests were performed when steps in fuel moisture were implemented by spraying the fuel with water. Steps in fuel feeding, primary air, secondary air and re-circulated air were also tested. A control model of the process was constructed using the software Matlab. The potential with feed forward control of the bed temperature compared to feedback control was evaluated using the model. The possibility to improve the control of the bed temperature with respect to rapidity from changes in moisture content is considered large. The limiting factor is the reliability and sampling time of the online moisture signal. In laboratory-scale and theoretically, the importance of other fuel parameters on the combustion has also been examined. These parameters are temperature and proportions of free and bound water in frozen and non-frozen material. These studies show that local calibration models may be necessary for proper prediction of moisture in temperatures below 0 deg C. (author)

  15. Characterization of limestone reactivity with SO{sub 2} and sulfur capture modelling under fluidized bed combustion conditions; Bestaemning av kalkstensreaktivitet med avseende paa SO{sub 2} och modellering av avsvavling foer foerbraenning i fluidiserad baedd

    Energy Technology Data Exchange (ETDEWEB)

    Mattisson, T. [Chalmers Univ. of Technology and Univ. of Goeteborg, Goeteborg (Sweden). Dept. of Inorganic Chemistry; Lyngfelt, A. [Chalmers Univ. of Technology, Goeteborg (Sweden). Dept. of Energy Conversion

    1996-12-01

    During combustion of fossil fuels, SO{sub 2} is released to the atmosphere. Because of environmental concern with acid rain, the capture of SO{sub 2} is a very important process. Fluidized bed combustion (FBC) is a combustion method where limestone may be added to the furnace chamber to capture SO{sub 2} as the stable product CaSO{sub 4}. In the present work a relatively simple laboratory method has been developed for characterizing limestone reactivity with SO{sub 2}. The reactivity data from such investigations are used, together with residence time and particle size distribution, in a sulfur capture model for fluidized bed boilers that predicts the sulfur capture as a function of the Ca/S molar ratio. In addition, the model predicts the conversion of CaO to CaSO{sub 4} for all particle sizes present in a boiler. The model was developed and verified using data from two boilers, a 12 and a 40 MW circulating fluidized bed boiler, and showed reasonable agreement for both boilers. In addition to the development of a sulfur capture model, the effects of SO{sub 2} and CO{sub 2} concentrations, particle size, temperature variations, and reducing conditions on the sulfation reaction was studied using a fixed-bed quartz reactor. The sulfation reaction was also studied for long periods of time, up to 60 hours. This was done because of the long residence times of certain particle sizes that may exist in a fluidized bed boiler. From the parameter study it was found that particle size and variations between oxidizing and reducing conditions had a large effect on the sulfation behaviour. The investigation of long sulfation times showed that the reaction continued even at high degrees of conversion, although at a very slow rate. CO{sub 2} concentration had a moderate effect on the sulfation reaction while temperature variations showed no effect on the final conversion between CaO and CaSO{sub 4}. 29 refs, 25 figs, 4 tabs

  16. Environmental impact data for fuels. Part 1: Main report. Resource consumption and emissions from the entire life cycle (New revised edition); Miljoefaktabok foer braenslen. Del 1: Huvudrapport. Resursfoerbrukning och emissioner fraan hela livscykeln (Ny reviderad upplaga)

    Energy Technology Data Exchange (ETDEWEB)

    Uppenberg, S.; Almemark, M.; Brandel, M.; Lindfors, L.G.; Marcus, H.O.; Stripple, H.; Wachtmeister, A.; Zetterberg, L.

    2001-05-01

    This report is a compilation of data concerning environmental impacts from the utilization of different fuels. The entire life cycle is studied, from the extraction of raw materials to combustion. The fuels under study are gasoline, gasoline with MTBE, diesel, fuel oil, LPG, coal, natural gas, peat, refuse, ethanol, RME, DME, methane and wood fuels (forestry residues, Salix, pellets/briquettes). Utilization areas studied are heating plants, cogeneration plants, power plants, domestic boilers, and light and heavy vehicles. In this new edition, the following changes were made: New life cycle analyses have been included, a few new fuels added, electricity from hydroelectric plants, wind power plants and nuclear power plants have been included and some other minor changes.

  17. Calculation methodology for economic comparison between different land uses. With focus on comparisons between energy crops and traditional crops; Kalkylmetodik foer loensamhetsjaemfoerelser mellan olika markanvaendning. Med fokus paa jaemfoerelser mellan energigroedor och traditionella groedor

    Energy Technology Data Exchange (ETDEWEB)

    Rosenqvist, Haakan

    2010-02-15

    There are two main objectives to this report. The first is to describe a calculation method for both short- and long-term analysis of crops, as well as present the basis and reasoning around it. Another objective is to create an approach that lay-people can use to compare energy crops with traditional crops in a sufficiently straight-forward and believable manner. The report describes, discusses and develops the technical aspects to the calculation questions around the analysis of crops that are grown only on small area of land today, but have the potential to be grown on much larger areas in the future. The variable costing calculation approach is used in agriculture as decision-support for what should be produced. The present variable costing calculation approach has been reworked and redeveloped in order to be more applicable as a decision-support tool. This includes its use to decide which crop should be grown in both short- and long-term perspectives, as well as for perennial energy crops. A number of items that impact growing economy and how they can be interpreted in the growing calculations are discussed. Some of the examples are: Fertilization effects; Sales commissions/product prices; Storage/reestablishment; Fertilization of P and K; Crop insurance; Labor costs; Machine costs; Timeliness costs; New production chains and unutilized resources; Interest rates; Land costs; Over overhead costs; and Costs which not are annual. The main objective of this report is a methodological question and not to show the absolute profitability for each particular land use alternative. But even though the calculations have been improved for different land uses, there is material that that can even be used for profitability analyses. This has been performed to a smaller degree in this report. The profitability of Salix growing has been studied for a variety of different conditions. For part of the studies have used the entire growing period of 22 years, part with consideration to three years of established growing. Different rates of fertilization are studied. In the high fertilization cases Nitrogen fertilization with a conventional spreader after harvest, the following year with elevated spreader, and no fertilization the year prior to harvest have been carried out. In the calculation without elevated fertilization, Nitrogen fertilization occurs only the year after harvest. There is even an alternative without any Nitrogen fertilization. In the calculations with sludge, the sludge is the only fertilization that takes place; within these calculations there is even the income inclusion of the receiving of the sludge. There are modest profitability differences between the fertilization options with an exception for sludge fertilization. Fertilization with sludge increases the profitability substantially

  18. Competitiveness of grid-connected solar electricity in Sweden - as seen from the perspective of the utilities and the net owners; Konkurrenskraft foer naetansluten solel i Sverige - sett ur kraftfoeretagens och naetaegarnas perspektiv

    Energy Technology Data Exchange (ETDEWEB)

    Carlstedt, Nils-Eric [Vattenfall Power Consultant AB, Stockholm (Sweden); Karlsson, Bjoern; Kjellsson, Elisabeth; Samuelsson, Olof [Faculty of Engineering (LTH), Lund University, Lund (Sweden); Neij, Lena [International Institute for Industrial Environmental Economics, Lund University, Lund (Sweden)

    2006-12-15

    The objective of this report was to analyse the competitiveness of grid-connected solar power in Sweden - and specifically the competitiveness for energy companies and net owners. In theory, solar power could to a large extent fulfil the electricity demand in Sweden, especially in the summer. However, the high cost of solar cells is a major barrier to implementation. Future technology development and increased efficiency could, however, lead to important cost reductions. The question is if such expected cost reductions would make grid-connected solar power a preferable investment option for energy companies and an interesting alternative for the net owners. The results of the study show that solar power will not be a competitive alternative for the energy companies in Sweden, not in 2020 and probably not in 2050. Other alternatives such as new investments in wind turbines and bio-mass based technology options will be producing electricity at a lower cost. Moreover, solar power will have an unfavourable production profile, generating power in the summertime when less needed. However, by using the reservoirs of the hydro power systems in Sweden as storage capacity, approximately 5 TWh solar power could be allowed in the Swedish electricity system. The results of the study indicate that solar power could have a positive effect on the electricity distribution system since distributed generation will result in lower losses in the system. Moreover, solar power will be produced during daytime when the electricity demand will peak. One of the main challenges for the net owners would be to design the net in such a way that the net and the solar cells could work together in the best possible way. Another challenge would be the high cost for connecting the solar cells to the grid; this cost needs to be reduced. Looking instead at the house-owners as possible investors, solar cells appear as a much more attractive alternative for the future, the value of the solar power is higher for the house-owner at the same time as the cost is lower. The calculated cost is as low as 1 SEK/kWh in 2050 assuming a top rated power of 7 kW. In all, the report shows that solar power will not be a competitive alternative for energy companies in the near future. The net owners will also confront challenges and high cost related to the connection of the solar cells to the grid. In the near term, the interest in investing in solar cells will be associated with house-owners. In a longer time perspective, the development will be much more uncertain. Climate change may force us to invest more in technologies such as solar cells, which in turn may lead to new innovative technology options and new types of solar cells. This may lead to drastic cost reductions and the use of solar cells in conventional technologies such as solar protection devices, windows and facades.

  19. Choices of action and its influence on farmers' attitudes regarding willow and reed canary grass cultivation; Betydelsen av olika handlingsalternativ foer oekat intresse hos lantbrukare att odla salix och roerflen

    Energy Technology Data Exchange (ETDEWEB)

    Jonsson, Aasa; Paulrud, Susanne; Laitila, Thomas

    2010-02-15

    The contribution of energy crops from the agricultural sector is an example of a resource that has a potential to increase substantially in the near future. However, one problem is the lack of interest in cultivating energy crops within the agricultural Several studies have shown that there are a number of reasons for farmers not becoming involved in energy crops. Besides biological aspects, market potential and profitability the farmers are also affected by the available resources on the farm, the effect of the crops on the surroundings, work load, liquidity and the perceived risks. The overall aim with the present study is to increase the knowledge about how to change farmers' attitudes regarding energy crop cultivation, i.e. making them more interested. This study also shows that there is a large fraction of farmers that generally believe they have no or little knowledge of energy crops, such as willow, reed canary grass and hemp. The fraction of farmers considering there is a larger probability of future cultivation of these crops with increased knowledge is also quite large. Energy crop cultivation does not suit everybody. Generally, growing willow and reed canary grass is an alternative for farmers having another business besides agricultural business. Characteristics for these farms are working hours <1500 hours and that the machines are partly owned

  20. Potential utilization of biomass in production of electricity, heat and transportation fuels including energy combines - Regional analyses and examples; Potentiell avsaettning av biomassa foer produktion av el, vaerme och drivmedel inklusive energikombinat - Regionala analyser och raekneexempel

    Energy Technology Data Exchange (ETDEWEB)

    Ericsson, Karin; Boerjesson, Paal

    2008-01-15

    The objective of this study is to analyse how the use of biomass may increase in the next 10-20 years in production of heat, electricity and transportation fuels in Sweden. In these analyses, the biomass is assumed to be used in a resource and cost efficient way. This means for example that the demand for heat determines the potential use of biomass in co-generation of heat and electricity and in energy combines, and that the markets for by-products determine the use of biomass in production of certain transportation fuels. The economic conditions are not analysed in this study. In the heat and electricity production sector, we make regional analyses of the potential use of biomass in production of small-scale heat, district heat, process heat in the forest industry and electricity produced in co-generation with heat in the district heating systems and forest industry. These analyses show that the use of biomass in heat and electricity production could increase from 87 TWh (the use in 2004/2005, excluding small-scale heat production with firewood) to between 113 TWh and 134 TWh, depending on the future expansion of the district heating systems. Geographically, the Stockholm province accounts for a large part of the potential increase owing to the great opportunities for increasing the use of biomass in production of district heat and CHP in this region. In the sector of transportation fuels we applied a partly different approach since we consider the market for biomass-based transportation fuels to be 'unconstrained' within the next 10-20 years. Factors that constrain the production of these fuels are instead the availability of biomass feedstock and the local conditions required for achieving effective production systems. Among the first generation biofuels this report focuses on RME and ethanol from cereals. We estimate that the domestic production of RME and ethanol could amount to up to 1.4 TWh/y and 0.7-3.8 TWh/y, respectively, where the higher figure describes future opportunities. The analysis of biofuels produced using second-generation technology focuses on the design of energy combines and the physical conditions for utilising the produced heat in the district heating systems. Since we consider the utilisation of district heating systems as heat sinks to be relatively limited, it is of great importance to design the energy combines so that the heat production is limited. This can be achieved through good heat integration and optimisation of the biofuel production. Taking the development over the past few years and current policy instruments into account, we find it realistic that the use of biomass in heat and electricity production will increase in line with our estimates, i.e. by 30-50% within the next 10 to 20 years. Future use of biomass in production of transportation fuels, on the other hand, is more difficult to assess

  1. Water Activities in Laxemar Simpevarp. The final disposal facility for spent nuclear fuel - removal of groundwater and water activities above ground; Vattenverksamhet i Laxemar-Simpevarp. Slutfoervarsanlaeggning foer anvaent kaernbraensle - bortledande av grundvatten samt vattenverksamheter ovan mark

    Energy Technology Data Exchange (ETDEWEB)

    Werner, Kent (EmpTec (Sweden)); Hamren, Ulrika; Collinder, Per (Ekologigruppen AB (Sweden))

    2010-12-15

    This report concerns water operations (Chapter 11 in the Environmental Code) below and above ground associated with construction, operation, and decommissioning of a repository for spent nuclear fuel in Laxemar in the municipality of Oskarshamn. SKB has chosen Forsmark in the municipality of Oesthammar as site for the repository, and the report hence describes a non-chosen alternative. The report provides a comprehensive description of how the water operations would be executed, their hydrogeological and hydrological effects and the resulting consequences. The description is a background material for comparisons between the two sites in terms of water operations. The underground part of a repository in Laxemar would, among other things, consist of an access ramp and a repository area at a depth of approximately 500 metres. The construction, operation, and decommissioning phases would in total comprise a time period of 60-70 years. Inflowing groundwater would be diverted during construction and operation. The modelling tool MIKE SHE has been used to assess the effects of the groundwater diversion, for instance in terms of groundwater levels and stream discharges. According to MIKE SHE calculations for a hypothetical case with a fully open repository, the total groundwater inflow would be in the order of 55-90 litres per second depending on the permeability of the grouted zone around ramp, shafts and tunnels. In reality, the whole repository would not be open simultaneously, and the inflow would therefore be less. The groundwater diversion would cause groundwater- level drawdown in the rock, which in turn would lead to drawdown of the groundwater table in relatively large areas above and around the repository. According to model calculations, there would be an insignificant drawdown of the water level in Lake Frisksjoen, the largest lake in the area. The discharge in the most important stream of the area (Laxemaraan) would be reduced by less than ten percent. Comprehensive field inventories have been performed in the area, for instance concerning ecological conditions, agriculture, forestry and private wells. In total, 67 nature objects have been identified, geographically delineated, and classified in terms of nature values. These consist of forest key habitats (or so called objects with nature values), wetlands, lakes and streams. In general, the objects are judged to have low nature values (municipal or local value). Forest key habitats are judged to have higher nature values (regional value), but the main nature values for these objects are not associated to wet or moist conditions. It has neither been found any red-listed or protected species whose survival depends on the level of the groundwater table. However, the area contains species (bats, for instance) that are favoured by a mosaic landscape, including moist/wet areas and ponds. With one exception, it is judged that the groundwater diversion would lead to none, insignificant or small consequences for the identified nature objects. The principal ecological consequence of the groundwater diversion concerns the stream Laxemaraan, for which the consequences of a discharge reduction would be noticeable. Concerning agriculture and forestry it is judged that within the influence area, groundwater table drawdown would reduce the crop yield and the forest yield by up to 10% and 20%, respectively. The groundwater diversion would not affect municipal water supply. However, the Laxemar area contains a large number of private wells, which implies that the groundwater diversion possibly would affect private water supply in terms of reduced well capacity. It would require more detailed investigations of separate buildings and road stretches in order to assess subsidence risks. Buildings and other infrastructure owned by Oskarshamns Kraftgrupp AB (including the reactor buildings O1-O3) and associated water handling would not be affected by the groundwater diversion. Above-ground water operations would include a bridge across Laxemaraan and measures in the vicinity of the surface facility (the industrial area) for the repository, in Laxemaraan and in a ditch (Oxhagsbaecken). During construction of the bridge, measures would be taken to reduce the consequences of turbid water, for instance for spawning fish. No intermediate support in the stream would be required, and the bridge would be constructed not to influence the flow conditions of the stream and not to be a wandering obstacle for people and animals. Other water operations above ground would be executed for handling of drainage water from the underground part of the repository and leachate from a rock dump. These waters would be diverted to Laxemaraan via a constructed 'lake' adjacent to the stream. The leachate would also be treated in a broad irrigation area with a recirculation- and detention pond (Laxemarkaerren).

  2. Materials in Sweden for future production of fuel pellets. A review of possible materials in short- and medium long-term; Raavaror foer framtida tillverkning av braenslepellets i Sverige. En kartlaeggning av taenkbara alternativa raavaror paa kort och medellaang sikt

    Energy Technology Data Exchange (ETDEWEB)

    Martinsson, Lars [Swedish National Testing and Research Inst., Boraas (Sweden)

    2003-07-01

    The use of fuel pellets, mainly produced from sawdust and shavings from the Swedish sawmill industry, has increased during the 1990s among small-scale users such as private houses as well as large-scale users such as thermal power stations. During the last years this increase has continued for small-scale use. Due to a significant increase of the pellet prices the last couple of years the increase for the large-scale users seems to have stopped. It is reasonable to believe that these higher prices depend mostly on lack of raw materials for the fuel pellet production. The greater part of sawdust from Swedish saw mills is used in the pellet industry, the board industry or as an internal fuel. It is reasonable to assume a small increase of present raw material available for pellet production without a further decrease in the use for the board industry. Another sawmill by-product, dry chips, may increase in importance as a fuel pellet raw material and give a small contribution while the green chips should be for use in the pulp industry only. If the use of fuel pellets should increase there is a need for new raw materials. In the short-term, thinning material and cull tree could be alternatives that could give pellets with similar characteristics as present fuel pellets. For large-scale consumers with greater ability to handle problems concerning ash, such as sintering and fouling, as well as particle and gaseous emissions a further choice of raw materials could be possible, such as bark, peat and logging residues. In the longer term energy crops could be used as well as lignin, derived from energy effective pulp industry and from possible large-scale production of ethanol from woody biomass. Nearly all of the different raw materials studied in this review have higher amounts of substances not desirable in combustion such as potassium, chlorine and nitrogen. However, pelletizing gives an unique opportunity to mix different raw materials and possible additives in order to obtain a fuel more optimized than the raw materials on there own.

  3. Materials for higher steam temperatures (up to 600 deg C) in biomass and waste fired plant. A review of present knowledge; Material foer hoegre aangtemperaturer (upp till 600 grader C) i bio- och avfallseldade anlaeggningar

    Energy Technology Data Exchange (ETDEWEB)

    Staalenheim, Annika; Henderson, Pamela

    2011-02-15

    A goal for the Swedish power industry is to build a demonstration biomass-fired plant with 600 deg C steam data in 2015. Vaermeforsk also has a goal to identify materials that can be used in such a plant. This project involves a survey of present knowledge and published articles concerning materials that are suitable for use in biomass and wastefired plants with steam data up to 600 deg C. The information has been gathered from plants presently in operation, and from field tests previously performed with probes. Plants firing only household waste are excluded. The components considered are waterwalls/furnace walls (affected because of higher steam pressures) and superheaters. Fireside corrosion and steam-side oxidation are dealt with. Candidate materials (or coatings) are suggested and areas for further research have been identified. The purpose of this project is to give state-of-the-art information on what materials could be used in biomass and waste-fired plant to reach a maximum steam temperature of 600 deg C. This report is aimed at suppliers of boilers and materials, energy utility companies and others involved in building new plant with higher steam data. In accordance with the goals of this project: - Materials suitable for use at higher steam temperatures (up to 600 deg C steam) in wood-based biomass and waste-fired plant have been identified. Austenitic stainless steels HR3C, TP 347 HFG and AC66 all have adequate strength, steam-side oxidation and fireside corrosion resistance for use as superheaters. AC66 and HR3C have better steam-side oxidation resistance than TP 347 HFG , but TP 347 HFG has better fireside corrosion resistance. It is recommended that TP 347 HFG be shot-peened on the inside to improve the oxidation resistance if in service with steam temperatures above 580 deg C. - Furnace walls coated with Ni-based alloys or a mixture of Ni- alloy and ceramic show good corrosion resistance at lower temperatures and should be evaluated at higher pressures/temperatures - Ferritic/martensitic steels are not suitable for superheaters because of their poor fireside corrosion resistance - Ways of reducing corrosion have been suggested. They are the use of additives and moving the position of the final superheaters to a less aggressive environment. - More work is needed on furnace walls at higher pressures/temperatures and other (super) austenitic stainless steels, with adequate creep strength should also be evaluated. - For straw, materials have not been tested with 600 deg C steam. Alloys with high chromium contents should be avoided and TP 347 HFG is the material with the lowest corrosion rate which has been identified so far

  4. Impact assessment of the impact on nature values of the construction and operation of the repository for spent nuclear fuel at Forsmark; Konsekvensbedoemning av paaverkan paa naturvaerden av anlaeggande och drift av slutfoervar foer anvaent kaernbraensle i Forsmark

    Energy Technology Data Exchange (ETDEWEB)

    Allmer, Johan (Ekologigruppen AB, Stockholm (Sweden))

    2011-03-15

    Construction and operation of a repository at Soederviken in Forsmark, Oesthammar municipality means impact, effects and consequences for the environment. This report describes the natural conditions and natural values in Forsmark with particular focus on Soederviken. Furthermore, an assessment of consequences for the natural environment in the development and operation of a repository at Soederviken. Assessment of impacts from water activities are treated in a special report.

  5. Removal of groundwater from final repository in Forsmark. Description of consequences for nature values and forest production; Bortledande av grundvatten fraan slutfoervarsanlaeggningen i Forsmark. Beskrivning av konsekvenser foer naturvaerden och skogsproduktion

    Energy Technology Data Exchange (ETDEWEB)

    Hamren, Ulrika; Collinder, Per; Allmer, Johan (Ekologigruppen AB (Sweden))

    2010-11-15

    The Swedish Nuclear Fuel and Waste Management Co (SKB) has chosen Forsmark in the Municipality of Oesthammar as site for the final repository for spent nuclear fuel. This report describes consequences for nature values and forestry due to groundwater diversion during construction and operation of the repository. The report concerns nature values that depend on, or are favoured by, a groundwater table close to or above the ground surface

  6. Comparison between the KBS-3 method and the deep borehole for final disposal of spent nuclear fuel; Jaemfoerelse mellan KBS-3-metoden och deponering i djupa borrhaal foer slutligt omhaendertagande av anvaent kaernbraensle

    Energy Technology Data Exchange (ETDEWEB)

    Grundfelt, Bertil (Kemakta Konsult AB (Sweden))

    2010-09-15

    In this report a comparison is made between disposal of spent nuclear fuel according to the KBS-3 method with disposal in very deep boreholes. The objective has been to make a broad comparison between the two methods, and by doing so to pinpoint factors that distinguish them from each other. The ambition has been to make an as fair comparison as possible despite that the quality of the data of relevance is very different between the methods

  7. The basis for decisions in the nuclear waste issue. Experiences of the legislative basis and the EIA process; Grunden foer beslut i kaernavfallsfraagan. Upplevelser av lagstiftningsgrund och MKB-process

    Energy Technology Data Exchange (ETDEWEB)

    Keskitalo, Carina; Nordlund, Annika; Lindgren, Urban (Umeaa Univ., Umeaa (Sweden))

    2009-03-15

    The purpose of the present study is to analyze the multi-level governance process in conjunction with the siting and design of a final repository for spent nuclear fuel. Since no similar activities have ever been implemented in Sweden, there is no available practice for how different laws should be coordinated and interpreted. The study sheds light on three general questions: 1) What is the formal decision-making mandate and what are the decision-making bodies at different levels (municipal level, regional or county level, and national level) according to the legislation, and what interpretation problems have these actors experienced with regard to the legislation and the EIA process? 2) What 'broader public' and organizations besides groups within the formal decision-making mandate have participated in the consultations, and what viewpoints have they expressed regarding the EIA process and consultations? 3) How have judgements and understanding of, and reactions to, risk related to the final repository been handled in the process? The study is mainly based on two different sources of material. A literature review with a focus on nuclear fuel management has been carried out within the social sciences field. Special interest has been devoted to discussing the content of legislation in relation to the EIA process and licensing, and the background and design of the EIA process. The EIA process is of special interest here, since it brings in both formal decision-making bodies and participation by broader groups. Furthermore, the literature review deals with theoretical perspectives regarding perceptions and communication of risk assessments. Literature reviews have also been conducted on minutes from EIA consultations during the period 2001 to 2007. The main source of the material used in the study is interview studies. The interview subjects represent both government authorities and non governmental organizations at the national, regional and local level. The results of the studies show that there are differences in participation between actors at different levels. The interviews show that the municipal level and local environmental organizations have played an active role in the process, while the role played at the regional level by the county administrative boards has been more limited. On the national level, particular attention is given to the state's impact on the EIA process via recommendations for research and financial support for the participation of different groups via the Nuclear Waste Fund. A universal perception of the legislation is that most of the actors feel secure in their own role within their particular profession, but that the interaction between sectoral laws and the Environmental Code is unclear in some respects when it comes to the complex issue of nuclear waste. The interview subjects express the view that the process for EIA and consultations has been based on practice established between the parties who have participated in the site selection process since the early 1990s. The forms for the consultation were thus worked out before the beginning of the formal consultation process in 2001. Many of the environmental organizations perceive that they have entered this process after the consultation form had already been developed, which has somewhat curtailed their chances to influence it. The broadening of participation via the Environmental Code has, however, given the environmental organizations access in another way than they have had via their traditional oppositional role as non governmental organizations outside the establishment. The environmental organizations and established parties have, however, largely had different perspectives on EIA and the role of the consultations. Here established parties, including regulatory authorities, can to some extent be seen as representing a planning paradigm (where the project itself and political decisions about it are in focus), while many environmental organizations traditionally represent an environmental paradigm that focuses on the pr

  8. The conditions for use of reed canary grass briquettes and chopped reed canary grass in small heating plants; Foerutsaettningar foer anvaendning av roerflensbriketter och hackad roerflen i mindre vaermecentraler

    Energy Technology Data Exchange (ETDEWEB)

    Paulrud, Susanne; Davidsson, Kent; Holmgren, Magnus A. (Swedish National Testing and Research Inst., Boraas (Sweden)); Hedman, Henry; Oehman, Rikard; Leffler, Joel (ETC, Piteaa (Sweden))

    2010-09-15

    The aim of this study was to test fuel blends of briquettes and chopped reed canary grass in three existing heating plants (50 kW - 500 kW) and elucidate the requirements for good performance and low emissions. In addition, the study investigated production of reed canary grass briquettes using a Polish screw press developed for straw. Some tests with a bale shredder were also undertaken. The screw press technique is of interest for reed canary grass because it is a simple technique, easy to handle, developed for small scale production, and for straw. The test with reed canary grass in this study showed that the technique worked well but that further adjustments and a longer test period are needed in order to achieve higher bulk density and mechanical strength. The test with chopped reed canary grass shows that a system with a forage harvester is slightly more effective than baling and cutting in a bale shredder. The study concluded that few existing heating plants of size 50 kW-1 MW that currently use wood fuels will be able to use reed canary grass without adjustment, conversion or replacement of the combustion equipment. Reed canary grass has 15-20 times higher ash content than wood briquettes and 2-3 times higher ash content than forest residue; the combustion equipment must be able to handle these properties. The boiler must be equipped with a continuously operating ashing system and it must be possible to move the ash bed mechanically. There is a risk of high content of unburned matter if the residence time in the boiler is too short, due to the structure and low bulk density of the reed canary grass ash. Using a blend of wood briquettes and reed canary briquettes results in lower ash content, but also affects the ash chemistry and tends to lower the initial ash fusion temperature compared to using 100 % reed canary grass. Blending chopped reed canary grass and wood chips in an existing small scale heating plant also requires measures to achieve an even fuel blend and uniform feed to the boiler. To facilitate the development of reed canary grass as an energy crop, it is important that potential users have access to an overview and assessment of appropriate combustion techniques on the European market today. More demonstration projects are also needed, as well as practical development of fuel handling systems, combustion systems, flue gas cleaning and combustion control systems

  9. Deletion of groundwater from a disposal facility in Laxemar. Description of the consequences for nature values and production land; Bortledande av grundvatten fraan en slutfoervarsanlaeggning i Laxemar. Beskrivning av konsekvenser foer naturvaerden och produktionsmark

    Energy Technology Data Exchange (ETDEWEB)

    Hamren, Ulrika; Collinder, Per; Allmer, Johan (Ekologigruppen AB, Stockholm (Sweden))

    2010-10-15

    SKB has chosen Forsmark in the municipality of Oesthammar as site for the repository for spent nuclear fuel. This report describes consequences for nature values, agriculture and forestry due to groundwater diversion from a repository at the non-chosen Laxemar site in the municipality of Oskarshamn. The report concerns nature values that depend on, or are favoured by, a groundwater table close to or above the ground surface. Laxemar is a valuable area from a nature conservation point of view, primarily associated to the cultural- and forest landscape and its prior use for pasture and hay-making. Hence, these values depend on factors other than the level of the groundwater table. Except for old pastures and haymaking areas, many high nature values consist of hardwood-forest groves and old solitary deciduous trees. 67 groundwater-dependent or groundwater-favoured nature objects (wetlands, pieces of forest and surface water) are identified in the investigated area. No nature object is judged to have national value (class 1). 15 nature objects (pieces of forest) are judged to have regional value (class 2), 18 have municipal value (class 3) and 34 local value (class 4). It is judged that a drawdown of the groundwater table only would result in small consequences for the nature values of the area in its entirety. The nature objects that would be affected by the largest groundwater-table drawdown have relatively low nature values and consist of small wetlands with local value (class 4). The low nature values of these objects imply that the consequences of the groundwater diversion would be small. Nature objects with higher nature values (regional or municipal value) consist of forest key habitats and ancient pastures on previously argued land. The nature values of these objects are hence dependent on factors other than the level of the groundwater table, which implies that the consequences would be small also for these objects. The consequences would be largest (noticeable) for the stream Laxemaraan, due to reduced stream discharge and drier conditions along parts of the stream. The groundwater diversion would not cause any consequences for protected areas. The investigated area does not contain any known red-listed species associated to wetlands or wet forest areas. It is judged that the groundwater diversion would lead to insignificant to small consequences for protected frogs. There is a proposal concerning restoration of a wetland in Laxemaraan. This measure would partly counterbalance the consequences for frogs of the groundwater-table drawdown in Laxemar. It is judged that the groundwater diversion would lead to a harvest reduction of slightly more than 10% and a forest-yield reduction of approximately 20 % in the influence area of the groundwater table drawdown. These are rough judgements that provide upper reduction limits

  10. The development of fast reactors - Effects on the Swedish system of management of spent fuel; Utveckling av snabba reaktorer - Paaverkan paa det svenska systemet foer hantering av anvaent braensle

    Energy Technology Data Exchange (ETDEWEB)

    Hans Forsstroem, Hans [SKB International AB, Stockholm (Sweden)

    2013-09-15

    Since the start of the nuclear power era studies have been performed of how to utilise the uranium energy resource in the most effective way. Only about one percent of the energy potential of uranium is utilised in the light water reactors of today. To improve the utilization other types of reactors are needed. With fast reactors theoretically 50-100 times more energy can be extracted from the uranium. This will require reprocessing of the uranium and multiple recycling of the plutonium. Plutonium and uranium can also be recycled in light water reactors, but this will only improve the uranium utilisation by about 20 %. Recycling of plutonium on a routine basis is presently only done in France. The development of fast reactors has been going on since the end of the 1940ies. During the 1970ies the planning was that a large number of fast reactors and their associated fuel cycle facilities would be in operation by the year 2000. The development has, however, for different reasons been much slower than planned. The general assessment today is that fast reactor, if they will be realised, will hardly give an important contribution to energy production until after 2050. Nuclear power production has instead been dominated by light water reactors similar to the ones in use in Sweden. Light water reactors are believed to continue to dominate during the next decades. To start a fast reactor system plutonium (or highly enriched uranium) will be needed. Such plutonium is contained in spent nuclear fuel from light water reactors. This raises the question: Should the spent nuclear fuel be stored so that the potential energy resource in the fuel can be used in the future instead of disposing of it as a waste? The answer to this question will depend on when the material will be useful, i.e. when fast reactors have been introduced on a large scale. It will also depend on the demand for plutonium at this time, i.e. will plutonium be a scarce redundant resource at this point of time. In this context it should be considered that fast reactors will generate their own plutonium, as breeder reactors. Plutonium from other reactors will thus only be needed for the first years of operation. To provide a basis for the answer to the question if the Swedish spent fuel is a resource or a waste this report provides an overview of the present development status for fast reactors and their potential for large scale commercial use. It further describes the impact on the Swedish system for management of spent nuclear fuel if the fuel were to be reprocessed and the uranium and plutonium reused as fuel for fast reactors or for the present reactors.

  11. Status, remaining service-life and quality assurance of PP-materials in flue-gas applications; Status, kvarvarande livslaengd och kvalitetssaekring av PP-material i anlaeggningar foer rening och kondensering av roekgaser

    Energy Technology Data Exchange (ETDEWEB)

    Jacobson, Karin

    2011-10-15

    Background: The project is intended to provide a better understanding of how the service life of PP-materials is affected when used in flue-gas applications. It intends to form a basis for the development of relevant techniques and a methodology from which it is possible to give advice and guidance so that the quality of PP-materials can be ensured for a given desired service life. In addition it aims as being able to assess the status and remaining life of PP-materials in current components. Project outline - An inventory, contact and choice of facilities for closer cooperation. Plants with high proportions of PP in the equipment have been prioritised. - Visits to the chosen sites during shut-down periods for inspection and collection of samples from different PP details for further analysis in the laboratory. Collection of operating data and experiences of the use of PP (operating time/exposure conditions in different parts, component substitutions that have been made, etc.). - Systematic studies of the processes and mechanisms for stabiliser consumption over time. - Developing methods and methodology on which advice and guidance can be based so that the quality of PP-materials can be ensured for a given desired service life. The goal is to be able to assess the status and remaining service-life of the PP-materials in flue-gas applications. Results and Conclusions: It has been found that corrosion is relatively rare and that the main factors limiting the use and longevity of polypropylene are the thermal properties (thermal expansion and heat distortion). Leaching of stabilisers from the material is also commonly found but only a few cases of oxidative degradation, as a result of this, have been observed. An important part of the project has been to develop techniques and methodologies to assure the quality PP-material for a desired service life, and to assess the status and remaining life of the PP- materials in flue-gas applications. To do this, samples that had been exposed in the Brista and Igelsta works for an earlier Vaermeforsk Project (Materials for flue gas condensation, Stage 2, M4-303, 2004) were very useful for this. Here the OIT method, which has traditionally been the most commonly used to assess the remaining service life with respect to stabiliser concentration, was compared with FTIR and FTIR line-scan. It turned out that, especially the latter method, gives a clearer and fuller picture of the remaining amount of stabiliser than OIT. It also has the potential to be even more sensitive by further method development. However, none of the methods can provide a clear picture of the remaining life. It turned out that one material which would have been recommended to be taken out of service after only eight months in operation (according to all three techniques) survived another 3 years without detecting even the smallest decline in material properties. News value The results from the method development are interesting not only for the use of PP in flue-gas applications, but for all environments where PP is used. Further development of the line-scan FTIR technique may provide new opportunities for more correct lifetime predictions.

  12. Treatment and disposal of radioactive wastes from nuclear power plants. Program for encapsulation, deep geologic deposition and research, development and demonstration; Kaernkraftavfallets behandling och slutfoervaring. Program foer inkapsling, geologisk djupfoervaring samt forskning, utveckling och demonstration

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1995-09-01

    Programs for RD and D concerning disposal of radioactive waste are presented. Main topics include: Design, testing and manufacture of canisters for the spent fuels; Design of equipment for deposition of waste canisters; Material and process for backfilling rock caverns; Evaluation of accuracy and validation of methods for safety analyses; Development of methods for defining scenarios for the safety analyses. 471 refs, 67 figs, 21 tabs.

  13. Adaptation to Climate Change in Risk and Vulnerability Analysis on a Municipal Level, a basis for further work; Anpassning till klimatfoeraendringar i risk- och saarbarhetsanalyser paa kommunal nivaa, underlag foer fortsatt arbete

    Energy Technology Data Exchange (ETDEWEB)

    Mossberg Sonnek, Karin; Lindberg, Anna; Lindgren, Johan

    2007-12-15

    The aim of Risk and Vulnerability Analysis (RVA) at local authority level in Sweden is to increase the capacity of local authorities to handle crises and to reduce vulnerability in the community. RVA processes could be an appropriate starting-point for discussions on how the community is influenced by climate change and how its effects could be reduced using various adjustment measures. In the report we present four methods: ROSA, MVA, IBERO and the Car Dun AB method. These have all been developed to support Swedish local authority RVA processes. We also present five international frameworks that have been developed by the organisations UNDP, USAID, UKCIP, C-CIARN and CSIRO to help decision-makers and stakeholders to adapt to climate change. Together, these descriptions form a foundation for continuing the work being done within the project Climatools, in which tools are being produced to be used by local authorities in adapting to climate change. In the report, we also discuss the concepts 'risk', 'vulnerability' and 'adaptation' and how analysis of adaptation to climate change has changed in recent years.

  14. Present status and an appreciation of the consequences for recreation and outdoor leisure activities from siting a nuclear waste repository at Forsmark; Nulaegesanalys samt bedoemning av konsekvenser foer rekreation och friluftsliv av ett slutfoervar i Forsmark

    Energy Technology Data Exchange (ETDEWEB)

    Ottosson, Pia [Atrax Energi AB, Stockholm (Sweden)

    2007-07-15

    This report describes how the area around Forsmark is used with respect to recreation and outdoor life. It also describes the impact of the final repository on recreation and outdoor life if it is located in Forsmark. The studied area is situated in the parish of Forsmark in the municipality of Oesthammar. Forsmark nuclear power plant and the final repository for radioactive operational waste, SFR, are situated within the area and there are both houses and holiday houses. The area is used for leisure pursuit by inhabitants and employees at FKA and SKB, but also by a number of different associations and by tourists. Statistical data shows that the parish of Forsmark is sparsely populated. The area was previously dominated by one big landowner and the land surrounding the nuclear power plant was inaccessible to the general public during that period. The outdoor life is therefore less widespread here than along other parts of the east coast. The value of the area does not lie in paths and trails, bike tracks and bathing places, but in the unspoiled countryside, the wildlife and the bird life. Recreation such as hunting and fishing is very popular in the area. The construction of a final repository will increase traffic and hence increase noise and motion in the area. This will mainly impact the enjoyment value for the people spending time in the area. No other significant consequences are expected as the final repository will be mainly situated within the existing industrial complex and hence the character of the area should remain unchanged.

  15. Present status and an appreciation of the consequences for recreation and outdoor leisure activities from siting a nuclear waste repository at Oskarshamn; Nulaegesanalys samt bedoemning av konsekvenser foer rekreation och friluftsliv av ett slutfoervar i Oskarshamn

    Energy Technology Data Exchange (ETDEWEB)

    Dahlstroem, Kristina

    2007-07-15

    This report describes recreation and outdoor life in and around Simpevarp/Laxemar area. It also describes the impact of constructing a final repository for spent nuclear fuel on the outdoor life. The study area in this report is situated in the parish of Misterhult, in the municipality of Oskarshamn. Oskarshamn nuclear power plant (OKG) and the interim storage facility for spent nuclear fuel (Clab) are situated within the area. The parish of Misterhult is sparsely populated and includes both houses and holiday cottages. The area is used for various kinds of recreation by inhabitants from surrounding villages and employees at OKG and SKB (Swedish Nuclear Fuel and Waste Management Co), and also by a number of different associations and by tourists. Misterhult archipelago has the highest values for recreation and outdoor life in the study area. Many water related activities, such as swimming, sailing, fishing, diving, kayaking and canoeing are conducted in the region Hamnefjaerden, Kraakelund and a walking track called Ostkustleden are three other places in the study area which are popular for outdoor life. SKB and OKG facilities are also visited by many tourists. Disturbances to the recreation and outdoor life during construction and operation of a final repository and a interim storage facility will occur in the form of increased noise and movement in the area, mostly from the traffic. The consequences of these disturbances are: Decreased serenity, which will probably decrease the enjoyment value for the people spending time in the area. The final repository in Laxemar will likely require road access that will cross the walking track. Various prevention and compensation measures, such as noise restrictions and a new section of the walking track at Ostkustleden, are suggested to minimise and/or mitigate the consequences. Also measures that increase the value of recreation and outdoor life are listed, for example an exhibition about the areas nature and culture. Specific compensation and mitigation measures will be outlined in the next design step.

  16. Practical consequences of the Water Framework Directive implementation for combustion plants. New water cleaning technologies and methods for improvement of effluent discharges; Praktiska konsekvenser foer foerbraenningsanlaeggningar vid infoerandet av Vattendirektivet. Nya reningstekniker och foerbaettringsaatgaerder vid utslaepp till vatten

    Energy Technology Data Exchange (ETDEWEB)

    Axby, Fredrik; Hansson, Christina [Carl Bro Energikonsult AB, Malmoe (Sweden)

    2004-11-01

    As a consequence of the growing impact on water resources the Water Framework Directive was legislated in 2000. The directive should ensure that a 'good water status' and entail a coordinated legislation striving for a long-term protection of all water resources. Stakeholders should be able to participate in the preparations of river basin management plans and programs of measures. District based water authorities will administrate the implementation and are mandated to decide upon regional environmental quality standards and promulgate fees for water use and discharges. The Directive contains a list of 33 prioritized substances that should be reduced or phased out. Discharges from combustion plants contain twelve, polyaromatic hydrocarbons (PAH) and heavy metals. PAH and heavy metals impacts growth and vital functions as respiration and photosynthesis of water living organisms and induces cancer in humans. NOEC-values (NO Effect Concentration) state manageable substance concentrations for an organism. Flue gas condensate contains concentrations of some of the substances which impact exceeds the critical state level. Extended sewage treatment could thus be needed. Sludge, wash and soot water contains elevated levels of heavy metals. This water is normally treated by municipal sewage treatment. Further treatment at plant site could be relevant. Presence of PAH and heavy metals in leach water depends on the precipitation. Additional flowing-independent water treatment could be relevant. It is very uncertain how plant owners will be affected. Licenses could be reviewed and standards could be raised for sensitive recipients; new limits for prioritized substances and standards for other types of discharges and water fees could be added. Respites could be given if costs exceed the benefits. Location, ecotoxicological risk assessments and precautionary measures could become more relevant in an EIA. Pricing of water could take place by using a system of emissions trading. Plant owners could make an impact by participating in development of environmental quality standards plans and programs by representation in public consultations and cooperative groups. Methods for improvement to meet the new standards are presented in the categories fuel, combustion, flue gas- and flue gas condensate treatment. The prioritized substances shouldn't be introduced or generated in the system to avoid costly investments of advanced technologies. Heavy metals are reduced by the choice of fuel and complete combustion generates less PAH. Both of the substances could be reduced by the separation of particles. An example of an appropriateness assessment according to a model considering the overall plant conditions including technological, economic and organizational aspects is demonstrated. For a 'standard plant' the best choice of fuel would be wood chips combined with stable combustion. Given the prerequisites of the model, the most appropriate flue gas treatment were a bag filter without chemical dosing and the most appropriate flue gas condensate-, slug-, wash-, and soot water treatment would be sand- or lamella filter with pH-adjustment, together with leach water treatment by sedimentation and sand filter. If another type of plant would be considered, other methods would be more optimal Hence, the model should be used in a 'plant specific' manner and then be a useful tool in negotiations with authorities if/when measures will be taken to reach the standards of the Water Framework Directive.

  17. ORC for electricity production in district heating plants. Experience of biomass fired boilers with electricity production based on ORC; ORC foer elproduktion i vaermeverk. Erfarenheter fraan biobraensleeldade pannor med ORC-baserad elproduktion

    Energy Technology Data Exchange (ETDEWEB)

    Goldschmidt, Barbara

    2007-12-15

    The ORC (Organic Rankine Cycle) technology is an option for the production of electricity in heat production plants with steam boilers. Traditionally, the ORC technology has been used mainly in geothermal applications. However, during the last five years, it has become of interest also in bioenergy plants with electricity production in the 0,5-2 MW{sub e} range. Among others in Austria and Germany a number of plants have been installed during the first decade of the 2100th century. Today (2007), about 70 biomass based ORC plants are in operation in Europe. About 30 more plants are under installation and commissioning. In total, around 100 plants will be operating in the near future. In today's biomass fuelled ORC type CHP plants, the ORC circuit is driven by the energy in the flue gases from a biomass fuelled furnace. Via a thermal oil boiler, the energy is transferred to the ORC circuit. The ORC circuit is connected to the district heating net for cooling. Due to the fact that the ORC circuit is connected to 300 deg C flue gas, as compared to the 1990's waste water based ORC plants, an electrical yield of nearly 20% net is obtained in the ORC circuit. The overall electrical yield based on biomass is almost 16%. In the report, operational experience from a number of plants is reported. The economic advantage of the technology is discussed. In conclusion, the ORC technology is more economical than conventional steam turbine technology in the 0,5-2 MW{sub e} range. The calculated investment for a 2 MW{sub e} ORC based CHP plant is 40 kSEK/kW{sub e}, which is considerably lower than for a conventional steam turbine based CHP plant

  18. HMI-Design of System Solutions in Control Rooms. Description of a Working Process from a Human-Machine Perspective; MMI-design av systemloesningar i kontrollrum. Arbetsprocess foer utformning utifraan ett maenniska-maskinperspektiv

    Energy Technology Data Exchange (ETDEWEB)

    Bligaard, Lars-Ola; Andersson, Jonas; Thunberg, Anna; Osvalder, Anna-Lisa

    2008-01-15

    To stay competitive, the process industry of today faces increasing demands of continuous development for efficient use of both technical and human resources. An important step is to create new useful technical solutions, which also bring demands on functionality and usability. Functionality means that the new technology fulfils its purpose, while usability means that the human operator knows how to handle the new technology. If any of these two components are inferior, the potential of new technology will never be fully utilized. Today, a growing amount of advanced information technology is being used in supervisory control, at the same time as the process complexity is increasing. The technology has thereby become more difficult to understand, supervise and control, when processes, connections and logics are not visible in the same way as earlier. An increased level of automation together with reduced work force is also a contributing factor. Due to this, human-machine interaction (HMI) has become a more important aspect of quality in the development of new technology. From the operators' point of view, it is important that the development takes place with an increased transparency of the technical system, as well as reduction of the amount of information that has to be processed by the operator. To achieve a good human-machine interaction, it has to be considered during all phases in the development process of control room design. It is important that relevant hand-books and guidelines are used, but also a working process, which describes how the development work should be performed and the relationship between different parts in the process. The aim of this project was to present a general report in Swedish, which describes a working process for development of useful operator interfaces, work tasks, instructions, and working environments. The report is primarily aimed for the process industry, but can be useful in all other areas including interaction between operators and machines. The content can be used both for new development projects and for upgrading of already existing control room designs. The main target group for the report is the development engineers at the plant, who work close to the supplier, and the people who should plan and guide the development work in the control room. The purpose of the report is to deliver knowledge about how to consider a human-machine perspective in the development process. The report presents what is important to consider, but does not in detail show design solutions. The report is also a usable tool for those people who should do the actual screen designs, but then it should be used together with hand-book data and guide-lines referred to. The report begins with a description of basic concepts and definitions within the area of HMI. This is followed by a description of the HMI development working process. The working process includes five steps; planning, requirements, conceptual design, detailed design, and commissioning. The steps also include methodology for data collection and evaluation. Finally, the handbook also contains short summaries of the different steps in the working proces