WorldWideScience

Sample records for bioenergy coal electric

  1. Short and long-term carbon balance of bioenergy electricity production fueled by forest treatments.

    Science.gov (United States)

    Kelsey, Katharine C; Barnes, Kallie L; Ryan, Michael G; Neff, Jason C

    2014-01-01

    Forests store large amounts of carbon in forest biomass, and this carbon can be released to the atmosphere following forest disturbance or management. In the western US, forest fuel reduction treatments designed to reduce the risk of high severity wildfire can change forest carbon balance by removing carbon in the form of biomass, and by altering future potential wildfire behavior in the treated stand. Forest treatment carbon balance is further affected by the fate of this biomass removed from the forest, and the occurrence and intensity of a future wildfire in this stand. In this study we investigate the carbon balance of a forest treatment with varying fates of harvested biomass, including use for bioenergy electricity production, and under varying scenarios of future disturbance and regeneration. Bioenergy is a carbon intensive energy source; in our study we find that carbon emissions from bioenergy electricity production are nearly twice that of coal for the same amount of electricity. However, some emissions from bioenergy electricity production are offset by avoided fossil fuel electricity emissions. The carbon benefit achieved by using harvested biomass for bioenergy electricity production may be increased through avoided pyrogenic emissions if the forest treatment can effectively reduce severity. Forest treatments with the use of harvested biomass for electricity generation can reduce carbon emissions to the atmosphere by offsetting fossil fuel electricity generation emissions, and potentially by avoided pyrogenic emissions due to reduced intensity and severity of a future wildfire in the treated stand. However, changes in future wildfire and regeneration regimes may affect forest carbon balance and these climate-induced changes may influence forest carbon balance as much, or more, than bioenergy production.

  2. ELSAM/ELKRAFT: Draft for the plan of management for bio-energy. ELSAM/ELKRAFT: The electricity companies' programme for gasification of coal and biomass

    International Nuclear Information System (INIS)

    1992-08-01

    The Danish power companies have, since the middle of the 80's carried through a technology development effort for the use of bio-fuels in power (and dual-purpose power) plants. This note concerns the current status of the development and a sketch for an action programme for future effort. Straw is the largest unexploited potential. The use of bio-fuels does not produce so much carbon dioxide, but on the other hand biomass supply can fluctuate. Biofuels are also difficult to stoke, and expensive. Close co-operation between agriculture and forestry is necessary and risks are high for the involved sectors. It must be possible to use bio-fuels combined with coal to secure a sturdy and economic energy production, it is necessary to have a stable energy and industrial policy to maintain interest in the long term development effort, the contrasts of interest between natural gas and bio-fuels on the decentralized thermal power market must be clarified and the prices of bio-fuels must be made competitive by making supply and subsidies more effective. The main areas for future development are the bio-fuel resources, logistics and economy, straw in central power plants, gasification of coal and biomass, bio-fuels in decentralized cogeneration plants, biogas plants, conversion of biomass to synthetic fuels etc. A close co-ordination of ELSAM/ELKRAFT's development activities and cooperation between organizations in Denmark and abroad should be aimed at. (AB)

  3. Bioenergy

    NARCIS (Netherlands)

    Chum, H.; Faaij, A.P.C.; Moreira, J.R.; Junginger, H.M.

    2011-01-01

    Bioenergy has a significant greenhouse gas (GHG) mitigation potential, provided that the resources are developed sustainably and that efficient bioenergy systems are used. Certain current systems and key future options including perennial cropping systems, use of biomass residues and wastes and

  4. Bioenergy

    CERN Document Server

    Wall, Judy; Demain, Arnold L

    2008-01-01

    Given the limited supply of fossil fuels and the devastating effects of ever-increasing greenhouse gases, researchers have been committed to finding alternative fuel sources. Perhaps one of the least explored areas is bioenergy from microbes. In this landmark volume, world-renowned experts explore the possible contributions of microbes to the next generation of fuels. In 31 detailed chapters, Bioenergy provides thorough explanations of the current knowledge and future areas for research on microbial energy conversions. The volume begins with 10 chapters on ethanol production from cellulosic fe

  5. Coal and nuclear electricity fuels

    International Nuclear Information System (INIS)

    Rahnama, F.

    1982-06-01

    Comparative economic analysis is used to contrast the economic advantages of nuclear and coal-fired electric generating stations for Canadian regions. A simplified cash flow method is used with present value techniques to yield a single levelized total unit energy cost over the lifetime of a generating station. Sensitivity analysis illustrates the effects of significant changes in some of the cost data. The analysis indicates that in Quebec, Ontario, Manitoba and British Columbia nuclear energy is less costly than coal for electric power generation. In the base case scenario the nuclear advantage is 24 percent in Quebec, 29 percent in Ontario, 34 percent in Manitoba, and 16 percent in British Columbia. Total unit energy cost is sensitive to variations in both capital and fuel costs for both nuclear and coal-fuelled power stations, but are not very sensitive to operating and maintenance costs

  6. Does replacing coal with wood lower CO2 emissions? Dynamic lifecycle analysis of wood bioenergy

    Science.gov (United States)

    Sterman, John D.; Siegel, Lori; Rooney-Varga, Juliette N.

    2018-01-01

    Bioenergy is booming as nations seek to cut their greenhouse gas emissions. The European Union declared biofuels to be carbon-neutral, triggering a surge in wood use. But do biofuels actually reduce emissions? A molecule of CO2 emitted today has the same impact on radiative forcing whether it comes from coal or biomass. Biofuels can only reduce atmospheric CO2 over time through post-harvest increases in net primary production (NPP). The climate impact of biofuels therefore depends on CO2 emissions from combustion of biofuels versus fossil fuels, the fate of the harvested land and dynamics of NPP. Here we develop a model for dynamic bioenergy lifecycle analysis. The model tracks carbon stocks and fluxes among the atmosphere, biomass, and soils, is extensible to multiple land types and regions, and runs in ≈1s, enabling rapid, interactive policy design and sensitivity testing. We simulate substitution of wood for coal in power generation, estimating the parameters governing NPP and other fluxes using data for forests in the eastern US and using published estimates for supply chain emissions. Because combustion and processing efficiencies for wood are less than coal, the immediate impact of substituting wood for coal is an increase in atmospheric CO2 relative to coal. The payback time for this carbon debt ranges from 44-104 years after clearcut, depending on forest type—assuming the land remains forest. Surprisingly, replanting hardwood forests with fast-growing pine plantations raises the CO2 impact of wood because the equilibrium carbon density of plantations is lower than natural forests. Further, projected growth in wood harvest for bioenergy would increase atmospheric CO2 for at least a century because new carbon debt continuously exceeds NPP. Assuming biofuels are carbon neutral may worsen irreversible impacts of climate change before benefits accrue. Instead, explicit dynamic models should be used to assess the climate impacts of biofuels.

  7. Bio-energy and the environment: land of possible misunderstanding

    International Nuclear Information System (INIS)

    Moncada P C, Pietro; Grassi, G.

    1994-01-01

    This paper presents a point of view that bio-energy could assume sustainable environmental features for our future. The principal arguments of this paper are: bio-energy system and carbon emission -including confrontation of CO 2 emissions between electricity closed system and a coal-based electric generation system - soil erosion, fertilizer use, pesticide use, and biodiversity. (author)

  8. Focus on Bioenergy in the electricity and heat market. Project results 2015-2016

    International Nuclear Information System (INIS)

    Thraen, Daniela; Pfeiffer, Diana

    2017-01-01

    The report covers the following contributions: DeHoGas - sustainable local wood gasification plant with coupled micro gas turbine; SEVERA - sensor technique for efficient fermentation og biogenic residuals and wastes; FuelBand - extension of the fuel band of modern biomass combustion; REPOWERING - measures for efficiency improvement for the existing plants; PROKOSYS - processes, components and systems for flexible operation of biogas plants using biogenic residuals and wastes; Carola - electrostatic finest particle separator for flexible adaptation to biomass vessels; HydoCon - hydrolysis container - flexible plant components for substrate usage improvement in biogas plants; EFFIGEST - efficiency improvement in poultry manure fermentation using modified straw fractions and process integrated production of marketable fertilizer; FLUHKE - dry low-temperature entrained flow gasification with bio-coals from hydrothermal carbonization for local electricity and heat production with motor-cogeneration; REMISBIO - measures for emissions reduction of bio gas plants - catalyst test; Mini-bio-cogeneration - readiness of prototype for decentralized gasification of residual pellets for serial production; IbeKEt - innovative communal demand-adaptive energy carrier concept; Regiobalance - flexible bioenergy as regional compensation option in the German electricity market; FLEXHKW - flexible operation of cogeneration plants.

  9. Focus on Bioenergy in the electricity and heat market. Project results 2015-2016; Focus on Bioenergie im Strom- und Waermemarkt. Projektergebnisse 2015-2016

    Energy Technology Data Exchange (ETDEWEB)

    Thraen, Daniela; Pfeiffer, Diana (eds.)

    2017-08-01

    The report covers the following contributions: DeHoGas - sustainable local wood gasification plant with coupled micro gas turbine; SEVERA - sensor technique for efficient fermentation og biogenic residuals and wastes; FuelBand - extension of the fuel band of modern biomass combustion; REPOWERING - measures for efficiency improvement for the existing plants; PROKOSYS - processes, components and systems for flexible operation of biogas plants using biogenic residuals and wastes; Carola - electrostatic finest particle separator for flexible adaptation to biomass vessels; HydoCon - hydrolysis container - flexible plant components for substrate usage improvement in biogas plants; EFFIGEST - efficiency improvement in poultry manure fermentation using modified straw fractions and process integrated production of marketable fertilizer; FLUHKE - dry low-temperature entrained flow gasification with bio-coals from hydrothermal carbonization for local electricity and heat production with motor-cogeneration; REMISBIO - measures for emissions reduction of bio gas plants - catalyst test; Mini-bio-cogeneration - readiness of prototype for decentralized gasification of residual pellets for serial production; IbeKEt - innovative communal demand-adaptive energy carrier concept; Regiobalance - flexible bioenergy as regional compensation option in the German electricity market; FLEXHKW - flexible operation of cogeneration plants.

  10. Bioenergy for District Bioheating System (DBS) from eucalyptus residues in a European coal-producing region

    International Nuclear Information System (INIS)

    Paredes-Sánchez, José P.; López-Ochoa, Luis M.; López-González, Luis M.; Xiberta-Bernat, Jorge

    2016-01-01

    Highlights: • The paper introduces a combined method to evaluate bioenergy. • Forest biomass needs to be studied as a fuel supplier and carbon sink. • The forests under study produce about 28 kt dry and 0.15 Mt CO 2 per year. • Examined a District Bioheating System (DBS) with the available biomass. - Abstract: Since forest biomass can substitute for CO 2 -emitting fossil fuels in the energy sector, forest management can greatly affect the global carbon cycle. Eucalyptus globulus has adapted very well in the coal region of the Principality of Asturias (Northwestern Spain) and has become highly regarded as a valuable raw material for the pulp and paper industry. In the present work, the Eucalyptus globulus is studied as a key natural energy source in order to improve existing methods and develop new ways of optimizing the evaluation and use of both forest biomass and woody residue in energy systems, in accordance with sustainable forestry industry safety and environmental requirements. The feasibility of utilizing forest biomass instead of natural gas in a District Bioheating System (DBS) has been examined based on an analysis of its economical and environmental impacts.

  11. Coal + Biomass → Liquids + Electricity (with CCS)

    Science.gov (United States)

    In this presentation, Matt Aitken applies the MARKet ALlocation energy system model to evaluate the market potential for a class of technologies that convert coal and biomass to liquid fuels and electricity (CBtLE), paired with carbon capture and storage (CCS). The technology is ...

  12. Comparative Analysis of Pine Needles and Coal for Electricity Generation using Carbon Taxation and Emission Reductions

    Directory of Open Access Journals (Sweden)

    Dhaundiyal Alok

    2015-06-01

    Full Text Available Mitigating global climate change via emission control and taxation is promising for strengthening the economic benefits of bioenergy generation and utilization. This study examines the cost effectiveness of pine needles as an alternative fuel for off-grid electricity generation in India. We first examined the changes of prices in coal for electricity generation due to CO2 emission reductions and taxes using experimental data of gasification plants. The time value of money and depreciation scale were used to find out the real levellized cost of electricity generation of gasification plants. Then, the costs of electricity generation fuelled by pine needles and coal were estimated using the cost analysis method. Our results indicate that pine needles would have more competitive edge than coal if emission had taxed at about an emission tax INR 525.15 Mg-1 of CO2 (US$ 8.4, or higher would be needed for pine needles at a yield of 202.176 dry Mg hm-2 yr. The price of coal used for electricity generation would have significantly increased if global CO2 emission had abridged by 20% or more. However, pine needles were found a much better fuel source with an increasing yield of 5.05 Mg hm-2 yr (with respect to power generation and 2.335 Mg hm-2 yr (with respect to feedstock production.

  13. Coal based electric generation comparative technologies report

    Energy Technology Data Exchange (ETDEWEB)

    1989-10-26

    Ohio Clean Fuels, Inc., (OCF) has licensed technology that involves Co-Processing (Co-Pro) poor grade (high sulfur) coal and residual oil feedstocks to produce clean liquid fuels on a commercial scale. Stone Webster is requested to perform a comparative technologies report for grassroot plants utilizing coal as a base fuel. In the case of Co-Processing technology the plant considered is the nth plant in a series of applications. This report presents the results of an economic comparison of this technology with other power generation technologies that use coal. Technologies evaluated were:Co-Processing integrated with simple cycle combustion turbine generators, (CSC); Co-Processing integrated with combined cycle combustion turbine generators, (CCC); pulverized coal-fired boiler with flue gas desulfurization and steam turbine generator, (PC) and Circulating fluidized bed boiler and steam turbine generator, (CFB). Conceptual designs were developed. Designs were based on approximately equivalent net electrical output for each technology. A base case of 310 MWe net for each technology was established. Sensitivity analyses at other net electrical output sizes varying from 220 MWe's to 1770 MWe's were also performed. 4 figs., 9 tabs.

  14. Gas, electricity, coal: 1998 statistical data

    International Nuclear Information System (INIS)

    1999-01-01

    This document brings together the main statistical data from the French direction of gas, electricity and coal and presents a selection of the most significant numbered data: origin of production, share of the consumption, price levels, resources-employment status. These data are presented in a synthetic and accessible way in order to make useful references for the actors of the energy sector. (J.S.)

  15. Liberalised electricity markets, new bioenergy technologies, and GHG emission reductions: interactions and CO2 mitigation costs

    International Nuclear Information System (INIS)

    Gustavsson, L.; Madlener, R.

    1999-01-01

    We contrast recent developments in power and heat production with bioenergy, and natural-gas-fired condensing plants with and without decarbonisation, in the light of electricity market liberalisation. Our main focus is on CO 2 mitigation costs and carbon tax sensitivity of production costs. We find that CO 2 mitigation costs are lower for biomass systems using IGCC technology than for natural gas system using decarbonisation. However, based on current fuel prices natural-gas fired co-generation plants have the lowest production costs. Hence energy policy measures will be needed to promote biomass technologies and decarbonisation options on a liberalised market. (author)

  16. An imbalanced development of coal and electricity industries in China

    International Nuclear Information System (INIS)

    Wang, Bing

    2007-01-01

    China's coal and electricity industries have a strong reliance on each other, however, because of excessive invasion of government, it is difficult for these two industries to form a stable, reasonable, and transaction cost-saving relationships, but long-run disputes and quarrels. This paper discusses the pricing policies and transaction relationship between these two industries from the historical perspective. It begins with the discussion of coal. Coal market has become competitive since 1980 due to the system of dual track approach, but coal sold to electricity was still tightly controlled by government-guided pricing. Then the paper examines electricity investment and tariff reform. Unlike coal, entry to electricity generation sector was gradually relaxed but generation and retailing tariffs are still strictly regulated. As energy demand and prices soared after 2002, coal and electricity enterprises are all unsatisfied with the rule of price setting of coal sold to electricity industry. This paper concludes that the deliberate low coal price policy does protect electricity industry from fuel cost fluctuation but harm coal industry. Allocative and productive efficiency are difficult to achieve in the long run

  17. An LCA study of an electricity coal supply chain

    Directory of Open Access Journals (Sweden)

    Chao Wang

    2014-01-01

    Full Text Available Purpose: The aim of this paper is to provide methods to find the emission source and estimate the amount of waste gas emissions in the electricity coal supply chain, establish the model of the environmental impact (burden in the electricity coal supply chain, detect the critical factor which causes significant environmental impact, and then identify the key control direction and reduce amount of environmental pollution in the electricity coal supply chain. Design/methodology/approach: In this context, life cycle inventory and life cycle assessment of China’s electricity coal were established in three difference stages: coal mining, coal transportation, and coal burning. Then the outcomes were analyzed with the aim to reduce waste gases emissions’ environmental impact in the electricity coal supply chain from the perspective of sensitivity analysis. Findings: The results and conclusion are as follow: (1 In terms of total waste gas emissions in electricity coal supply chain, CO2 is emitted in the greatest quantity, accounting for 98-99 wt% of the total waste gas emissions. The vast majority of the CO2, greater than 93%, is emitted from the power plant when the coal is combusted. (2 Other than CO2, the main waste gas is CH4, SO2 and so on. CH4 is mainly emitted from Coal Bed Methane (CBM, so the option is to consider capturing some of the CH4 from underground mines for an alternative use. SO2 is mainly emitted from power plant when the coal is combusted. (3 The environmental burden of coal burning subsystem is greatest, followed by the coal mining subsystem, and finally the coal transportation subsystem. Improving the coal-burning efficiency of coal-fired power plant in electricity coal supply chain is the most effective way to reduce the environmental impact of waste gas emissions. (4 Of the three subsystems examined (coal mining, coal transportation, and coal burning, transportation requires the fewest resources and has the lowest waste gas

  18. The climate impacts of bioenergy systems depend on market and regulatory policy contexts.

    Science.gov (United States)

    Lemoine, Derek M; Plevin, Richard J; Cohn, Avery S; Jones, Andrew D; Brandt, Adam R; Vergara, Sintana E; Kammen, Daniel M

    2010-10-01

    Biomass can help reduce greenhouse gas (GHG) emissions by displacing petroleum in the transportation sector, by displacing fossil-based electricity, and by sequestering atmospheric carbon. Which use mitigates the most emissions depends on market and regulatory contexts outside the scope of attributional life cycle assessments. We show that bioelectricity's advantage over liquid biofuels depends on the GHG intensity of the electricity displaced. Bioelectricity that displaces coal-fired electricity could reduce GHG emissions, but bioelectricity that displaces wind electricity could increase GHG emissions. The electricity displaced depends upon existing infrastructure and policies affecting the electric grid. These findings demonstrate how model assumptions about whether the vehicle fleet and bioenergy use are fixed or free parameters constrain the policy questions an analysis can inform. Our bioenergy life cycle assessment can inform questions about a bioenergy mandate's optimal allocation between liquid fuels and electricity generation, but questions about the optimal level of bioenergy use require analyses with different assumptions about fixed and free parameters.

  19. Electricity. Hydropower imports down, coal-fired generation up

    International Nuclear Information System (INIS)

    2004-01-01

    The low water levels in the Nordic countries typical of summer 2002 continued in 2003, keeping spot prices on the Nordic electricity market high throughout the year. This second successive dry summer had a major impact on market developments. Finnish imports of electricity from Sweden and Norway ended virtually completely, and Finland became a net electricity exporter to these markets. For short periods, Finland exported more electricity westwards in 2003 than the country imported from Russia. The role of coal- fired capacity increased, and more coal was burned to generate electricity in Finland in 2003 than at any time previously

  20. The study of functional parameter of the electric coal brushes

    Directory of Open Access Journals (Sweden)

    Claudia Staşac

    2008-05-01

    Full Text Available These paper present a study about the analyzeof the functional parameters of the electrical coal brush.The analyze was made with an experimental device, andthe results was prelucrate in MathCAD software.

  1. ASEAN coal development and its impact on electricity sector

    International Nuclear Information System (INIS)

    Abidin, H.Z.

    1991-01-01

    The Association of southeast Asian Nations (ASEAN) comprising the States of Brunei Darussalam, Indonesia, Malaysia, Philippines, Singapore and Thailand is presently experiencing rapid growth in electricity demand attributed mainly to the continued high growth in the economy. This rapid pace of industrialization is exerting pressure on resources available to meet electricity demand. Over the last few years coal has emerged as a significant energy resource in the region and is poised to play an even bigger role in the electricity sector. The paper outlines the electricity supply and coal development in each of the ASEAN countries. The impact of coal in the future generation mix is analyzed. The major issues relating to these developments are also discussed

  2. Research on Double Price Regulations and Peak Shaving Reserve Mechanism in Coal-Electricity Supply Chain

    Directory of Open Access Journals (Sweden)

    Hongjun Peng

    2013-01-01

    Full Text Available The game models were used to study the mechanism of coal-electricity price conflict under conditions of double price regulations of coal and electricity. Based on this, the peak shaving reserve mechanism was designed to probe into the countermeasures against the coal-electricity price conflicts. The study revealed that in the boom seasons of coal demand, the initiatives of the coal enterprises to supply thermal coal and the electricity enterprises to order thermal coal are reduced under conditions of double price regulations. However, under the circumstances of coal price marketization, in the boom seasons of coal demand the thermal coal price may go up obviously, the initiatives of the coal enterprises to supply thermal coal are increased, and meanwhile the initiatives of the power enterprises to order thermal coal are decreased dramatically. The transportation capacity constraint of coal supply leads to the evident decrease of the initiatives of coal enterprises for the thermal coal supply. The mechanism of peak shaving reserve of thermal coal may not only reduce the price of coal market but also increase the enthusiasm of the power enterprises to order more thermal coal and the initiatives of the coal enterprises to supply more thermal coal.

  3. Sustainable forest-based bioenergy in Eurasia

    Directory of Open Access Journals (Sweden)

    F. Kraxner

    2018-02-01

    Full Text Available This study analyzes the Russian forest biomass-based bioenergy sector. It is shown that presently – although given abundant resources – the share of heat and electricity from biomass is very minor. With the help of two IIASA models (G4M and BeWhere, future green-field bioenergy plants are identified in a geographically explicit way. Results indicate that by using 3.78 Mt (or 6.16 M m3, twice as much heat and electricity than is presently available from forest biomass could be generated. This amount corresponds to 3.3 % of the total annual wood removals or 12 % of the annually harvested firewood, or about 11 % of illegal logging. With this amount of wood, it is possible to provide an additional 444 thousand households with heat and 1.8 M households with electricity; and at the same time to replace 2.7 Mt of coal or 1.7 Mt of oil or 1.8 G m3 of natural gas, reducing emissions of greenhouse gases from burning fossil fuels by 716 Mt of CO2-equivalent per year. A multitude of co-benefits can be quantified for the socio-economic sector such as green jobs linked to bioenergy. The sustainable sourcing of woody biomass for bioenergy is possible as shown with the help of an online crowdsourcing tool Geo-Wiki.org for forest certification.

  4. Importance of hard coal in electricity generation in Poland

    Science.gov (United States)

    Plewa, Franciszek; Strozik, Grzegorz

    2017-11-01

    Polish energy sector is facing a number of challenges, in particular as regards the reconstruction of production potential, diversification of energy sources, environmental issues, adequate fuels supplies and other. Mandatory implementation of Europe 2020 strategy in terms of “3x20” targets (20% reduction of greenhouse gases, 20% of energy from renewable sources, and 20% increase of efficiency in energy production) requires fast decision, which have to be coordinated with energetic safety issues, increasing demands for electric energy, and other factors. In Poland almost 80% of power is installed in coal fired power plants and energy from hard coals is relatively less expensive than from other sources, especially renewable. The most of renewable energy sources power plants are unable to generate power in amounts which can be competitive with coal fires power stations and are highly expensive, what leads o high prices of electric energy. Alternatively, new generation of coal fired coal power plants is able to significantly increase efficiency, reduce carbon dioxide emission, and generate less expensive electric power in amounts adequate to the demands of a country.

  5. Comparing the value of bioenergy in the heating and transport sectors of an electricity-intensive energy system in Norway

    International Nuclear Information System (INIS)

    Assefa Hagos, Dejene; Gebremedhin, Alemayehu; Folsland Bolkesjø, Torjus

    2015-01-01

    The objective of this paper is to identify the most valuable sector for the use of bioenergy in a flexible energy system in order to meet the energy policy objectives of Inland Norway. A reference system was used to construct alternative systems in the heating and transport sectors. The alternative system in the heating sector is based on heat pumps and bio-heat boilers while the alternative systems in the transport sector are based on three different pathways: bio-dimethyl ether, hydrogen fuel cell vehicles and battery electric vehicles. The alternative systems were compared with the reference system after a business-economic optimisation had been made using an energy system analysis tool. The results show that the excess electricity availability due to increased energy efficiency measures hampers the competitiveness and penetration of bio-heating over heat pumps in the heating sector. Indeed, the synergy effect of using bio-dimethyl ether in the transport sector for an increased share of renewable energy sources is much higher than that of the hydrogen fuel cell vehicle and battery electric vehicle pathways. The study also revealed that increasing renewable energy production would increase the renewable energy share more than what would be achieved by an increase in energy efficiency. -- Highlights: •Bio-heating is less competitive over heat pump for low quality heat production. •Renewable energy production meets policy objectives better than system efficiency. •Bioenergy is more valuable in the transport sector than the heating sector

  6. Quality of coal - base for optimal electric power generation

    International Nuclear Information System (INIS)

    Jankov, Jovan

    1997-01-01

    Bitola Mines Plant and Energy Combine is the largest electric power producer in the Republic of Macedonia. It is established on two separately production units: coal (lignite) open pit mine 'Suvodol' and the power plants 'Bitola'. The lignite from the mine is used only for electric power generation in the thermal power plants. The coal quality is the first, basic point in the production line, while the electric power, transformed to the high tension transmission system is the last , final production point. Between the two points, there are all equipment, production units, materials and very hard work to get optimal and economical solutions as well as production. This material gives a short explanation between that two points. (Author)

  7. Electricity generation comparison of food waste-based bioenergy with wind and solar powers: A mini review

    Directory of Open Access Journals (Sweden)

    Ngoc Bao Dung Thi

    2016-09-01

    Full Text Available The food waste treatment-based anaerobic digestion has been proven to play a primary role in electricity industry with high potentially economic benefits, which could reduce electricity prices in comparison with other renewable energy resources such as wind and solar power. The levelized costs of electricity were reported to be 65, 190, 130 and 204 US$ MWh−1 for food waste treatment in anaerobic landfill, anaerobic digestion biogas, solar power, and wind power, respectively. As examples, the approaches of food waste treatment via anaerobic digestion to provide a partial energy supply for many countries in future were estimated as 42.9 TWh yr−1 in China (sharing 0.87% of total electricity generation, 7.04 TWh yr−1 in Japan (0.64% of total electricity generation and 13.3 TWh yr−1 in the US (0.31% of total electricity generation. Electricity generation by treating food waste is promised to play an important role in renewable energy management. Comparing with wind and solar powers, converting food waste to bioenergy provides the lowest investment costs (500 US$ kW−1 and low operation cost (0.1 US$ kWh−1. With some limits in geography and season of other renewable powers, using food waste for electricity generation is supposedly to be a suitable solution for balancing energy demand in many countries.

  8. Improvements in electric power supply in coal mines

    Energy Technology Data Exchange (ETDEWEB)

    Minovskii, Yu.P.; Nabokov, Eh.P.; Savel' ev, G.P.

    1985-01-01

    Reviews measures taken by major coal producing countries to increase output levels. Discusses research carried out into advance design of equipment in FRG, UK, USA and France and proposes establishment of central automatic control of electric power supply system in Soviet mines, improvement in underground power supply equipment, increase in reliability, stabilization of standby capacity in low voltage circuits, maintenance-free electrical equipment, and efficient spare part storage in underground workings. States that introduction of the proposed system (details are given) will ensure that Soviet mines will eventually reach the development level of foreign mines. 2 refs.

  9. AIJ in Russia. Converting from coal to bioenergy in Kaliningrad[AIJ, Activities Implemented Jointly]; AIJ i Russland. Konvertering fra kull til bioenergi i Kaliningrad i Russland

    Energy Technology Data Exchange (ETDEWEB)

    Gulbrandsen, Thor Henning; Veiby, Ole

    2000-07-01

    This report discusses energy- and environmental consequences of converting from a coal-fired heating plant to a biomass-fired heating plant in a large residential area in Kaliningrad. The results of the study are based on accurate technical measurements on the plants, data collection and price information from the suppliers of equipment and fuel. The costs of CO{sub 2} reduction are found to be NOK 40 - 45 per tonne. This compares favourably with national taxes on climate gases, which in Norway amount to NOK 160 - 400 per tonne reduced CO{sub 2}. The study will form the basis of a pilot project on the implementation of flexible mechanisms for reducing the emission of climate gases as agreed upon in the Kyoto Protocol.

  10. Why do electricity utilities cooperate with coal suppliers? A theoretical and empirical analysis from China

    International Nuclear Information System (INIS)

    Zhao Xiaoli; Lyon, Thomas P.; Wang Feng; Song Cui

    2012-01-01

    The asymmetry of Chinese coal and electricity pricing reforms leads to serious conflict between coal suppliers and electricity utilities. Electricity utilities experience significant losses as a result of conflict: severe coal price fluctuations, and uncertainty in the quantity and quality of coal supplies. This paper explores whether establishing cooperative relationships between coal suppliers and electricity utilities can resolve conflicts. We begin with a discussion of the history of coal and electricity pricing reforms, and then conduct a theoretical analysis of relational contracting to provide a new perspective on the drivers behind the establishment of cooperative relationships between the two parties. Finally, we empirically investigate the role of cooperative relationships and the establishment of mine-mouth power plants on the performance of electricity utilities. The results show that relational contracting between electricity utilities and coal suppliers improves the market performance of electricity utilities; meanwhile, the transportation cost savings derived from mine-mouth power plants are of importance in improving the performance of electricity utilities. - Highlights: ► We discuss the history of coal and electricity pricing reforms. ► The roots of conflicts between electricity and coal firms are presented. ► We conduct a theoretical analysis of relational contracting. ► The role of mine-mouth power plants on the performance of power firms is examined.

  11. Secured electrical supply at least cost: Coal, gas, nuclear, hydro

    Energy Technology Data Exchange (ETDEWEB)

    Gavor, J. [ENA Ltd., Prague (Czechoslovakia); Stary, O.; Vasicek, J. [Czech Technical Univ., Prague (Czechoslovakia)

    1995-12-01

    Electric power sector in East Central European countries finds in a difficult period. In the situation of demand stagnation, enormous investments must be realized in a very short time. Today`s decisions in the development strategy will influence the long term future of the industry. The optimal structure of the sources is one of the most important problem to be solved. Paper describes the current structure of the sources in electric power sector in the Czech Republic. The importance of coal, oil and gas, nuclear and hydro in electric power generation is compared. Taking into account the different position in the load coverage, economy of individual sources is evaluated and basic results of discounted cash flow calculations are presented. Information on specific investment programs and projects are included and further trends are estimated.

  12. Coal-fired magnetohydrodynamic (MHD) electric power generation

    International Nuclear Information System (INIS)

    Sens, P.F.

    1992-01-01

    Since 1986 Directorate-General XII 'Science, Research and Development' of the Commission of the European Communities has kept a watching brief on the development of coal-fired magnetohydrodynamic (MHD) electric power generation from the 'solid fuels' section of its non-nuclear energy R and D programme. It established, in 1987, the Faraday Working Group (FWG) to assess the development status of coal-fired MHD and to evaluate its potential contribution to the future electricity production in the Community. The FWG expressed as its opinion, at the end of 1987, that in sufficient data were available to justify a final answer to the question about MHD's potential contribution to future electricity production and recommended that studies be undertaken in three areas; (i) the lifetime of the generator, (ii) cost and performance of direct air preheating, (iii) cost and efficiency of seed recovery/reprocessing. These studies were contracted and results were presented in the extended FWG meeting on 15 November 1990, for an audience of about 70 people. The present volume contains the proceedings of this meeting. The introduction describes the reasons for establishing the FWG, its activities and the content of its extended meeting followed by the summary of the discussions and the concluding remarks of this meeting. The main part of the volume consists of the text either of the oral presentations during the meeting or of the final reports resulting from the studies under contract

  13. Survey of electric utility demand for coal. [1972-1992; by utility and state

    Energy Technology Data Exchange (ETDEWEB)

    Asbury, J.G.; Caruso, J.V.; Kouvalis, A.; Maslowski, C.S.

    1979-08-01

    This report presents the results of a survey of electric utility demand for coal in the United States. The sources of survey information are: (1) Federal Energy Regulatory Commission Form 423 data on utility coal purchases during the period July 1972 through December 1978 and (2) direct telephone survey data on utility coal-purchase intentions for power plants to be constructed by 1992. Price and quantity data for coal used in existing plants are presented to illustrate price and market-share trends in individual coal-consuming states during recent years. Coal source, quality, quantity, and transportation data are reported for existing and planned generating plants.

  14. Kyoto Protocol, constraint or opportunity for coal based electricity producers

    International Nuclear Information System (INIS)

    Balasoiu, Constantin; Alecu, Sorin

    2006-01-01

    Coming into force of Kyoto Protocol (KP) in February 2005, as a result of its signing by Russian Federation, created the lawfulness of its provisions and mechanisms in order to reduce the average emission of Greenhouse Gases (GHG) at a global level down to 5.2 %. Passing this environment problem from a constrained area (regulations, directives) to an opportunity area (business) created the possibility that the achievement of KP objectives to be not an exclusive financial task of 'polluting actors', but opened the opportunity of bringing on stage all the necessary elements of a modern business environment: banks, investments from founds companies, consultants, buyers, sellers, stocks exchange. Until now, the investments and emissions transactions based by KP mechanisms at the worldwide level was focused on renewable energy area. Because for the most of countries, including Romania, the production of electricity based on fossil fuels (special coal) is one of the main option, bringing the KP mechanisms in operation in this area is difficult for at least two reasons: - the investments are huge; - the emissions reduction is not spectacular. In these circumstances, this paper gives an overview of the present GHG emission market, transaction mechanisms on this market and of the ways through which coal based electricity producers from Romania can access this market. We consider that the filtration of the information in this area from electricity producer point of view makes the content of this paper a good start for a new approach of environment management and its conversion from constraint (financial resources consumer) to opportunity ( financial resources producer). The paper contains are as follows: 1. Kyoto Protocol at a glance; 2. Emission trading mechanisms; 2.1. Transaction mechanisms under KP; 2.1.1. Joint Implementation (JI); 2.1.2 Clean Development Mechanism (CDM); 2.1.3. Emissions Trading (ET); 2.2. Other transactions mechanisms; 2.2.1. European Union Emissions

  15. Co-firing coal with wood pellets for U.S. electricity generation: A real options analysis

    International Nuclear Information System (INIS)

    Xian, Hui; Colson, Gregory; Mei, Bin; Wetzstein, Michael E.

    2015-01-01

    In contrast to EU, U.S. electric utilities are not employing the bioenergy technology of co-firing wood pellets with coal. This difference in employment patterns is explored within a real options analysis (ROA) for possible U.S. utilization of wood pellets, considering fuel-price series from 2009 to 2014. For analysis, these series are divided into two sub-periods based on different market conditions: Infancy (2009–2011) and Substitution (2012–2014). ROA indicates co-firing wood pellets with coal is feasible considering adoption during wood pellets' infancy, under low discount rates, and long power-plant lifespans. A portfolio effect of employing multiple fuels underlies this result. However, co-firing is not currently economically feasible. The different adoption decisions are likely a consequence of recent cheap and abundant U.S. natural gas. For co-fired wood pellets to be feasible, government incentives and/or a market increase in natural gas prices appear necessary. -- Highlights: •Real options analysis indicates co-firing is not currently economically feasible within the U.S. •The recent U.S. natural-gas boom is likely hindering the adoption of co-firing. •For co-fired adoption, government incentives or an increase in natural-gas prices are necessary

  16. The Efficiency Improvement by Combining HHO Gas, Coal and Oil in Boiler for Electricity Generation

    Directory of Open Access Journals (Sweden)

    Chia-Nan Wang

    2017-02-01

    Full Text Available Electricity is an essential energy that can benefit our daily lives. There are many sources available for electricity generation, such as coal, natural gas and nuclear. Among these sources, coal has been widely used in thermal power plants that account for about 41% of the worldwide electricity supply. However, these thermal power plants are also found to be a big pollution source to our environment. There is a need to explore alternative electricity sources and improve the efficiency of electricity generation. This research focuses on improving the efficiency of electricity generation through the use of hydrogen and oxygen mixture (HHO gas. In this research, experiments have been conducted to investigate the combined effects of HHO gas with other fuels, including coal and oil. The results show that the combinations of HHO with coal and oil can improve the efficiency of electricity generation while reducing the pollution to our environment.

  17. Comparative costs of coal and nuclear-generated electricity in the united states

    International Nuclear Information System (INIS)

    Brandfon, W.W.

    1987-01-01

    This paper compares the future first-year operating costs and lifetime levelized costs of producing baseload coal- and nuclear-generated electricity under schedules shorter than those recently experienced at U.S. plants. Nuclear appears to have a clear economic advantage. Coal is favorable only when it is assumed that the units will operate at very low capacity factors and/or when the capital cost differential between nuclear and coal is increased far above the recent historical level. Nuclear is therefore a cost-competitive electric energy option for utilities and should be considered as an alternative to coal when large baseload capacity is required. (author)

  18. Emissions from coal-fired electric stations : environmental health effects and reduction options

    International Nuclear Information System (INIS)

    Love, P.; Lourie, B.; Pengelly, D.; Labatt, S.; Ogilvie, K.; Kelly, B.

    1998-01-01

    Findings of a study on the environmental effects of current emissions from coal-fired electric stations were summarized. Current and projected emissions from coal-fired electric stations for five emission reduction scenarios were estimated for Ontario, Eastern Canada, Ohio Valley/Great Lakes, and the U.S. northeast regions. Coal-fired electric stations generate a wide range of environmentally significant air emissions. The five pollutants selected - sulphur dioxide, nitrogen oxides, particulate matter (less than 10 micrometres in size), mercury, and carbon dioxide - are considered to impact most on environmental health. This report focused on 312 coal-fired electric stations in the regions named above. They were selected based on the likelihood that long-range transport of the emissions from these coal-fired utilities would have an impact on human health and the environment. 55 refs., 10 tabs., 8 figs

  19. Energy Conversion Alternatives Study (ECAS), General Electric Phase 1. Volume 1: Executive summary. [using coal or coal derived fuels

    Science.gov (United States)

    Corman, J. C.

    1976-01-01

    A data base for the comparison of advanced energy conversion systems for utility applications using coal or coal-derived fuels was developed. Estimates of power plant performance (efficiency), capital cost, cost of electricity, natural resource requirements, and environmental intrusion characteristics were made for ten advanced conversion systems. Emphasis was on the energy conversion system in the context of a base loaded utility power plant. All power plant concepts were premised on meeting emission standard requirements. A steam power plant (3500 psig, 1000 F) with a conventional coal-burning furnace-boiler was analyzed as a basis for comparison. Combined cycle gas/steam turbine system results indicated competitive efficiency and a lower cost of electricity compared to the reference steam plant. The Open-Cycle MHD system results indicated the potential for significantly higher efficiency than the reference steam plant but with a higher cost of electricity.

  20. Bioenergy systems

    International Nuclear Information System (INIS)

    Mitchell, C.P.

    1997-01-01

    The objective of this paper is to demonstrate that a bioenergy system has to be considered as an integrated process in which each stage or step interacts with other steps in the overall process. There are a number of stages in the supply and conversion of woody biomass for energy. Each step in the chain has implications for the next step and for overall system efficiency. The resource can take many forms and will have varying physical and chemical characteristics which will influence the efficiency and cost of conversion. The point in the supply chain at which size and moisture content is reduced and the manner in which it is done is influential in determining feedstock delivered cost and overall system costs. To illustrate the interactions within the overall system, the influence of the nature, size and moisture content of delivered feedstocks on costs of generating electricity via thermal conversion processes is examined using a model developed to investigate the inter-relationships between the stages in the supply chain. (author)

  1. The world behind electricity from coal. The dubious origin of coal for Dutch coal-fired power plants

    International Nuclear Information System (INIS)

    2008-01-01

    Five energy companies in the Netherlands want to build additional coal-fired power plants: Essent and Nuon, the German company RWE and E.ON and the Belgian company Electrabel. Coal-fired power plants emit 70 percent more CO2 than gas-fired power plants. Especially because of the threat to the climate Greenpeace believes that no more coal-fired power plants should be built. In this publication Greenpeace explores the pollution, the working conditions and human rights with regard to the exploitation of coal. That has been elaborated for the three countries from which Dutch energy companies import coal: South Africa, Colombia and Indonesia. In addition to information about the origin of coal also insight is given into the coal market (stocks and use), the enormous coal transport and the world trade [nl

  2. Energy policy and the role of bioenergy in Poland

    International Nuclear Information System (INIS)

    Nilsson, Lars J.; Pisarek, Marcin; Buriak, Jerzy; Oniszk-Poplawska, Anna; Bucko, Pawel; Ericsson, Karin; Jaworski, Lukasz

    2006-01-01

    Poland, as many other countries, has ambitions to increase the use of renewable energy sources. In this paper, we review the current status of bioenergy in Poland and make a critical assessment of the prospects for increasing the share of bioenergy in energy supply, including policy implications. Bioenergy use was about 4% (165 PJ) of primary energy use (3900 PJ) and 95% of renewable energy use (174 PJ) in 2003, mainly as firewood in the domestic sector. Targets have been set to increase the contribution of renewable energy to 7.5% in 2010, in accordance with the EU accession treaty, and to 14% in 2020. Bioenergy is expected to be the main contributor to reaching those targets. From a resource perspective, the use of bioenergy could at least double in the near term if straw, forestry residues, wood-waste, energy crops, biogas, and used wood were used for energy purposes. The long-term potential, assuming short rotation forestry on potentially available agricultural land is about one-third, or 1400 PJ, of current total primary energy use. However, in the near term, Poland is lacking fundamental driving forces for increasing the use of bioenergy (e.g., for meeting demand increases, improving supply security, or further reducing sulphur or greenhouse gas emissions). There is yet no coherent policy or strategy for supporting bioenergy. Co-firing with coal in large plants is an interesting option for creating demand and facilitating the development of a market for bioenergy. The renewable electricity quota obligation is likely to promote such co-firing but promising applications of bioenergy are also found in small- and medium-scale applications for heat production. Carbon taxes and, or, other financial support schemes targeted also at the heating sector are necessary in the near term in order to reach the 7.5% target. In addition, there is a need to support the development of supply infrastructure, change certain practices in forestry, coordinate RD and D efforts, and

  3. What drives the efficiency of hard coal fuelled electricity generation? : an empirical assessment

    OpenAIRE

    Hoffmann, Tim; Voigt, Sebastian

    2009-01-01

    The efficiency of electricity generation in hard coal fired power plants varies considerably from country to country and over time. These differences occur both between developing and developed countries and between industrialised nations. The econometric analysis presented in this paper tests for the reasons of these discrepancies. In this examination abundance of hard coal and the price of hard coal are the two variables of our major interest. We assume that countries with an abundance of h...

  4. Beyond black lung: scientific evidence of health effects from coal use in electricity generation.

    Science.gov (United States)

    Buchanan, Susan; Burt, Erica; Orris, Peter

    2014-08-01

    While access to electricity affects health positively, combustion of coal in power plants causes well-documented adverse health effects. We review respiratory, cardiovascular, reproductive, and neurologic health outcomes associated with exposure to coal-fired power plant emissions. We also discuss population-level health effects of coal combustion and its role in climate change. Our review of scientific studies suggests that those we present here can be used to inform energy policy.

  5. BioEnergy transport systems. Life cycle assessment of selected bioenergy systems

    Energy Technology Data Exchange (ETDEWEB)

    Forsberg, Goeran

    1999-07-01

    Biomass for energy conversion is usually considered as a local resource. With appropriate logistic systems, access to biomass can be improved over a large geographical area. In this study, life cycle assessment (LCA) has been used as method to investigate the environmental impacts of selected bioenergy transport chains. As a case study, chains starting in Sweden and ending in Holland have been investigated. Biomass originates from tree sections or forest residues, the latter upgraded to bales or pellets. The study is concentrated on production of electricity, hot cooling water is considered as a loss. Electricity is, as the main case, produced from solid biomass in the importing country. Electricity can also be produced in the country of origin and exported via the trans-national grid as transportation media. As an alternative, a comparison is made with a coal cycle. The results show that contribution of emissions from long-range transportation is of minor importance. The use of fuels and electricity for operating machines and transportation carriers requires a net energy input in bioenergy systems which amounts to typically 7-9% of delivered electrical energy from the system. Emissions of key substances such as NO{sub x}, CO, S, hydrocarbons, and particles are low. Emissions of CO{sub 2} from biocombustion are considered to be zero since there is approximately no net contribution of carbon to the biosphere in an energy system based on biomass. A method to quantify non-renewability is presented. For coal, the non-renewability factor is calculated to be 110%. For most of the cases with bioenergy, the non-renewability factor is calculated to be between 6 and 11%. Reclamation of biomass results in certain losses of nutrients such as nitrogen, phosphorus and base cations such as K, Ca and Mg. These are balanced by weathering, vitalisation or ash recirculation procedures. Withdrawal of N from the ecological system is approximately 10 times the load from the technical

  6. The impact of liberalisation of the electricity market on the hard coal mining sector in Poland

    International Nuclear Information System (INIS)

    Kaminski, Jacek

    2009-01-01

    The liberalisation of the electricity market changed the conditions of operation not only for the power industry, but also for related sectors. One of the particularly sensitive industries in Poland is coal mining, which is the result of coal-based structure of electricity generation. As it is more difficult, in the liberalised market, to burden consumers with all the costs, electricity producers are eager to transfer the risk of operation to the suppliers. That increases uncertainty about the future of the hard coal industry. The aim of this paper was to quantitatively estimate the impact that liberalisation of the electricity markets may have on the coal mining sector in Poland. First of all, the possible areas of that impact were identified. Then the model, which involved detailed relations in the impact areas identified, was developed and employed to evaluate the performance of the mining sector. The comparison of scenarios of a monopolistic electricity sector with a liberalised one enabled an estimation of the scale of the impact on the mining sector to be made. The results showed that liberalisation causes decreased coal consumption and decreased operating profits in coal companies. However, some savings in electricity costs are possible for coal producers

  7. Economics of Electrical Energy from Crop Residue Combustion with High Sulfur Coal

    OpenAIRE

    F. J. Hitzhusen; Mohammed Abdallah

    1980-01-01

    The economic feasibility of utilizing corn stover as a coal supplement in small to medium-sized, coal-burning steam-electric plants appears promising, particularly when the low sulfur emission value of corn stover is considered. Two case steam-electric power plants located in Ames, Iowa, and Peru, Indiana, are analyzed utilizing three harvest and collection systems and alternative values for several key technical and economic parameters. These results combined with data from a sample of steam...

  8. Assessing the environmental impacts of using demineralized coal for electricity generation

    DEFF Research Database (Denmark)

    Ryberg, Morten; Owsianiak, Mikolaj; Laurent, Alexis

    2014-01-01

    The energy sector is the source of two-thirds of global greenhouse-gas emissions, and is the main target ofclimate policies among authorities and governments. The share of fossil coals (hard coal and lignite) in world total net electricity generation is 40% in 2010. Demineralization or ash removal...... of the coal is thought to be beneficial for reducing ash-related problems, such as slagging and fouling in the combustion chamber,increasing the heating value, increasing thermal efficiency and reducing airborne emissions. A novel method for removing ash is alkali-acid leaching where the coal is washed...... and possible improvements. Experimental studies conducted so far have shown better performance of demineralized coal than its original raw coal during combustion, gasification, and coke making process. However a thorough analysis ofthe impacts from demineralization has not yet been conducted. We take a life...

  9. Bio-energies usages in electricity generation utility means through a modeling approach: an application to the French case

    International Nuclear Information System (INIS)

    Le Cadre, Elodie; Lantz, Frederic; Farnoosh, Arash

    2011-12-01

    The introduction of renewable energies target and CO 2 emissions trading systems make the investment decision more difficult and add an additional flow of expenditure for electricity producers. This challenge represents a double advantage for biomass, which is a renewable alternative to fossil fuels, whose use in thermal coal can now reduce emissions of greenhouse gases. Whereas renewable energy sources (RES-E) are now supported by various economic tools such as feed-in tariffs and call for tender, the use of biomass is also enhanced by the CO 2 emission price. However, the price evolution of emission allowance is uncertain. Taking into account these incentives, the scope of this work is to study the penetration of green electricity production from biomass and its impacts on the future electricity generation mix for France incorporating different scenarios of emission allowance prices. While the use of the power plant is organized according to their growing running costs in the short-term approach, in the long- term approach capacity expansion planning should be determined by using several optimization methods. So, we develop a model based on a linear dynamic programming approach for supporting the electricity generation management in which renewable energies, climate and energy policies are modeled. We apply the model to the French power market under consideration of the neighboring countries. We present the results of the initialization and the electricity price and production tests. Then the expected demands of fuel over 2020 are presented for di rent CO 2 prices as an example to illustrate how the model can be put to use in different contexts. (authors)

  10. Bioenergy production from perennial energy crops: A consequential LCA of 12 bioenergy scenarios including land use changes

    DEFF Research Database (Denmark)

    Tonini, Davide; Hamelin, Lorie; Wenzel, Henrik

    2012-01-01

    In the endeavor of optimizing the sustainability of bioenergy production in Denmark, this consequential life cycle assessment (LCA) evaluated the environmental impacts associated with the production of heat and electricity from one hectare of Danish arable land cultivated with three perennial crops...... and IV) co-firing in large scale coal-fired CHP plants. Soil carbon changes, direct and indirect land use changes as well as uncertainty analysis (sensitivity, MonteCarlo) were included in the LCA. Results showed that global warming was the bottleneck impact, where only two scenarios, namely willow...

  11. Environmental costs resulting from the use of hard coal to electricity generation in Poland

    Science.gov (United States)

    Stala-Szlugaj, Katarzyna; Grudziński, Zbigniew

    2017-10-01

    In the world's fuel mix used for generating electricity, the most common fossil fuel is coal. In the EU, coal combustion and electricity generation entail the need to purchase emission allowances (EUA) whose purchase costs affect the costs of electricity generation significantly. The research described in the article shows how current market conditions shape the profitability of generating electricity from coal and how Clean Dark Spread (CDS) changes as a function of changes in energy and coal prices at the assumed levels of emission and prices of EUA allowances. The article compares the results of CDS calculations in two variants. Areas have been highlighted where prices of both coal and EUA allowances cause CDS to assume values at which the prices of generated electricity do not cover the costs of fuel (i) and CO2 emission allowances, cover all costs (ii), or constitute positive prices (iii), but still do not cover all fixed costs. With higher power plant efficiency, CO2 emissions are lower (0.722 t/MWh). The costs of purchasing fuel required to generate 1 MWh of electricity are also lower. In such case—even with relatively high prices of coal—a power plant can achieve profitability of electricity generation.

  12. Analysis of the market penetration of clean coal technologies and its impacts in China's electricity sector

    International Nuclear Information System (INIS)

    Wang, Hao; Nakata, Toshihiko

    2009-01-01

    This paper discusses policy instruments for promoting the market penetration of clean coal technologies (CCTs) into China's electricity sector and the evaluation of corresponding effects. Based on the reality that coal will remain the predominant fuel to generate electricity and conventional pulverized coal boiler power plants have serious impacts on environment degradation, development of clean coal technologies could be one alternative to meet China's fast growing demand of electricity as well as protect the already fragile environment. A multi-period market equilibrium model is applied and an electricity model of China is established to forecast changes in the electricity system up to 2030s. Three policy instruments: SO 2 emission charge, CO 2 emission charge and implementing subsidies are considered in this research. The results show that all instruments cause a significant shift in China's electricity structure, promote CCTs' competitiveness and lead China to gain great benefit in both resource saving and environment improvement. Since resource security and environment degradation are becoming primary concerns in China, policies that could help to gain generations' market share of advanced coal-based technologies such as CCTs' is suitable for the current situation of China's electricity sector. (author)

  13. Environmental costs resulting from the use of hard coal to electricity generation in Poland

    Directory of Open Access Journals (Sweden)

    Stala-Szlugaj Katarzyna

    2017-01-01

    Full Text Available In the world's fuel mix used for generating electricity, the most common fossil fuel is coal. In the EU, coal combustion and electricity generation entail the need to purchase emission allowances (EUA whose purchase costs affect the costs of electricity generation significantly. The research described in the article shows how current market conditions shape the profitability of generating electricity from coal and how Clean Dark Spread (CDS changes as a function of changes in energy and coal prices at the assumed levels of emission and prices of EUA allowances. The article compares the results of CDS calculations in two variants. Areas have been highlighted where prices of both coal and EUA allowances cause CDS to assume values at which the prices of generated electricity do not cover the costs of fuel (i and CO2 emission allowances, cover all costs (ii, or constitute positive prices (iii, but still do not cover all fixed costs. With higher power plant efficiency, CO2 emissions are lower (0.722 t/MWh. The costs of purchasing fuel required to generate 1 MWh of electricity are also lower. In such case—even with relatively high prices of coal—a power plant can achieve profitability of electricity generation.

  14. The challenge for gas: get price-competitive with coal-fired electricity

    International Nuclear Information System (INIS)

    Gill, Len

    1999-01-01

    The challenge for the gas industry is to become price competitive with coal-fired electricity if it wants a larger share of the energy market. Returning to the issue of greater use of gas for electricity generation, the author points out that although electricity prices were rising they were still below the point where gas-fired electricity generation was viable. Copyright (1999) The Australian Gas Journal

  15. The external costs of electricity generation. A comparison of environmental damage of silicon photovoltaic electricity, produced with different electricity mixes, vs natural gas and coal

    Energy Technology Data Exchange (ETDEWEB)

    Olson, C.L.; Veltkamp, A.C.; Sinke, W.C. [ECN Solar Energy, Petten (Netherlands)

    2012-09-15

    In this paper the environmental damages of crystalline silicon photovoltaics are calculated, using the most recent photovoltaics data, and compared with those of the prevalent conventional energy technologies. A life cycle assessment of selected environmental impacts of 1kWh of electricity generated by various technologies was performed using Simapro software (version 7.2.4) in conjunction with the Ecoinvent database (version 2.2). The environmental impacts were assessed using the ReCiPe methodology. Because of the important role of coal and natural gas in the global electricity generation portfolio, special attention is given to the comparison of PV with those technologies. The environmental consequences of manufacturing PV modules with renewable, UCTE or 100% coal electricity mixes are explored. A brief update of the estimated monetarization of damages due to coal and climate change is included. A rough estimate of the true cost of coal and PV electricity is made in 2011.

  16. Coal

    International Nuclear Information System (INIS)

    Muir, D.A.

    1991-01-01

    The international coal market trends are outlined and the place of Australian coal industry is discussed. It is shown that while the world supply and demand for coal has begun to tighten, the demand for coal is expected to remain strong in both Asia and Europe. Consequently, in 1991-1992 Australian black coal production and export returns are forecast to rise by 4% and 7% respectively. 1 fig

  17. Economic analysis of coal price. Electricity price adjustment in China based on the CGE model

    International Nuclear Information System (INIS)

    He, Y.X.; Yang, L.Y.; Wang, Y.J.; Wang, J.; Zhang, S.L.

    2010-01-01

    In recent years, coal price has risen rapidly, which has also brought a sharp increase in the expenditures of thermal power plants in China. Meantime, the power production price and power retail price have not been adjusted accordingly and a large number of thermal power plants have incurred losses. The power industry is a key industry in the national economy. As such, a thorough analysis and evaluation of the economic influence of the electricity price should be conducted before electricity price adjustment is carried out. This paper analyses the influence of coal price adjustment on the electric power industry, and the influence of electricity price adjustment on the macroeconomy in China based on computable general equilibrium models. The conclusions are as follows: (1) a coal price increase causes a rise in the cost of the electric power industry, but the influence gradually descends with increase in coal price; and (2) an electricity price increase has an adverse influence on the total output, Gross Domestic Product (GDP), and the Consumer Price Index (CPI). Electricity price increases have a contractionary effect on economic development and, consequently, electricity price policy making must consequently consider all factors to minimize their adverse influence. (author)

  18. Ways to control quality of electric equipment in the coal industry

    Energy Technology Data Exchange (ETDEWEB)

    Shipilov, A.D.; Nabokov, E.P.

    1982-01-01

    A structure is proposed for organization in the coal industry of a permanent service for controlling quality of electrical engineering equipment. A form was developed for introduction of recommendations to improve quality. Methods are suggested for evaluating the quality level as applied to specific tasks of controlling quality of the electrical equipment used in mining.

  19. Technology Roadmaps: Bioenergy for Heat and Power

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2012-08-01

    The Technology Roadmap Bioenergy for Heat and Power highlights the importance of bioenergy in providing heat in the buildings sector and in industry, and shows what contribution it could make to meeting steadlily growing world electricity demand. The critical role of sustainability as well as the importance of international trade in meeting the projected demand for bioenergy, are highlighted in the roadmap, as well as the need for large-scale biomass plants in providing The roadmap identifies key actions by different stakeholders in the bioenergy sector, and sets out milestones for technology development in order to achieve a doubling of global bioenergy supply by 2050. It addresses the need for further R&D efforts, highlights measures to ensure sustainability of biomass production, and underlines the need for international collaboration to enhance the production and use of sustainable, modern bioenergy in different world regions.

  20. Technology Roadmaps: Bioenergy for Heat and Power

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2012-07-01

    The Technology Roadmap Bioenergy for Heat and Power highlights the importance of bioenergy in providing heat in the buildings sector and in industry, and shows what contribution it could make to meeting steadlily growing world electricity demand. The critical role of sustainability as well as the importance of international trade in meeting the projected demand for bioenergy, are highlighted in the roadmap, as well as the need for large-scale biomass plants in providing The roadmap identifies key actions by different stakeholders in the bioenergy sector, and sets out milestones for technology development in order to achieve a doubling of global bioenergy supply by 2050. It addresses the need for further R&D efforts, highlights measures to ensure sustainability of biomass production, and underlines the need for international collaboration to enhance the production and use of sustainable, modern bioenergy in different world regions.

  1. Bioenergy possibilities in Northwest Russia

    Energy Technology Data Exchange (ETDEWEB)

    Rakitova, O. (The National Bioenergy Union, Saint Petersburg (Russian Federation)); Mutanen, K. (Joensuu Regional Development Company JOSEK Ltd, Joensuu (Finland))

    2007-07-01

    Russia owns the largest natural gas, the second largest coal and the third largest oil reserves in the world. Russia is the third largest energy user and the largest producer of oil and gas in the world. Export of oil and gas plays a major role in the economic development of the whole Russia. Wood harvesting and processing industry responds only 4,4 % of the industrial production although Russia owns 23 % of the world's forest resources. Biomass represents only 1 % of the total energy consumption including residential use but hydro power represents about 18 % of Russia's electricity generation. Russia needs three times more energy to produce one unit of GDP than e.g. EU. This indicates very poor energy efficiency and poor conditions of the energy and the whole infrastructure as well. Simultaneously the prices of fossil fuels and electricity are heavily subsidized. These basic figures give on idea why utilization of renewable energy and especially biomass play a minor role in Russian energy system. One of the most progressive regions in bioenergy is the Northwest of Russia. The first pellet and briquette plants were installed in this region a few years ago. The region can be regarded as the forerunner in bioenergy in Russia. Federal Region of Northwest Russia consists of City of St.Petersburg, Republics of Karelia and Komi and regions of Leningrad, Arkhangelsk, Kaliningrad, Murmansk, Nenetsk, Novgorod, Pskov and Vologda. The region has 15 million inhabitants and a 2200 km long joint border with the EU, most of that with Finland. N W Russia owns over 14000 million m3 of raw wood that represents 17 % of Russian forests and 60 % of the forests located in the European side. Potential for annual harvesting is over 100 million m3 while harvesting is about 45 million m3. Most of that is exported as a form of raw wood. Wood represents only 2,8 % of the region's energy use including residential usage. Use of peat is marginal representing only 0,1 % of the

  2. Water effects of the use of western coal for electrical production

    Energy Technology Data Exchange (ETDEWEB)

    Rogers, E.A.

    1980-02-01

    Water may be a constraint on the expanded development of coal resources in the semi-arid western United States. Water allocation in the West has been determined by the appropriative rights doctrine which allows perpetual use of water sources by those who first claim it for beneficial purposes. This has had the effect of placing a dominative interest in water allocation in one economic sector: agriculture. New water sources are available to coal producers but political and economic problems must be overcome. Water is required by every phase of coal development. Mines use water for dust control and land reclamation. Coal slurry pipelines would use water as a transport medium. Steam electric power plants use water for cooling, cleaning, and in the boiler. Coal gasification plants would use water for cooling, cleaning, and as a material input. In addition to these direct uses of water by coal development, the people who build and operate the development demand water for domestic and recreational purposes. The quantity of water required for a given element of a coal development is site specific and dependent on many factors. The available literature cites a range of estimates of the amount of water required for each type of development. The width of this range seems related to the stage of development of the particular technology. Estimates of water requirements for various schemes to provide an average electrical load of 9 GWe to a load center 1000 miles from western mines are shown in Table 5.

  3. International bioenergy transport costs and energy balance

    International Nuclear Information System (INIS)

    Hamelinck, Carlo N.; Suurs, Roald A.A.; Faaij, Andre P.C.

    2005-01-01

    To supply biomass from production areas to energy importing regions, long-distance international transport is necessary, implying additional logistics, costs, energy consumption and material losses compared to local utilisation. A broad variety of bioenergy chains can be envisioned, comprising different biomass feedstock production systems, pre-treatment and conversion operations, and transport of raw and refined solid biomass and liquid bio-derived fuels. A tool was developed to consistently compare the possible bioenergy supply chains and assess the influence of key parameters, such as distance, timing and scale on performance. Chains of European and Latin American bioenergy carriers delivered to Western Europe were analysed using generic data. European biomass residues and crops can be delivered at 90 and 70 euros/tonne dry (4.7 and 3.7 euros/GJ HHV ) when shipped as pellets. South American crops are produced against much lower costs. Despite the long shipping distance, the costs in the receiving harbour can be as low as 40 euros/tonne dry or 2.1 euros/GJ HHV ; the crop's costs account for 25-40% of the delivered costs. The relatively expensive truck transport from production site to gathering point restricts the size of the production area; therefore, a high biomass yield per hectare is vital to enable large-scale systems. In all, 300 MW HHV Latin American biomass in biomass integrated gasification/combined cycle plants may result in cost of electricity as little as 3.5 euros cent/kWh, competitive with fossil electricity. Methanol produced in Latin America and delivered to Europe may cost 8-10 euros/GJ HHV , when the pellets to methanol conversion is done in Europe the delivered methanol costs are higher. The energy requirement to deliver solid biomass from both crops and residues from the different production countries is 1.2-1.3 MJ primary /MJ delivered (coal ∼ 1.1 MJ/MJ). International bioenergy trade is possible against low costs and modest energy loss

  4. Assessment of policy impacts on carbon capture and sequestration and bioenergy for U.S.' coal and natural gas power plants

    Science.gov (United States)

    Spokas, K.; Patrizio, P.; Leduc, S.; Mesfun, S.; Kraxner, F.

    2017-12-01

    Reducing electricity-sector emissions relies heavily on countries' abilities to either transition away from carbon-intensive energy generation or to sequester its resultant emissions with carbon capture and storage (CCS) technologies. The use of biomass energy technologies in conjunction with carbon capture and sequestration (BECCS) presents the opportunity for net reductions in atmospheric carbon dioxide. In this study, we investigate the limitations of several common policy mechanisms to incentivize the deployment of BECCS using the techno-economic spatial optimization model BeWhere (www.iiasa.ac.at/bewhere). We consider a set of coal and natural gas power plants in the United States (U.S.) selected using a screening process that considers capacity, boiler age, and capacity factor for electricity-generation units from the EPA 2014 eGRID database. The set makes up 470 GW of generation, and produces 8,400 PJ and 2.07 GtCO2 annually. Co-firing up to 15% for coal power plants is considered, using woody-biomass residues sourced from certified and managed U.S. forests obtained from the G4M (www.iiasa.ac.at/g4m) and GeoWiki (www.geo-wiki.org) database. Geologic storage is considered with injectivity and geomechanical limitations to ensure safe storage. Costs are minimized under two policy mechanisms: a carbon tax and geologic carbon sequestration credits, such as the Q45 credits. Results show that the carbon tax scenario incentivizes co-firing at low to medium carbon taxes, but is replaced by CCS at higher tax values. Carbon taxes do not strongly incentivize BECCS, as negative emissions associated with sequestering carbon content are not accounted as revenue. On the other hand, carbon credit scenarios result in significant CCS deployment, but lack any incentive for co-firing.

  5. Similar simulation study on the characteristics of the electric potential response to coal mining

    Science.gov (United States)

    Niu, Yue; Li, Zhonghui; Kong, Biao; Wang, Enyuan; Lou, Quan; Qiu, Liming; Kong, Xiangguo; Wang, Jiali; Dong, Mingfu; Li, Baolin

    2018-02-01

    An electric potential (EP) can be generated during the failure process of coal and rock. In this article, a similar physical model of coal rock was built and the characteristics of the EP responding to the process of coal mining were studied. The results showed that, at the early mining stage, the structure of coal rock strata were stable in the simulation model, the support stress of overlying coal rock strata was low and the maximum subsidence was little, while the EP change was less. With the advancement of the working face, the support stress of the overlying coal rock strata in the mined-out area changed dramatically, the maximum subsidence increased constantly, the deformation and destruction were aggravated, and cracks expanded continuously. Meanwhile, the EP response was significant with fluctuation. When significant macro damage appeared in coal rock strata, the EP signal fluctuation was violent. The overlying coal rock strata were influenced by gravity and mining activity. During the mining process, the crack growth and the friction, together with slip between coal and rock particles, resulted in the response of EP. The change in EP was closely related to the damage state and stress distribution of the coal rock strata. EP monitoring has the advantages of accurate reflection and strong anti-interference in the field. Therefore, with further study, an EP monitoring method could be applied for monitoring and early warning of coal and rock dynamic disaster, and risk evaluation in the future. The strength of the EP and its fluctuation degree could serve as the key discrimination indexes.

  6. Radioactivity in coal, ashes and selected wastewaters from Canadian coal-fired steam electric generating stations

    International Nuclear Information System (INIS)

    1985-09-01

    Coal is known to contain naturally occurring radioactive elements and there has been speculation that as a results, coal-fuelled power generation stations may be significant emitters of these substances. In this report, the subject of radioactivity is introduced. The kinds of radioactive substances which occur naturally in coal formations, the nature of their emissions and the existing information on their behaviour and their effects on environmental organisms are also reviewed. The results of an examination of levels of alpha, beta and gamma radiaton levels, and the substances which produce them in coals, fly ashes, bottom ashes and related wastewaters at six Canadian coal-fuelled power stations are presented. Difficulties in studies of this nature and the potential effects of these releases on organisms in the adjacent aquatic environment are discussed. Existing and potential technologies for the removal of these substances from wastewaters are examined. In general the releases in wastewaters from the six stations were found to be lower than those known to cause short-term or acute biological effects. The potential for long-term effects from such low-level releases could not be accurately assessed because of the paucity of information. A number of recommendations for: improvements in further studies of this nature; the further examination of the fate of naturally occurring radionuclides in the environment; and the determination of the long-term effects of low levels of naturally occurring radioactive substances on aquatic organisms, are made

  7. The Increase of Power Efficiency of Underground Coal Mining by the Forecasting of Electric Power Consumption

    Science.gov (United States)

    Efremenko, Vladimir; Belyaevsky, Roman; Skrebneva, Evgeniya

    2017-11-01

    In article the analysis of electric power consumption and problems of power saving on coal mines are considered. Nowadays the share of conditionally constant costs of electric power for providing safe working conditions underground on coal mines is big. Therefore, the power efficiency of underground coal mining depends on electric power expense of the main technological processes and size of conditionally constant costs. The important direction of increase of power efficiency of coal mining is forecasting of a power consumption and monitoring of electric power expense. One of the main approaches to reducing of electric power costs is increase in accuracy of the enterprise demand in the wholesale electric power market. It is offered to use artificial neural networks to forecasting of day-ahead power consumption with hourly breakdown. At the same time use of neural and indistinct (hybrid) systems on the principles of fuzzy logic, neural networks and genetic algorithms is more preferable. This model allows to do exact short-term forecasts at a small array of input data. A set of the input parameters characterizing mining-and-geological and technological features of the enterprise is offered.

  8. Coal

    International Nuclear Information System (INIS)

    Teissie, J.; Bourgogne, D. de; Bautin, F.

    2001-12-01

    Coal world production represents 3.5 billions of tons, plus 900 millions of tons of lignite. 50% of coal is used for power generation, 16% by steel making industry, 5% by cement plants, and 29% for space heating and by other industries like carbo-chemistry. Coal reserves are enormous, about 1000 billions of tons (i.e. 250 years of consumption with the present day rate) but their exploitation will be in competition with less costly and less polluting energy sources. This documents treats of all aspects of coal: origin, composition, calorific value, classification, resources, reserves, production, international trade, sectoral consumption, cost, retail price, safety aspects of coal mining, environmental impacts (solid and gaseous effluents), different technologies of coal-fired power plants and their relative efficiency, alternative solutions for the recovery of coal energy (fuel cells, liquefaction). (J.S.)

  9. Externalities of biomass based electricity production compared to power generation from coal in the Netherlands

    International Nuclear Information System (INIS)

    Faaij, A.; Meuleman, B.

    1997-12-01

    Externalities of electricity production from biomass and coal are investigated and compared for the Dutch context. Effects on economic activity and employment are investigated by means of Input/Output and multiplier tables. Valuations of damage from emissions to air are based on generic data from other studies. In addition, external costs are estimated for nitrogen leaching and for the use of agrochemicals for energy crop production. The average private costs for biomass and coal based power generation are projected to be 68 and 38 mECU/kWh respectively in the year 2005. It is assumed that biomass production takes place on fallow land. Coal mining is excluded from the analysis. If the quantified external damages and benefits are included the cost range for bio-electricity is 53-70 mECU/kWh and 45-72 mECU/kWh for coal. Indirect economic effects (increment of Gross Domestic Product) and the difference in CO2 emissions are the most important distinguishing factors between coal and biomass in economic terms. Damage costs of other emissions to air (NOx, SO2, dust and CO) are of the same order of magnitude for both coal and biomass (coal mining excluded). In this analysis environmental impacts of energy farming are compared mainly to fallow land focused on the use of fertilizers and agrochemicals. The related damage costs appear to be low but should be considered as a preliminary estimate only. The quantitative outcomes should not be considered as the external costs of the two fuel cycles studied. Many impacts have not been valued and large uncertainties persist e.g. with respect to the costs of climate change and numerous dose response relations. More detailed analysis is required with respect to macro-economic impacts. The results serve as a first indication, but the outcomes plead for the support of bio-electricity production and/or taxation of coal based power generation. 88 refs

  10. Cost structure of coal- and nuclear-fired electric power plants

    International Nuclear Information System (INIS)

    Helmuth, J.A.

    1981-01-01

    This dissertation investigates the cost structure of coal and nuclear electric power generation. The emphasis of the paper is to empirically estimate the direct costs of generating base-load electric power at the plant level. Empirically, the paper first investigates the relative comparative costs of nuclear and coal power generation, based on historical operating data. Consideration of the learning curve and other dynamic elements is incorporated in the analysis. The second empirical thrust is to inestigate economies of scale for both technologies. The results from the empirical studies give an indication as to the future and present cost viability of each technology. Implications toward energy policy are discussed

  11. Material and Energy Flow Analysis (Mefa of the Unconventional Method of Electricity Production Based on Underground Coal Gasification

    Directory of Open Access Journals (Sweden)

    Krystyna Czaplicka-Kolarz

    2014-01-01

    Originality/value: This is the first approach which contains a whole chain of electricity production from Underground Coal Gasification, including stages of gas cleaning, electricity production and the additional capture of carbon dioxide.

  12. Forest carbon accounting methods and the consequences of forest bioenergy for national greenhouse gas emissions inventories

    International Nuclear Information System (INIS)

    McKechnie, Jon; Colombo, Steve; MacLean, Heather L.

    2014-01-01

    Highlights: • Forest carbon accounting influences the national GHG inventory impacts of bioenergy. • Current accounting rules may overlook forest carbon trade-offs of bioenergy. • Wood pellet trade risks creating an emissions burden for exporting countries. - Abstract: While bioenergy plays a key role in strategies for increasing renewable energy deployment, studies assessing greenhouse gas (GHG) emissions from forest bioenergy systems have identified a potential trade-off of the system with forest carbon stocks. Of particular importance to national GHG inventories is how trade-offs between forest carbon stocks and bioenergy production are accounted for within the Agriculture, Forestry and Other Land Use (AFOLU) sector under current and future international climate change mitigation agreements. Through a case study of electricity produced using wood pellets from harvested forest stands in Ontario, Canada, this study assesses the implications of forest carbon accounting approaches on net emissions attributable to pellets produced for domestic use or export. Particular emphasis is placed on the forest management reference level (FMRL) method, as it will be employed by most Annex I nations in the next Kyoto Protocol Commitment Period. While bioenergy production is found to reduce forest carbon sequestration, under the FMRL approach this trade-off may not be accounted for and thus not incur an accountable AFOLU-related emission, provided that total forest harvest remains at or below that defined under the FMRL baseline. In contrast, accounting for forest carbon trade-offs associated with harvest for bioenergy results in an increase in net GHG emissions (AFOLU and life cycle emissions) lasting 37 or 90 years (if displacing coal or natural gas combined cycle generation, respectively). AFOLU emissions calculated using the Gross-Net approach are dominated by legacy effects of past management and natural disturbance, indicating near-term net forest carbon increase but

  13. Future CO2 emissions and electricity generation from proposed coal-fired power plants in India

    Science.gov (United States)

    Fofrich, R.; Shearer, C.; Davis, S. J.

    2017-12-01

    India represents a critical unknown in global projections of future CO2 emissions due to its growing population, industrializing economy, and large coal reserves. In this study, we assess existing and proposed construction of coal-fired power plants in India and evaluate their implications for future energy production and emissions in the country. In 2016, India had 369 coal-fired power plants under development totaling 243 gigawatts (GW) of generating capacity. These coal-fired power plants would increase India's coal-fired generating capacity by 123% and would exceed India's projected electricity demand. Therefore, India's current proposals for new coal-fired power plants would be forced to retire early or operate at very low capacity factors and/or would prevent India from meeting its goal of producing at least 40% of its power from renewable sources by 2030. In addition, future emissions from proposed coal-fired power plants would exceed India's climate commitment to reduce its 2005 emissions intensity 33% - 35% by 2030.

  14. 77 FR 21835 - Credit for Renewable Electricity Production, Refined Coal Production, and Indian Coal Production...

    Science.gov (United States)

    2012-04-11

    ... reference price for calendar year 2012 for facilities producing electricity from wind is 5.31 cents per... calendar year 2012. The reference prices for facilities producing electricity from closed-loop biomass... calendar year 2012. [[Page 21836

  15. 78 FR 20176 - Credit for Renewable Electricity Production, Refined Coal Production, and Indian Coal Production...

    Science.gov (United States)

    2013-04-03

    ....1538. Reference Prices: The reference price for calendar year 2013 for facilities producing electricity... energy have not been determined for calendar year 2013. Because the 2013 reference price for electricity... DEPARTMENT OF THE TREASURY Internal Revenue Service Credit for Renewable Electricity Production...

  16. 76 FR 21947 - Credit for Renewable Electricity Production, Refined Coal Production, and Indian Coal Production...

    Science.gov (United States)

    2011-04-19

    ... reference price for calendar year 2011 for facilities producing electricity from wind is 4.68 cents per... calendar year 2011. The reference prices for facilities producing electricity from closed-loop biomass... calendar year 2011. Because the 2011 reference price for electricity produced from wind does not exceed 8...

  17. 75 FR 16576 - Credit for Renewable Electricity Production, Refined Coal Production, and Indian Coal Production...

    Science.gov (United States)

    2010-04-01

    ... reference price for calendar year 2010 for facilities producing electricity from wind is 4.22 cents per... calendar year 2010. The reference prices for facilities producing electricity from closed-loop biomass... calendar year 2010. Because the 2010 reference price for electricity produced from wind does not exceed 8...

  18. Electricity generation from solid biomass via co-combustion with coal. Energy and emission balances from a German case study

    International Nuclear Information System (INIS)

    Hartmann, D.; Kaltschmitt, M.

    1999-01-01

    The environmental effects of electricity production from different biofuels by means of co-combustion with hard coal in existing coal fired power plants are analysed and compared to electricity production from hard coal alone based on Life Cycle Analysis (LCA). The use of straw and residual wood at a 10% blend with coal in an existing power plant in the southern part of Germany shows that all investigated environmental effects are significantly lower if biomass is used instead of coal. Thus based on the available and proven technology of co-combustion of hard coal and biomass in existing power plants a significant contribution could be made to a more environmentally sound energy system compared to using coal alone. (author)

  19. Indonesian government's policy on the use of domestic coal for electric power generation with special reference to private power

    International Nuclear Information System (INIS)

    Arismunandar, A.

    1991-01-01

    This paper reports that Indonesia is amply endowed with all types of primary energy resources including: (1) conventional resources such as oil, gas and coal; (2) renewable resources such as water, geothermal and bioenergy; (3) new resources such as solar and wind. This wealth of primary energy resources and in particular the abundance of oil lead to excessive reliance on fuel oil and diesel fuel and to a much lesser degree on hydroelectric power. In the early 1980s the Government initiated a program of diversifying primary energy resources used for power generation. In this diversification program the use of coal was given a high priority. The Government has established that base-loaded coal fired power plants meet the least cost system expansion objectives. Therefore, significant additional coal fired capacity will be installed to meet the growing demand within the Java-Bali grid in particular and in other off-Java areas as well. In the Java-Bali grid 400 and 600 MW unit sizes will be used since these units offer the lowest cost per kW installed. The installed capacity within the grid facilitates the operation of these large units without jeopardizing the stability of the entire system. Off-Java smaller units, of 25 to 65 MW capacity will be used due to the relatively small size of the system within which these units will operate. Prime off-Java target areas for the installation of new coal-fired units are Sumatra and Kalimantan, two coal producing islands

  20. Externalities of biomass based electricity production compared to power generation from coal in the Netherlands

    NARCIS (Netherlands)

    Faaij, A.; Meuleman, B.

    1997-01-01

    Externalities of electricity production from biomass and coal are investigated and compared for the Dutch context. Effects on economic activity and employment are investigated with help of Input/Output and multiplier tables. Valuations of damage from emissions to air are based on generic data from

  1. CONTROL OF NOX EMISSIONS FROM U.S. COAL-FIRED ELECTRIC UTILITY BOILERS

    Science.gov (United States)

    The paper discusses the control of nitrogen oxide (NOx) emissions from U.S. coal-fired electric utility boilers. (NOTE: In general, NOx control technologies are categorized as being either primary or secondary control technologies. Primary technologies reduce the amount of NOx pr...

  2. Clean coal technology choices relating to the future supply and demand of electricity in Southern Africa

    International Nuclear Information System (INIS)

    Lennon, S.J.

    1997-01-01

    The finalization of the United Nations Framework Convention on Climate Change (UNFCCC) has catalysed a high degree of debate and interest in the future of coal-fired power generation. Fossil fuel combustion is responsible for a significant percentage of pollutants emitted globally, and coal will continue to play a major role in the energy portfolios of many countries. This is particularly true for developing countries. This fact has resulted in a major focus on technologies which improve the efficiency of coal combustion and conversion to electrical energy, as well as technologies which directly of indirectly reduce overall emissions. The issues around clean coal technologies (CCT) and their evolution, development and uptake in both developed and developing countries are complex. This paper addresses these issues in a Southern African context, viewed from the policy perspective of developing countries and presented in a framework of electricity supply and demand considerations in the region. The principal climate change policy elements proposed for South Africa are presented in the context of the current electricity supply and demand situation in the region. These are presented in the context of Eskom's Integrated Electricity Planning (IEP) process including the environmental considerations inherent in decision-making processes. The potential future of the CCT, barriers to their introduction and potential measures to facilitate their accelerated adoption are discussed. (author). 4 refs., 5 tabs., 2 figs

  3. Appalachian basin bituminous coal: sulfur content and potential sulfur dioxide emissions of coal mined for electrical power generation: Chapter G.5 in Coal and petroleum resources in the Appalachian basin: distribution, geologic framework, and geochemical character

    Science.gov (United States)

    Trippi, Michael H.; Ruppert, Leslie F.; Attanasi, E.D.; Milici, Robert C.; Freeman, P.A.

    2014-01-01

    Data from 157 counties in the Appalachian basin of average sulfur content of coal mined for electrical power generation from 1983 through 2005 show a general decrease in the number of counties where coal mining has occurred and a decrease in the number of counties where higher sulfur coals (>2 percent sulfur) were mined. Calculated potential SO2 emissions (assuming no post-combustion SO2 removal) show a corresponding decrease over the same period of time.

  4. Coal-Powered Electric Generating Unit Efficiency and Reliability Dialogue: Summary Report

    Energy Technology Data Exchange (ETDEWEB)

    Taylor, Emmanuel [Energetics, Inc., Columbia, MD (United States)

    2018-02-01

    Coal continues to play a critical role in powering the Nation’s electricity generation, especially for baseload power plants. With aging coal generation assets facing decreased performance due to the state of the equipment, and with challenges exacerbated by the current market pressures on the coal sector, there are opportunities to advance early-stage technologies that can retrofit or replace equipment components. These changes will eventually result in significant improvements in plant performance once further developed and deployed by industry. Research and development in areas such as materials, fluid dynamics, fuel properties and preparation characteristics, and a new generation of plant controls can lead to new components and systems that can help improve the efficiency and reliability of coal-fired power plants significantly, allowing these assets to continue to provide baseload power. Coal stockpiles at electricity generation plants are typically large enough to provide 30 to 60 days of power prior to resupply—significantly enhancing the stability and reliability of the U.S. electricity sector. Falling prices for non-dispatchable renewable energy and mounting environmental regulations, among other factors, have stimulated efforts to improve the efficiency of these coal-fired electric generating units (EGUs). In addition, increased reliance on natural gas and non-dispatchable energy sources has spurred efforts to further increase the reliability of coal EGUs. The Coal Powered EGU Efficiency and Reliability Dialogue brought together stakeholders from across the coal EGU industry to discuss methods for improvement. Participants at the event reviewed performance-enhancing innovations in coal EGUs, discussed the potential for data-driven management practices to increase efficiency and reliability, investigated the impacts of regulatory compliance on coal EGU performance, and discussed upcoming challenges for the coal industry. This report documents the key

  5. Future CO2 emissions and electricity generation from proposed coal-fired power plants in India

    Science.gov (United States)

    Shearer, Christine; Fofrich, Robert; Davis, Steven J.

    2017-04-01

    With its growing population, industrializing economy, and large coal reserves, India represents a critical unknown in global projections of future CO2 emissions. Here, we assess proposed construction of coal-fired power plants in India and evaluate their implications for future emissions and energy production in the country. As of mid-2016, 243 gigawatts (GW) of coal-fired generating capacity are under development in India, including 65 GW under construction and an additional 178 GW proposed. These under-development plants would increase the coal capacity of India's power sector by 123% and, when combined with the country's goal to produce at least 40% of its power from non-fossil sources by 2030, exceed the country's projected future electricity demand. The current proposals for new coal-fired plants could therefore either "strand" fossil energy assets (i.e., force them to retire early or else operate at very low capacity factors) and/or ensure that the goal is not met by "locking-out" new, low-carbon energy infrastructure. Similarly, future emissions from the proposed coal plants would also exceed the country's climate commitment to reduce its 2005 emissions intensity 33% to 35% by 2030, which—when combined with the commitments of all other countries—is itself not yet ambitious enough to meet the international goal of holding warming well below 2°C relative to the pre-industrial era.

  6. Increasing coal-fired power generation efficiency to reduce electric cost and environmental emissions

    International Nuclear Information System (INIS)

    Torrens, I.M.; Stenzel, W.C.

    1997-01-01

    New generating capacity required globally between 1993 and 2010 is estimated to be around 1500 GW, of which some two-thirds will be outside the OECD, and some 40 % in the Asian non-OECD countries. Coal is likely to account for a substantial fraction of this new generation. Today's state-of-the-art supercritical coal-fired power plant has a conversion efficiency of some 42-45 %. The capital cost increase associated with the supercritical or ultra-supercritical pulverized coal power plant compared to a conventional subcritical plant is small to negligible. The increased efficiency associated with the supercritical plant leads to an actual reduction in the total cost of electricity generated in cents/kWh, relative to a conventional plant. Despite this, the power sector continues to build subcritical plants and has no near term plans to increase the efficiency of power plants in the projects it is developing. Advanced clean coal technologies such as integrated gasification combined cycle and pressurized fluidized bed combustion will be selected for independent power projects only in very specific circumstances. Advanced clean coal plants can be operated reliably and with superior performance, and specifically that their present estimated capital costs can be reduced substantially to a point where they are competitive with state-of-the-art pulverized coal technologies. (R.P.)

  7. Commerical electric power cost studies. Capital cost addendum multi-unit coal and nuclear stations

    International Nuclear Information System (INIS)

    1977-09-01

    This report is the culmination of a study performed to develop designs and associated capital cost estimates for multi-unit nuclear and coal commercial electric power stations, and to determine the distribution of these costs among the individual units. This report addresses six different types of 2400 MWe (nominal) multi-unit stations as follows: Two Unit PWR Station-1139 MWe Each, Two Unit BWR Station-1190 MWe Each, Two Unit High Sulfur Coal-Fired Station-1232 MWe Each, Two Unit Low Sulfur Coal-Fired Station-1243 MWe Each, Three Unit High Sulfur Coal-Fired Station-794 MWe Each, Three Unit Low Sulfur Coal-Fired Station-801 MWe Each. Recent capital cost studies performed for ERDA/NRC of single unit nuclear and coal stations are used as the basis for developing the designs and costs of the multi-unit stations. This report includes the major study groundrules, a summary of single and multi-unit stations total base cost estimates, details of cost estimates at the three digit account level and plot plan drawings for each multi-unit station identified

  8. Key factors for assessing climate benefits of natural gas versus coal electricity generation

    International Nuclear Information System (INIS)

    Zhang, Xiaochun; Caldeira, Ken; Myhrvold, Nathan P

    2014-01-01

    Assessing potential climate effects of natural gas versus coal electricity generation is complicated by the large number of factors reported in life cycle assessment studies, compounded by the large number of proposed climate metrics. Thus, there is a need to identify the key factors affecting the climate effects of natural gas versus coal electricity production, and to present these climate effects in as clear and transparent a way as possible. Here, we identify power plant efficiencies and methane leakage rates as the factors that explain most of the variance in greenhouse gas emissions by natural gas and coal power plants. Thus, we focus on the role of these factors in determining the relative merits of natural gas versus coal power plants. We develop a simple model estimating CO 2 and CH 4 emissions from natural gas and coal power plants, and resulting temperature change. Simple underlying physical changes can be obscured by abstract evaluation metrics, thus we focus our analysis on the time evolution of global mean temperature. We find that, during the period of plant operation, if there is substantial methane leakage, natural gas plants can produce greater near-term warming than coal plants with the same power output. However, if methane leakage rates are low and power plant efficiency is high, natural gas plants can produce some reduction in near-term warming. In the long term, natural gas power plants produce less warming than would occur with coal power plants. However, without carbon capture and storage natural gas power plants cannot achieve the deep reductions that would be required to avoid substantial contribution to additional global warming. (letter)

  9. Up the stack : coal-fired electricity's toxic impact : an OCAA air quality report

    International Nuclear Information System (INIS)

    Rang, S.

    2002-07-01

    Ontario Power Generation (OPG) must report annually its releases and transfers of 268 chemicals to the federal National Pollutant Release Inventory (NPRI). Each OPG facility reports the amount of chemicals released to the air, land, water and injected under ground at the facility site. The facilities must also report the amount of chemicals that are transferred off-site for treatment, sewage, disposal, recycling or energy recovery. In 1999 and 2000, atmospheric releases from OPG's coal-fired plants accounted for a significant percentage of the total pollutants released for Ontario and Canada. OPG's facilities are often in the top 5 in Ontario and Canada for releases of various chemicals, including persistent toxic chemicals. In 1999, the Nanticoke coal-fired power plant on Lake Erie was ranked first in Canada for releases to the air. Data reported for the 1999 and 2000 reporting period for dioxins and furans, hexachlorobenzene, mercury, metals (chromium, nickel and arsenic), and acid gases such as hydrochloric acid, hydrogen fluoride, and sulphuric acid clearly indicates that OPG coal-fired plants are a leading source of air pollution in Canada and Ontario. The Ontario Clean Air Alliance suggests the data is sufficient to phase-out the use of coal for power generation in Ontario. It recommends conserving energy and replacing coal-fired power with renewable energy sources such as wind and water power. Converting coal facilities to high-efficiency natural gas units would also reduce the toxic impacts of OPG's coal-fired power plants. As an immediate first step, it was recommended that the government should ban non-emergency exports of coal-fired electricity during smog-alert periods in Ontario. 11 tabs

  10. Coal

    International Nuclear Information System (INIS)

    Muir, D.A.

    1991-01-01

    It is estimated that World coal trade remained strong during the second quarter of 1991, with contributing factors including unseasonally large shipments to Japan for power generation, sustained Japanese steel production at around 112 Mt and some buildup in stocks in that country. Purchases by North Asian and European consumers also remained high. At the same time Soviet output and exports declined because of strikes and political unrest. In addition, exportable supplies in Poland fell. As a result the demand for Indonesian coal increased, and Australia exported larger than previously expected quantities of coal. ills

  11. Comparative Human Toxicity Impact of Electricity Produced from Shale Gas and Coal.

    Science.gov (United States)

    Chen, Lu; Miller, Shelie A; Ellis, Brian R

    2017-11-07

    The human toxicity impact (HTI) of electricity produced from shale gas is lower than the HTI of electricity produced from coal, with 90% confidence using a Monte Carlo Analysis. Two different impact assessment methods estimate the HTI of shale gas electricity to be 1-2 orders of magnitude less than the HTI of coal electricity (0.016-0.024 DALY/GWh versus 0.69-1.7 DALY/GWh). Further, an implausible shale gas scenario where all fracturing fluid and untreated produced water is discharged directly to surface water throughout the lifetime of a well also has a lower HTI than coal electricity. Particulate matter dominates the HTI for both systems, representing a much larger contribution to the overall toxicity burden than VOCs or any aquatic emission. Aquatic emissions can become larger contributors to the HTI when waste products are inadequately disposed or there are significant infrastructure or equipment failures. Large uncertainty and lack of exposure data prevent a full risk assessment; however, the results of this analysis provide a comparison of relative toxicity, which can be used to identify target areas for improvement and assess potential trade-offs with other environmental impacts.

  12. Imported mineral coal: competitiveness for electric power generation in northeast of Brazil

    International Nuclear Information System (INIS)

    Codeceira Neto, A.; Ribeiro Filho, A.P.R.; Silva, S.P.R. da

    1993-01-01

    With the hydroelectric potential exhaustion of northeast and with the increase of costs to the use of hydroelectric uses available in Brazil, the thermoelectric generation will be able to become a competitive solution to attend the market of electric power. This work has as purpose describe the options of imported coal use to Brazilian northeast its technological aspects, the environmental question, and the preliminary studies of localization and the costs associated on implantation of coal thermoelectric power plants. 7 refs, 3 figs, 6 tabs

  13. Forest bioenergy or forest carbon? Assessing trade-offs in greenhouse gas mitigation with wood-based fuels.

    Science.gov (United States)

    McKechnie, Jon; Colombo, Steve; Chen, Jiaxin; Mabee, Warren; MacLean, Heather L

    2011-01-15

    The potential of forest-based bioenergy to reduce greenhouse gas (GHG) emissions when displacing fossil-based energy must be balanced with forest carbon implications related to biomass harvest. We integrate life cycle assessment (LCA) and forest carbon analysis to assess total GHG emissions of forest bioenergy over time. Application of the method to case studies of wood pellet and ethanol production from forest biomass reveals a substantial reduction in forest carbon due to bioenergy production. For all cases, harvest-related forest carbon reductions and associated GHG emissions initially exceed avoided fossil fuel-related emissions, temporarily increasing overall emissions. In the long term, electricity generation from pellets reduces overall emissions relative to coal, although forest carbon losses delay net GHG mitigation by 16-38 years, depending on biomass source (harvest residues/standing trees). Ethanol produced from standing trees increases overall emissions throughout 100 years of continuous production: ethanol from residues achieves reductions after a 74 year delay. Forest carbon more significantly affects bioenergy emissions when biomass is sourced from standing trees compared to residues and when less GHG-intensive fuels are displaced. In all cases, forest carbon dynamics are significant. Although study results are not generalizable to all forests, we suggest the integrated LCA/forest carbon approach be undertaken for bioenergy studies.

  14. Greenhouse gas emissions from shale gas and coal for electricity generation in South Africa

    Directory of Open Access Journals (Sweden)

    Brett Cohen

    2014-03-01

    Full Text Available There is increased interest, both in South Africa and globally, in the use of shale gas for electricity and energy supply. The exploitation of shale gas is, however, not without controversy, because of the reported environmental impacts associated with its extraction. The focus of this article is on the greenhouse gas footprint of shale gas, which some literature suggests may be higher than what would have been expected as a consequence of the contribution of fugitive emissions during extraction, processing and transport. Based on some studies, it has been suggested that life-cycle emissions may be higher than those from coal-fired power. Here we review a number of studies and analyse the data to provide a view of the likely greenhouse gas emissions from producing electricity from shale gas, and compare these emissions to those of coal-fired power in South Africa. Consideration was given to critical assumptions that determine the relative performance of the two sources of feedstock for generating electricity � that is the global warming potential of methane and the extent of fugitive emissions. The present analysis suggests that a 100-year time horizon is appropriate in analysis related to climate change, over which period the relative contribution is lower than for shorter periods. The purpose is to limit temperature increase in the long term and the choice of metric should be appropriate. The analysis indicates that, regardless of the assumptions about fugitive emissions and the period over which global warming potential is assessed, shale gas has lower greenhouse gas emissions per MWh of electricity generated than coal. Depending on various factors, electricity from shale gas would have a specific emissions intensity between 0.3 tCO2/MWh and 0.6 tCO2/MWh, compared with about 1 tCO2/MWh for coal-fired electricity in South Africa.

  15. 75 FR 18015 - Credit for Renewable Electricity Production, Refined Coal Production, and Indian Coal Production...

    Science.gov (United States)

    2010-04-08

    ... DEPARTMENT OF THE TREASURY Internal Revenue Service Credit for Renewable Electricity Production... Reference Prices for Calendar Year 2010; Correction AGENCY: Internal Revenue Service (IRS), Treasury. ACTION: Correction to publication of inflation adjustment factors and reference prices for calendar year 2010...

  16. 2015 Bioenergy Market Report

    Energy Technology Data Exchange (ETDEWEB)

    Warner, Ethan [National Renewable Energy Lab. (NREL), Golden, CO (United States); Moriarty, Kristi [National Renewable Energy Lab. (NREL), Golden, CO (United States); Lewis, John [National Renewable Energy Lab. (NREL), Golden, CO (United States); Milbrandt, Anelia [National Renewable Energy Lab. (NREL), Golden, CO (United States); Schwab, Amy [National Renewable Energy Lab. (NREL), Golden, CO (United States)

    2017-02-28

    This report is an update to the 2013 report and provides a status of the markets and technology development involved in growing a domestic bioenergy economy as it existed at the end of 2015. It compiles and integrates information to provide a snapshot of the current state and historical trends influencing the development of bioenergy markets. This version features details on the two major bioenergy markets: biofuels and biopower and an overview of bioproducts that enable bioenergy production. The information is intended for policy-makers as well as technology developers and investors tracking bioenergy developments. It also highlights some of the key energy and regulatory drivers of bioenergy markets.

  17. Efficient and large scale synthesis of graphene from coal and its film electrical properties studies.

    Science.gov (United States)

    Wu, Yingpeng; Ma, Yanfeng; Wang, Yan; Huang, Lu; Li, Na; Zhang, Tengfei; Zhang, Yi; Wan, Xiangjian; Huang, Yi; Chen, Yongsheng

    2013-02-01

    Coal, which is abundant and has an incompact structure, is a good candidate to replace graphite as the raw material for the production of graphene. Here, a new solution phase technique for the preparation of graphene from coal has been developed. The precursor: graphene oxide got from coal was examined by atomic force microscopy, dynamic light scattering and X-ray diffraction, the results showed the GO was a small and single layer sheet. The graphene was examined by X-ray photoelectron spectroscopy, and Raman spectroscopy. Furthermore, graphene films have been prepared using direct solution process and the electrical conductivity and Hall effect have been studied. The results showed the conductivity of the films could reach as high as 2.5 x 10(5) Sm(-1) and exhibited an n-type behavior.

  18. Pain without gain? Reviewing the risks and rewards of investing in Russian coal-fired electricity

    International Nuclear Information System (INIS)

    Gorbacheva, Natalya V.; Sovacool, Benjamin K.

    2015-01-01

    Highlights: • This study explores the risks and rewards facing coal in Russia. • Rewards include low costs, investment, rural modernization, exports, and innovation. • Risks include development challenges, air pollution and climate change, and policy support. - Abstract: Coal use—and thus investment—is expected to grow considerably in the Russian Federation over the next few decades. Projections suggest that at least $200 billion of investment will be needed to modernize existing coal-fired power plants by 2030, but the bulk of this financing is to come from the private sector or foreign enterprises. This study asks: what are the possible investment risks and rewards of pursuing this expansion of coal in the Russian power sector? To provide an answer, the study uses a mixed methods approach consisting of elite semi-structured interviews and a review of English and Russian peer-reviewed literature. The study provides a brief overview of the Russian electricity sector before discussing five distinct rewards to investing in coal such as low production costs, competitive returns on investment, rural modernization, expansion of exports, and the acceleration of innovation. These benefits however are offset by five risks: inferior performance to investments in oil and gas, development challenges, air pollution and climate change, social degradation from mining, and a tradeoff with existing policies incentivizing renewable energy and energy efficiency. The study concludes by analyzing what these disparate risks and rewards mean for policymakers and energy analysts

  19. 77 FR 25538 - Credit for Renewable Electricity Production, Refined Coal Production, and Indian Coal Production...

    Science.gov (United States)

    2012-04-30

    ... DEPARTMENT OF THE TREASURY Internal Revenue Service Credit for Renewable Electricity Production... Reference Prices for Calendar Year 2012; Correction AGENCY: Internal Revenue Service (IRS), Treasury. ACTION: Correction to a publication of inflation adjustment factors and reference prices for calendar year 2012 as...

  20. Individual and big technology: a comparative attitudinal research to electricity generation from coal and uranium

    International Nuclear Information System (INIS)

    Midden, C.J.H.

    1986-01-01

    The basic issue addressed in this research can be formulated as follows: how can peoples reactions to high risk energy technologies be described, analysed and compared. In this study the technologies for electricity generation of nuclear power and coal were chosen for comparison. The thesis gives a general introduction and considers: 1. policy issues involved in the introduction and implementation of large scale technologies. 2. the current electricity supply situation with particular emphasis on the contribution of nuclear power and coal. 3. recent research which has contributed to the formulation of energy policy decisions. The attitudinal framework adopted in this study is discussed in relation to other approaches for the analysis of risk perception, classification of risks and personal and collective decisions about risk taking. (Auth.)

  1. 2013 Bioenergy Market Report

    Energy Technology Data Exchange (ETDEWEB)

    Schwab, Amy [National Renewable Energy Lab. (NREL), Golden, CO (United States); Moriarty, Kristi [National Renewable Energy Lab. (NREL), Golden, CO (United States); Milbrandt, Anelia [National Renewable Energy Lab. (NREL), Golden, CO (United States); Geiger, Jesse [National Renewable Energy Lab. (NREL), Golden, CO (United States); Lewis, John [National Renewable Energy Lab. (NREL), Golden, CO (United States)

    2016-03-28

    This report provides a status of the markets and technology development involved in growing a domestic bioenergy economy as it existed at the end of 2013. It compiles and integrates information to provide a snapshot of the current state and historical trends influencing the development of bioenergy markets. This information is intended for policy-makers as well as technology developers and investors tracking bioenergy developments. It also highlights some of the key energy and regulatory drivers of bioenergy markets.

  2. Electricity generation from coal: a review of impacts on human health and the environment

    International Nuclear Information System (INIS)

    Catsaros, Nicolas.

    1985-09-01

    In this report the risk induced by the generation of electricity by burning coal on humans and the environment is analysed. The main conclusion of the study is that the health risk, expressed in terms of deaths or injuries per GW(e)-yr produced, appears to be non-trivial. The impacts on the invironment, although difficult to quantify, seem to be important too. (author)

  3. Bioenergy 93 conference

    International Nuclear Information System (INIS)

    1993-01-01

    In this report the presentations given in the Bioenergy 93 Conference are published. The papers are grouped as follows: Opening addresses, biomass implementation strategies, nordic bioenergy research programs, production, handling and conversion of biofuels, combustion technology of biofuels and bioenergy visions

  4. Determination of leveled costs of electric generation for gas plants, coal and nuclear

    International Nuclear Information System (INIS)

    Alonso V, G.; Palacios H, J.C.; Ramirez S, J.R.; Gomez, A.

    2005-01-01

    The present work analyzes the leveled costs of electric generation for different types of nuclear reactors known as Generation III, these costs are compared with the leveled costs of electric generation of plants with the help of natural gas and coal. In the study several discount rates were used to determine their impact in the initial investment. The obtained results are comparable with similar studies and they show that it has more than enough the base of the leveled cost the nuclear option it is quite competitive in Mexico. Also in this study it is also thinks about the economic viability of a new nuclear power station in Mexico. (Author)

  5. Environmental control implications of generating electric power from coal. Technology status report. Volume II

    Energy Technology Data Exchange (ETDEWEB)

    None

    1976-12-01

    This is the first in a series of reports evaluating environmental control technologies applicable to the coal-to-electricity process. The technologies are described and evaluated from an engineering and cost perspective based upon the best available information obtained from utility experience and development work in progress. Environmental control regulations and the health effects of pollutants are also reviewed. Emphasis is placed primarily upon technologies that are now in use. For SO/sub 2/ control, these include the use of low sulfur coal, cleaned coal, or flue-gas desulfurization systems. Electrostatic precipitators and fabric filters used for the control of particulate matter are analyzed, and combustion modifications for NO/sub x/ control are described. In each area, advanced technologies still in the development stage are described briefly and evaluated on the basis of current knowledge. Fluidized-bed combustion (FBC) is a near-term technology that is discussed extensively in the report. The potential for control of SO/sub 2/ and NO/sub x/ emissions by use of FBC is analyzed, as are the resulting solid waste disposal problems, cost estimates, and its potential applicability to electric utility systems. Volume II presents the detailed technology analyses complete with reference citations. This same material is given in condensed form in Volume I without references. A brief executive summary is also given in Volume I.

  6. A strategy for introducing modern bioenergy into developing Asia to avoid dangerous climate change

    International Nuclear Information System (INIS)

    Takeshita, Takayuki

    2009-01-01

    This paper explores the cost-effective strategy for introducing modern bioenergy into developing Asia through the 21st century under a 400 ppmv CO 2 stabilization constraint using a global energy model that treats the bioenergy sector in detail. The major conclusions are the following. First, under the 400 ppmv CO 2 stabilization constraint, it is cost-effective to use modern bioenergy largely to generate heat and replace direct coal use in developing Asia in the first half of the century, because direct heat generation from modern biomass is efficient and expected to achieve large CO 2 reduction. As second-generation bioenergy conversion technologies (mainly gasification-based technologies) become mature in the second half of the century, it becomes cost-effective to introduce biomass-derived hydrogen, electricity, and Fischer-Tropsch synfuels and bioethanol produced using these technologies into developing Asia instead of modern biomass-derived heat. All biomass gasification-based conversion technologies are combined with CO 2 capture and storage from 2060, which enables negative CO 2 emissions and makes a substantial contribution to achieving the stringent climate stabilization target. Second, due to its small availability of biomass resources, large-scale import of biofuels and wood pellets is inevitable in developing Asia except southeastern Asia under the CO 2 constraint used here. It is shown that this contributes to diversifying liquid fuel import sources and improving energy security in developing Asia. Third, sensitivity analysis shows that these findings are robust to bioenergy-related cost parameters. (author)

  7. Introduction of information control systems in electricity transformer stations for coal mines

    Energy Technology Data Exchange (ETDEWEB)

    Knezevic, M.

    1987-01-01

    Discusses the advantages of introducing information control systems into main and subpower transformer stations supplying large capacity continuous production surface coal mines. The main characteristics and economic advantages of such a system are described and it is recommended that a full-scale feasibility study be carried out by a team of experts drawn from the fields of mining technology, mining machinery and electricity supply. It is envisaged that optimizing the use of transformer facilities could significantly reduce operational breakdowns and also result in considerable cost savings in electricity charges. Savings at a typical mine producing 2000 t/h are estimated to be 24.6 million Yu Din and, according to Soviet experience, the utilization of automatic information and managerial systems has resulted in reductions in electricity costs of 32%. 8 refs.

  8. The Research of Utilization Hours of Coal-Fired Power Generation Units Based on Electric Energy Balance

    Science.gov (United States)

    Liu, Junhui; Yang, Jianlian; Wang, Jiangbo; Yang, Meng; Tian, Chunzheng; He, Xinhui

    2018-01-01

    With grid-connected scale of clean energy such as wind power and photovoltaic power expanding rapidly and cross-province transmission scale being bigger, utilization hours of coal-fired power generation units become lower and lower in the context of the current slowdown in electricity demand. This paper analyzes the influencing factors from the three aspects of demand, supply and supply and demand balance, and the mathematical model has been constructed based on the electric energy balance. The utilization hours of coal-fired power generation units have been solved considering the relationship among proportion of various types of power installed capacity, the output rate and utilization hours. By carrying out empirical research in Henan Province, the utilization hours of coal-fired units of Henan Province in 2020 has been achieved. The example validates the practicability and the rationality of the model, which can provide a basis for the decision-making for coal-fired power generation enterprises.

  9. CO sub 2 emissions from coal-fired and solar electric power plants

    Energy Technology Data Exchange (ETDEWEB)

    Keith, F.; Norton, P.; Brown, D.

    1990-05-01

    This report presents estimates of the lifetime carbon dioxide emissions from coal-fired, photovoltaic, and solar thermal electric power plants in the United States. These CO{sub 2} estimates are based on a net energy analysis derived from both operational systems and detailed design studies. It appears that energy conservation measures and shifting from fossil to renewable energy sources have significant long-term potential to reduce carbon dioxide production caused by energy generation and thus mitigate global warming. The implications of these results for a national energy policy are discussed. 40 refs., 8 figs., 23 tabs.

  10. Health and environmental effects of coal-fired electric power plants

    International Nuclear Information System (INIS)

    Morris, S.C.; Hamilton, L.D.

    1984-05-01

    This paper describes health and environmental impacts of coal-fired electric power plants. Effects on man, agriculture, and natural ecosystems are considered. These effects may result from direct impacts or exposures via air, water, and food chains. The paper is organized by geographical extent of effect. Occupational health impacts and local environmental effects such as noise and solid waste leachate are treated first. Then, regional effects of air pollution, including acid rain, are analyzed. Finally, potential global impacts are examined. Occupational health concerns considered include exposure to noise, dust, asbestos, mercury, and combustion products, and resulting injury and disease. Local effects considered include noise; air and water emissions of coal storage piles, solid waste operations, and cooling systems. Air pollution, once an acute local problem, is now a regional concern. Acute and chronic direct health effects are considered. Special attention is given to potential effects of radionuclides in coal and of acid rain. Finally, potential global impacts associated with carbon dioxide emissions are considered. 88 references, 9 tables

  11. Health and environmental effects of coal-fired electric power plants

    Energy Technology Data Exchange (ETDEWEB)

    Morris, S.C.; Hamilton, L.D.

    1984-05-01

    This paper describes health and environmental impacts of coal-fired electric power plants. Effects on man, agriculture, and natural ecosystems are considered. These effects may result from direct impacts or exposures via air, water, and food chains. The paper is organized by geographical extent of effect. Occupational health impacts and local environmental effects such as noise and solid waste leachate are treated first. Then, regional effects of air pollution, including acid rain, are analyzed. Finally, potential global impacts are examined. Occupational health concerns considered include exposure to noise, dust, asbestos, mercury, and combustion products, and resulting injury and disease. Local effects considered include noise; air and water emissions of coal storage piles, solid waste operations, and cooling systems. Air pollution, once an acute local problem, is now a regional concern. Acute and chronic direct health effects are considered. Special attention is given to potential effects of radionuclides in coal and of acid rain. Finally, potential global impacts associated with carbon dioxide emissions are considered. 88 references, 9 tables.

  12. Approaches for controlling air pollutants and their environmental impacts generated from coal-based electricity generation in China.

    Science.gov (United States)

    Xu, Changqing; Hong, Jinglan; Ren, Yixin; Wang, Qingsong; Yuan, Xueliang

    2015-08-01

    This study aims at qualifying air pollutants and environmental impacts generated from coal-based power plants and providing useful information for decision makers on the management of coal-based power plants in China. Results showed that approximately 9.03, 54.95, 62.08, and 12.12% of the national carbon dioxide, sulfur dioxide, nitrogen oxides, and particulate matter emissions, respectively, in 2011were generated from coal-based electricity generation. The air pollutants were mainly generated from east China because of the well-developed economy and energy-intensive industries in the region. Coal-washing technology can simply and significantly reduce the environmental burden because of the relativity low content of coal gangue and sulfur in washed coal. Optimizing the efficiency of raw materials and energy consumption is additional key factor to reduce the potential environmental impacts. In addition, improving the efficiency of air pollutants (e.g., dust, mercury, sulfur dioxide, nitrogen oxides) control system and implementing the strict requirements on air pollutants for power plants are important ways for reducing the potential environmental impacts of coal-based electricity generation in China.

  13. Bioenergy in Energy Transformation and Climate Management

    Energy Technology Data Exchange (ETDEWEB)

    Rose, Steven K.; Kriegler, Elmar; Bibas, Ruben; Calvin, Katherine V.; Popp, Alexander; van Vuuren, Detlef; Weyant, John

    2014-04-01

    Unlike fossil fuels, biomass is a renewable resource that can sequester carbon during growth, be converted to energy, and then re-grown. Biomass is also a flexible fuel that can service many end-uses. This paper explores the importance of bioenergy to potential future energy transformation and climate change management. Using a model comparison of fifteen models, we characterize and analyze future dependence on, and the value of, bioenergy in achieving potential long-run climate objectives—reducing radiative forcing to 3.7 and 2.8 W/m2 in 2100 (approximately 550 and 450 ppm carbon dioxide equivalent atmospheric concentrations). Model scenarios project, by 2050, bioenergy growth of 2 to 10% per annum reaching 5 to 35 percent of global primary energy, and by 2100, bioenergy becoming 15 to 50 percent of global primary energy. Non-OECD regions are projected to be the dominant suppliers of biomass, as well as consumers, with up to 35 percent of regional electricity from biopower by 2050, and up to 70 percent of regional liquid fuels from biofuels by 2050. Bioenergy is found to be valuable to many models with significant implications for mitigation costs and world consumption. The availability of bioenergy, in particular biomass with carbon dioxide capture and storage (BECCS), notably affects the cost-effective global emissions trajectory for climate management by accommodating prolonged near-term use of fossil fuels. We also find that models cost-effectively trade-off land carbon and nitrous oxide emissions for the long-run climate change management benefits of bioenergy. Overall, further evaluation of the viability of global large-scale bioenergy is merited.

  14. The future of bioenergy; Die Zukunft der Bioenergie

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2015-07-01

    This volume contains the following five contributions: 1. The impact of the governmental biogas production on agricultural rents in Germany. An econometric study (Hendrik Garvert); 2. Biogas as price drivers on the land and rental market? An Empirical Analysis (Uwe Latacz-Lohmann); 3. Analysis of comparative advantage of bioenergy in electricity and heat production. Greenhouse gas abatement and mitigation costs in Brandenburg (Lukas Scholz); 4. Flexibility potential of biogas and biomethane CHP in the investment portfolio (Matthias Edel); 5. Legal possibilities and limitations of a reform of the system for the promotion of bioenergy (Jose Martinez). [German] Dieser Band enthaelt folgende fuenf Themenbeitraege: 1. Die Auswirkungen der staatlichen Biogasfoerderung auf landwirtschaftliche Pachtpreise in Deutschland. Eine oekonometrische Untersuchung (Hendrik Garvert); 2. Biogas als Preistreiber am Bodenmarkt und Pachtmarkt? Eine empirische Analyse (Uwe Latacz-Lohmann); 3. Analyse komparativer Kostenvorteile von Bioenergielinien in der Strom- und Waermeproduktion Treibhausgasvermeidung und Vermeidungskosten in Brandenburg (Lukas Scholz); 4. Flexibilisierungspotenzial von Biogas- und Biomethan-BHKWs im Anlagenbestand (Matthias Edel); 5. Rechtliche Moeglichkeiten und Grenzen einer Reform des Systems zur Foerderung der Bioenergie (Jose Martinez).

  15. Climate effects of wood used for bioenergy

    Energy Technology Data Exchange (ETDEWEB)

    Ros, Jan P.M.; Van Minnen, Jelle G. [Netherlands Environmental Assessment Agency PBL, Bilthoven (Netherlands); Arets, Eric J.M.M. [Alterra, Wageningen University WUR, Wageningen (Netherlands)

    2013-08-15

    Wood growth and natural decay both take time, and this is an important aspect of sustainability assessments of wood used for energy. Wood taken from forests is a carbon-neutral energy source in the long term, but there are many examples of potential sources of wood used for bioenergy for which net emission reductions are not achieved in 10 to 40 years - the time frame for most climate policy mitigation targets. This is caused by two factors. The first factor relates to the fact that the carbon cycles of wood have a long time span. After final felling, CO2 fixation rates are initially relatively low, but increase again as forests regrow. This regrowth takes many years, sometimes more than a century. Wood residues can either be used or left in the forest. By using them, the emissions from the otherwise decaying residues (taking 2 to 30 years) would be avoided. The second factor concerns the fact that, if the wood is used for bioenergy, then fossil energy emissions are being avoided. However, the direct emission levels from bioenergy are higher than those related to the fossil energy it replaces. These additional emissions also have to be compensated. The carbon debt caused by both factors has to be paid back first, before actual emission reductions can be realised. For wood residues (from harvesting or thinning) that are used to replace coal or oil products, these payback times are relatively short, of the order of 5 to 25 years, mainly depending on location and type of residue (longer if they replace gas). This is also the case when using wood from salvage logging. In most cases, when using wood from final felling directly for energy production, payback times could be many decades to more than a century, with substantial increases in net CO2 emissions, in the meantime. This is especially the case for many forests in Europe, because they are currently an effective carbon sink. Additional felling reduces average growth rates in these forests and thus the sequestration

  16. On the economics of nuclear and coal-fired electric generation

    International Nuclear Information System (INIS)

    Pouris, A.

    1987-01-01

    This article addresses the relative merit of nuclear versus coal-fired electricity generation for plants beginning base-load service in South Africa after the year 2000. Emphasis is placed on the economic merits of the two technologies, and environmental and social implications are taken into account only in so far as legislation, security, and other considerations affect the economics of the technologies. It is assumed that nuclear and coal-fired generating plants wil represent the most cost-effective and feasible options for base-load service in the foreseeable future. Socio-political consideration and lack of indigenous oil production forbid the use of oil for the production of electricity, independently of economic merits. Similarly, the absence of local research on alternative renewable technologies, their stage of development abroad and their current economics limit the possibility of their extensive use in the time horizon under examination. The measure of economic merit used in the study is the 'levelized busbar cost' over the lifetime of the station

  17. Understanding China’s electricity market reform from the perspective of the coal-fired power disparity

    International Nuclear Information System (INIS)

    Mou, Dunguo

    2014-01-01

    In China, electricity consumption has grown quickly, supply is highly dependent on coal-fired power, and the prices of electricity are determined by the government, which increases the need for reform to enhance efficiency. In response to disputes about China’s electricity market reform, this paper analyses the efficiency of China’s coal-fired power plants using the Data Envelopment Analysis—Slack Based Measure (DEA-SBM) method on three levels: groups, provinces, and plants. The results indicate that there are both coal-electricity efficiency disparities and generation-hour arrangement unfairness across groups; the disparity across provinces is obvious and long-lasting, as indicated by capacity surpluses and coal-electricity efficiencies; and the disparities are displayed in detail by the estimation at the plant level. The disparities are primarily caused by the generator combination and generation hour arrangement. Competition may be able to solve the disparities, but a further comparison indicates that competition at the national level will enhance the efficiency to a greater degree than competition at the regional level. These results demonstrate that both competition and a united electricity market are necessary for further electricity market reform. - Highlights: • This paper analyses the coal-fired electricity efficiency from three levels. • There are efficiency disparities and hour arrangement unfairness at group level. • The disparities and unfairness are long-lasting across provinces. • The disparities and unfairness are detailed by analysis at plant level. • Competition at national market can improve the efficiency better than at regional market

  18. The Biogas from bio-energy electrical power plant of Nuevo Leon; Central electrica de biogas de bioenergia de Nuevo Leon

    Energy Technology Data Exchange (ETDEWEB)

    Arvizu F, Jose L [Instituto de Investigaciones Electricas, Cuernavaca, Morelos (Mexico); Saldana M, Jaime L [Sistemas de Energia Internacional S.A. de C.V. (Mexico)

    2005-07-01

    The biogas from bio-energy electrical power plant of Nuevo Leon represents, in all the national territory, the first experience on the advantage of biogas emitted by the sanitary landfills for the generation of electrical energy. Therefore, one of the specific objectives of this paper is the one of diffusion and reproduction of the same one in other cities of Mexico and Latin America. The project is framed within the world-wide policies on the control of emissions for the reduction of the greenhouse effect gases (GEG) and its impact in the global climatic change. The gas emitted by the trash sanitary landfills, commonly known as biogas, is a gas mixture derived from the decomposition of the organic matter of the municipal trash by microorganisms in anaerobic conditions. Biogas generated in the sanitary landfills has a methane content of 55% and a 35% of carbon dioxide. The balance 10% is made up of water steam, hydrogen, nitrogen, oxygen, hydrogen sulfur and other gases in minimum amounts. [Spanish] La Central Electrica de Biogas de Bioenergia de Nuevo Leon representa, en todo el territorio nacional, la primera experiencia sobre el aprovechamiento del biogas emitido por los rellenos sanitarios para la generacion de energia electrica. Por esta razon, uno de los objetivos especificos de este trabajo es la de difusion y reproduccion del mismo en otras ciudades de Mexico y Latinoamerica. El proyecto esta enmarcado dentro de las politicas mundiales sobre el control de emisiones para la reduccion de los gases de efecto invernadero (GEI) y su impacto en el cambio climatico global. El gas emitido por la basura dispuesta en los rellenos sanitarios, comunmente conocido como biogas, es una mezcla de gases derivado de la descompensacion de la materia organica de la basura municipal por microorganismos en condiciones anaerobias. El biogas generado en los rellenos sanitarios tiene un contenido de metano del 55% y un 35% de bioxido de carbono. El 10% restante se compone de vapor

  19. Paths to bioenergy villages. A guideline for a independent supply of heat and electricity based on biomass in rural area. 3. ed.; Wege zum Bioenergiedorf. Leitfaden fuer eine eigenstaendige Waerme- und Stromversrogung auf Basis von Biomasse im laendlichen Raum

    Energy Technology Data Exchange (ETDEWEB)

    Ruppert, Hans; Eigner-Thiel, Swantje; Girschner, Walter; Karpenstein-Machan, Marianne; Roland, Folker; Ruwisch, Volker; Sauer, Benedikt; Schmuck, Peter

    2010-12-15

    Bioenergy villages are one component for the sustainable energy supply in rural areas. The guideline under consideration is intended to encourage people in villages to switch their heat supply and electricity supply on the bases of biomass. The focus of this process-oriented guideline is on: (1) A presentation of the social feasibility, especially the involvement, motivation and encouragement of the population; (2) The presentation of concepts for a nature-friendly cultivation of the required biomass; (3) The treatment of economic and legal issues from the perspective of the people involved.

  20. Economic and social costs of coal and nuclear electric generation, a framework for assessment and illustrative calculations for the coal and nuclear fuel cycles. Discussion paper

    International Nuclear Information System (INIS)

    Barrager, S.M.; Judd, B.R.; North, D.W.

    1976-03-01

    A method is presented for extending economic comparisons of nuclear and coal-fired electric power to include health, safety, and environmental impacts in the same quantitative framework. The method is illustrated by considering the decision between a light water nuclear reactor and a conventional coal-fired power plant to satisfy a 1000 MWe increase in electrical demand in the northeastern United States. For both alternatives, preliminary calculations of the economic and social costs expressed in mills per kilowatt-hour are reported. Economic costs consist of those faced by the utility, including capital charges, operating expenses, and fuel cycle costs. Social costs for each plant and its associated fuel cycle include routine environmental impacts such as air pollution as well as risk to the public from reactor accidents or sabotage

  1. Developments in international bioenergy trade

    International Nuclear Information System (INIS)

    Junginger, Martin; Faaij, Andre; Wit, Marc de; Bolkesjoe, Torjus; Bradley, Douglas; Dolzan, Paulo; Piacente, Erik; Walter, Arnaldo da Silva; Heinimoe, Jussi; Hektor, Bo; Leistad, Oeyvind; Ling, Erik; Perry, Miles; Rosillo-Calle, Frank; Ryckmans, Yves; Schouwenberg, Peter-Paul; Solberg, Birger; Troemborg, Erik

    2008-01-01

    The aim of this paper is to present a synthesis of the main developments and drivers of international bioenergy trade in IEA Bioenergy Task 40 member countries, based on various country reports written by Task 40 members. Special attention is given to pellet and ethanol trade. In many European countries such as Belgium, Finland, the Netherlands, Sweden and the UK, imported biomass contributes already significantly (between 21% and 43%) to total biomass use. Wood pellets are currently exported by Canada, Finland and (to a small extent) Brazil and Norway, and imported by Sweden, Belgium, the Netherlands, and the UK. In the Netherlands and Belgium, pellet imports nowadays contribute to a major share to total renewable electricity production. Trade in bio-ethanol is another example of a rapidly growing international market. With the EU-wide target of 5.75% biofuels for transportation in 2010 (and 10% in 2020), exports from Brazil and other countries to Europe are likely to rise as well. Major drivers for international bioenergy trade in general are the large resource potentials and relatively low production costs in producing countries such as Canada and Brazil, and high fossil fuel prices and various policy incentives to stimulate biomass use in importing countries. However, the logistic infrastructure both in exporting and importing countries needs to be developed to access larger physical biomass volumes and to reach other (i.e. smaller) end-consumers. It is concluded that international bioenergy trade is growing rapidly, far beyond what was deemed possible only a few years ago, and may in the future in some Task 40 countries surpass domestic biomass use, especially for specific applications (e.g. transport fuels). (author)

  2. Water for bioenergy: A global analysis

    NARCIS (Netherlands)

    Gerbens-Leenes, Winnie; Hoekstra, Arjen Ysbert; van der Meer, Theodorus H.; Gasparatos, A.; Stromberg, P.

    2012-01-01

    Agriculture is by far the largest water user. This chapter reviews studies on the water footprints (WFs) of bioenergy (in the form of bioethanol, biodiesel, and heat and electricity produced from biomass) and compares their results with the WFs of fossil energy and other types of renewables (wind

  3. Greenhouse gases, climate change and the transition from coal to low-carbon electricity

    International Nuclear Information System (INIS)

    Myhrvold, N P; Caldeira, K

    2012-01-01

    A transition from the global system of coal-based electricity generation to low-greenhouse-gas-emission energy technologies is required to mitigate climate change in the long term. The use of current infrastructure to build this new low-emission system necessitates additional emissions of greenhouse gases, and the coal-based infrastructure will continue to emit substantial amounts of greenhouse gases as it is phased out. Furthermore, ocean thermal inertia delays the climate benefits of emissions reductions. By constructing a quantitative model of energy system transitions that includes life-cycle emissions and the central physics of greenhouse warming, we estimate the global warming expected to occur as a result of build-outs of new energy technologies ranging from 100 GW e to 10 TW e in size and 1–100 yr in duration. We show that rapid deployment of low-emission energy systems can do little to diminish the climate impacts in the first half of this century. Conservation, wind, solar, nuclear power, and possibly carbon capture and storage appear to be able to achieve substantial climate benefits in the second half of this century; however, natural gas cannot. (letter)

  4. Climate effects of electricity production fuelled by coal, forest slash and municipal solid waste with and without carbon capture

    International Nuclear Information System (INIS)

    Sathre, Roger; Gustavsson, Leif; Truong, Nguyen Le

    2017-01-01

    We analyse the climate implications of producing electricity in large-scale conversion plants using coal, forest slash and municipal solid waste with and without carbon capture and storage (CCS). We calculate the primary energy, carbon dioxide (CO 2 ) and methane (CH 4 ) emission profiles, and the cumulative radiative forcing (CRF) of different systems that produce the same amount of electricity. We find that using slash or waste for electricity production instead of coal somewhat increases the instantaneous CO 2 emission from the power plant, but avoids significant subsequent emissions from decaying slash in forests or waste in landfills. For slash used instead of coal, we find robust near- and long-term reductions in total emissions and CRF. Climate effects of using waste instead of coal are more ambiguous: CRF is reduced when CCS is used, but without CCS there is little or no climate benefits of using waste directly for energy, assuming that landfill gas is recovered and used for electricity production. The application of CCS requires more fuel, but strongly reduces the CO 2 emissions. The use of slash or waste together with CCS results in negative net emissions and CRF, i.e. global cooling. - Highlights: • Using slash or waste for energy emits CO 2 from power plants, but avoids CO 2 and CH 4 emissions from forests or landfills. • Using forest slash for energy instead of coal gives robust short- and long-term climate benefits. • Using waste instead of coal gives questionable climate benefits, if the waste would otherwise be landfilled properly.

  5. Economic and environmental evaluation of coal-and-biomass-to-liquids-and-electricity plants equipped with carbon capture and storage

    Science.gov (United States)

    Among various clean energy technologies, one innovative option for reducing greenhouse gas (GHG) emissions involves pairing carbon capture and storage (CCS) with the production of synthetic fuels and electricity from co-processed coal and biomass. With a relatively pure CO2 strea...

  6. Impact analysis of coal-electricity pricing linkage scheme in China based on stochastic frontier cost function

    International Nuclear Information System (INIS)

    Li, Hong-Zhou; Tian, Xian-Liang; Zou, Tao

    2015-01-01

    Highlights: • This study evaluates the coal-electricity pricing linkage policy in China. • Six stochastic frontier cost models are used to estimate efficiency measures. • The coal-electricity pricing linkage scheme is a double-edged sword. • We suggest the threshold value of 5% or group specific. - Abstract: This study evaluates the feasibility and fairness of 2012 amendment to coal-electricity pricing linkage policy in China. Our empirical design is based on several stochastic frontier cost functions and the results show that the amended pricing linkage scheme is a double-edged sword as follows. On the one hand, it provides incentives for less-efficient (with efficiency less than 90%) power plants to increase their efficiency. One the other hand, it imposes a penalty to highly-efficient power plants (with efficiency more than 90%). And even worse, the higher the efficiency is, the bigger the penalty will be. To make the current coal-electricity pricing linkage scheme more feasible, we suggest the threshold value of 5 instead of 10%, and a group specific threshold value instead of the current one-size-for-all practice

  7. Planning India's long-term energy shipment infrastructures for electricity and coal

    International Nuclear Information System (INIS)

    Bowen, Brian H.; Canchi, Devendra; Lalit, Vishal Agarwal; Preckel, Paul V.; Sparrow, F.T.; Irwin, Marty W.

    2010-01-01

    The Purdue Long-Term Electricity Trading and Capacity Expansion Planning Model simultaneously optimizes both transmission and generation capacity expansions. Most commercial electricity system planning software is limited to only transmission planning. An application of the model to India's national power grid, for 2008-2028, indicates substantial transmission expansion is the cost-effective means of meeting the needs of the nation's growing economy. An electricity demand growth rate of 4% over the 20-year planning horizon requires more than a 50% increase in the Government's forecasted transmission capacity expansion, and 8% demand growth requires more than a six-fold increase in the planned transmission capacity expansion. The model minimizes the long-term expansion costs (operational and capital) for the nation's five existing regional power grids and suggests the need for large increases in load-carrying capability between them. Changes in coal policy affect both the location of new thermal power plants and the optimal pattern inter-regional transmission expansions.

  8. Methodology for comparing the health effects of electricity generation from uranium and coal fuels

    International Nuclear Information System (INIS)

    Rhyne, W.R.; El-Bassioni, A.A.

    1981-01-01

    A methodology was developed for comparing the health risks of electricity generation from uranium and coal fuels. The health effects attributable to the construction, operation, and decommissioning of each facility in the two fuel cycle were considered. The methodology is based on defining (1) requirement variables for the materials, energy, etc., (2) effluent variables associated with the requirement variables as well as with the fuel cycle facility operation, and (3) health impact variables for effluents and accidents. The materials, energy, etc., required for construction, operation, and decommissioning of each fuel cycle facility are defined as primary variables. The materials, energy, etc., needed to produce the primary variable are defined as secondary requirement variables. Each requirement variable (primary, secondary, etc.) has associated effluent variables and health impact variables. A diverging chain or tree is formed for each primary variable. Fortunately, most elements reoccur frequently to reduce the level of analysis complexity. 6 references, 11 figures, 6 tables

  9. Economics of switchgrass and miscanthus relative to coal as feedstock for generating electricity

    International Nuclear Information System (INIS)

    Aravindhakshan, Sijesh C.; Epplin, Francis M.; Taliaferro, Charles M.

    2010-01-01

    Switchgrass (Panicum virgatum) serves as a model dedicated energy crop in the U.S.A. Miscanthus (Miscanthus x giganteus) has served a similar role in Europe. This study was conducted to determine the most economical species, harvest frequency, and carbon tax required for either of the two candidate feedstocks to be an economically viable alternative for cofiring with coal for electricity generation. Biomass yield and energy content data were obtained from a field experiment conducted near Stillwater, Oklahoma, U.S.A., in which both grasses were established in 2002. Plots were split to enable two harvest treatments (once and twice yr -1 ). The switchgrass variety 'Alamo', with a single annual post-senescence harvest, produced more biomass (15.87 Mg ha -1 yr -1 ) than miscanthus (12.39 Mg ha -1 yr -1 ) and more energy (249.6 million kJ ha -1 yr -1 versus 199.7 million kJ ha -1 yr -1 for miscanthus). For the average yields obtained, the estimated cost to produce and deliver biomass an average distance of 50 km was $43.9 Mg -1 for switchgrass and $51.7 Mg -1 for miscanthus. Given a delivered coal price of $39.76 Mg -1 and average energy content, a carbon tax of $7 Mg -1 CO 2 would be required for switchgrass to be economically competitive. For the location and the environmental conditions that prevailed during the experiment, switchgrass with one harvest per year produced greater yields at a lower cost than miscanthus. In the absence of government intervention such as requiring biomass use or instituting a carbon tax, biomass is not an economically competitive feedstock for electricity generation in the region studied. (author)

  10. The efficiency improvement potential for coal, oil and electricity in China's manufacturing sectors

    International Nuclear Information System (INIS)

    Li, Ke; Lin, Boqiang

    2015-01-01

    This paper introduces an improved total-factor ESTR (energy-saving target ratio) index, which combines the sequence technique and the “energy direction” to a DEA (data envelopment analysis) model, in order to measure the possible energy saving potential of a manufacturing sector. Afterward, the energy saving potentials of four different energy carriers, namely coal, gasoline, diesel oil and electricity, for 27 manufacturing sectors during the period of 1998–2011 in China are calculated. The results and its policy implications are as follows: (1) the average ESTRs of coal, gasoline, diesel oil and electricity are 1.714%, 49.939%, 24.465% and 3.487% respectively. Hence, energy saving of manufacturing sectors should put more emphasis on gasoline and diesel oil. (2) The key sectors for gasoline saving is the energy-intensive sectors, while the key sectors for diesel oil saving is the equipment manufacturing sectors. (3) The manufacture of raw chemical materials and chemical products sector not only consumes a large amount of oil, but also has a low efficiency of oil usage. Therefore, it is the key sector for oil saving. (4) Manufacture of tobacco and manufacture of communication equipment, computers and other electronic equipment are the benchmark for the four major energy carriers of energy-saving ratios. - Highlights: • An improved total-factor energy-saving target ratio is proposed. • Energy saving potentials of energy carriers for sectors in 1998–2011 are calculated. • Policy implications for energy savings in sectors and energy carriers are discussed. • Some suggestions for the energy policies of China's economy are discussed

  11. Electricity and fluid fuels from biomass and coal using advanced technologies: a cost comparison for developing country applications

    International Nuclear Information System (INIS)

    Kartha, S.; Larson, E.D.; Williams, R.H.; Katofsky, R.E.; Chen, J.; Marrison, C.I.

    1995-01-01

    Recent analyses of alternative global energy supply strategies, such as the forthcoming report of the Intergovernmental Panel on Climate Change (IPCC), to be published in 1996, have drawn attention to the possibility that biomass modernized with advanced technologies could play an important role in meeting global energy needs in the next century. This paper discusses two promising classes of advanced technologies that offer the potential for providing modem energy carriers (electricity and fluid fuels) from biomass at competitive costs within one or two decades. These technologies offer significantly more efficient use of land than currently commercial technologies for producing electricity and fluid fuels from biomass, as well as substantially improved energy balances. Electricity is Rely to be the first large market for modernized biomass, but the potential market for fluid fuel production is likely to be much larger. As coal is likely to present a more serious competitive challenge to biomass in the long run, we present an economic comparison with coal-based electricity and fluid fuels. A meaningful economic comparison between coal and biomass is possible because these feedstocks are sufficiently alike in their physical characteristics that similar conversion technologies may well be used for producing electricity and fluid fuels from them. When similar conversion technologies are used for both feedstocks, the relative costs of electricity or fluid fuels will be determined by the distinguishing technical characteristics of the feedstocks (sulphur content, moisture content and reactivity) and by the relative feedstock prices. Electric power generation from biomass and coal are compared here using an advanced integrated gasifier/gas turbine cycle that offers the potential for achieving high efficiency, low unit capital cost and low local pollutant emissions: the steam-injected gas turbine coupled to an air-blown gasifier. For both feedstocks, generation costs are

  12. Fossil energy savings potential of sugar cane bio-energy systems

    Energy Technology Data Exchange (ETDEWEB)

    Nguyen, Thu Lan T. [Department of Agroecology, Aarhus University, Tjele (Denmark); The Joint Graduate School of Energy and Environment, King Mongkut' s University of Technology Thonburi, Bangkok (Thailand); Hermansen, John E. [Department of Agroecology, Aarhus University, Tjele (Denmark); Sagisaka, Masayuki [Institute of Science for Safety and Sustainability, National Institute of Advanced Industrial Science and Technology, Tsukuba (Japan)

    2009-11-15

    One important rationale for bio-energy systems is their potential to save fossil energy. Converting a conventional sugar mill into a bio-energy process plant would contribute to fossil energy savings via the extraction of renewable electricity and ethanol substituting for fossil electricity and gasoline, respectively. This paper takes a closer look at the Thai sugar industry and examines two practical approaches that will enhance fossil energy savings. The first one addresses an efficient extraction of energy in the form of electricity from the excess bagasse and cane trash. The second while proposing to convert molasses or sugar cane to ethanol stresses the use of bagasse as well as distillery spent wash to replace coal in meeting ethanol plants' energy needs. The savings potential achieved with extracting ethanol from surplus sugar versus current practice in sugar industry in Thailand amounts to 15 million barrels of oil a year. Whether the saving benefits could be fully realized, however, depends on how well the potential land use change resulting from an expansion of ethanol production is managed. The results presented serve as a useful guidance to formulate strategies that enable optimum utilization of biomass as an energy source. (author)

  13. determination of bio-energy potential of palm kernel shell

    African Journals Online (AJOL)

    88888888

    2012-11-03

    Nov 3, 2012 ... Keywords: palm kernel shell, bioenergy, thermogravimetric analysis, pyrolysis, gasification ... tain higher energy density fuels. Fast Pyrolysis is the thermal decomposition of biomass for bio-char, bio- oil and combustible gas production in the absence of ... Calorific Value of Coal and Coke) was used for the.

  14. Projected costs of generating electricity from nuclear and coal-fired power stations for commissioning in 1995

    International Nuclear Information System (INIS)

    1986-01-01

    This report updates and extends the previous NEA study, ''The Costs of Generating Electricity in Nuclear and Coal-fired Power Stations'', published by the OECD in late 1983. Despite the changed expectations concerning coal prices and the considerable movements in exchange rates since the first study was completed, the conclusions remain essentially the same. Nuclear Power is projected to be economically superior by a significant margin to coal-fired plants for base load electricity production in Europe, Japan and some regions of North America. In areas of North America in close proximity to supplies of cheap coal, this would be the more economic fuel, unless future nuclear investment costs can be reduced to match the best US and Canadian experience. In all regions considered, the economic advantage of both coal and nuclear over oil and gas-fired plants for commissioning in the mid-1990s is expected to be substantial. These conclusions are based on an analysis of cost projections for 900 MWe to 1400 MWe Light Water Reactors to be commissioned in 1995, operating at a levelised load factor of about 72 per cent over an assumed 25 years economic life and calculated with a 5 per cent (real) discount rate. This parallels the reference reactor selected for the NEA report ''The Economics of the Nuclear Fuel Cycle'', which was published by the OECD in June 1985, though it deviates somewhat from the reference conditions of the previous generation cost study. Contemporary coal-fired stations ranging in capacity from 330 MWe to 700 MWe with the same assumed economic life and load factor provide the basis for comparison. Some data are included on CANDU Pressurised Heavy Water Reactors, and a brief comment is annexed on the relevance of the comparisons for the smaller plants that may be of interest to countries with smaller electricity networks or where special circumstances apply

  15. Expanding exports, increasing smog : Ontario Power Generation's and Hydro One's strategies to continue coal-fired electricity generation in Ontario

    International Nuclear Information System (INIS)

    Gibbons, J.

    2002-06-01

    The production of coal-fired electricity increased by approximately 150 per cent in Ontario between 1995 and 2000. As a result, the smog-causing emissions generated by the five coal-fired power plants operated by Ontario Power Generation caused an increase in smog and worsened air quality in the province as well as affecting air quality as far afield as the Atlantic provinces. Between 2002 and 2005, it is expected that the Pickering and Bruce nuclear plants will be returned to service, making the electricity generated by the coal plants surplus to Ontario's needs. Increasing this surplus are the planned natural gas generating stations. Ontario Power Generation is planning on using this surplus to export it to the United States rather than phasing out its reliance on coal. The increase in exports to the United States Northeast and Midwest is planned with Hydro One, already busy increasing its transmission capacity to the United States by 1,000 megawatt (MW). This plan involves laying 975 MW submarine cable from the Nanticoke Generating Station (operated by Ontario Power Generation) under Lake Erie to Pennsylvania, Ohio, or both states. At the moment, the exports are constrained by the government emissions limits imposed by the Ontario government on sulphur dioxide and nitrogen oxides. This constraint could be removed if Ontario Power Generation decides to pay further for pollution controls for sulphur dioxide and nitrogen oxides at its coal stations. Unfortunately, increasing the exports would also result in emissions increases for 28 other uncapped pollutants such as lead, mercury and arsenic. The author recommended that the Ontario government ban non-emergency coal-fired electricity exports to improve air quality in the province. refs., 8 figs

  16. Levelized Costs for Nuclear, Gas and Coal for Electricity, under the Mexican Scenario

    International Nuclear Information System (INIS)

    Palacios, J.C.; Alonso, G.; Ramirez, R.; Gomez, A.; Ortiz, J.; Longoria, L.C.

    2004-01-01

    In the case of new nuclear power stations, it is necessary to pay special attention to the financial strategy that will be applied, time of construction, investment cost, and the discount and return rate. The levelized cost quantifies the unitary cost of the electricity (the kWh) generated during the lifetime of the nuclear power plant; and allows the immediate comparison with the cost of other alternative technologies. The present paper shows levelized cost for different nuclear technologies and it provides comparison among them as well as with gas and coal electricity plants. For the calculations we applied our own methodology to evaluate the levelized cost considering investment, fuel and operation and maintenance costs, making assumptions for the Mexican market, and taking into account the gas prices projections. The study also shows comparisons using different discount rates (5% and 10%), and some comparisons between our results and an OECD 1998 study. The results are i n good agreement and shows that nuclear option is cost competitive in Mexico on the basis of levelized costs

  17. Levelized Costs for Nuclear, Gas and Coal for Electricity, under the Mexican Scenario

    Energy Technology Data Exchange (ETDEWEB)

    Palacios, J.C.; Alonso, G.; Ramirez, R.; Gomez, A.; Ortiz, J.; Longoria, L.C.

    2004-10-06

    In the case of new nuclear power stations, it is necessary to pay special attention to the financial strategy that will be applied, time of construction, investment cost, and the discount and return rate. The levelized cost quantifies the unitary cost of the electricity (the kWh) generated during the lifetime of the nuclear power plant; and allows the immediate comparison with the cost of other alternative technologies. The present paper shows levelized cost for different nuclear technologies and it provides comparison among them as well as with gas and coal electricity plants. For the calculations we applied our own methodology to evaluate the levelized cost considering investment, fuel and operation and maintenance costs, making assumptions for the Mexican market, and taking into account the gas prices projections. The study also shows comparisons using different discount rates (5% and 10%), and some comparisons between our results and an OECD 1998 study. The results are i n good agreement and shows that nuclear option is cost competitive in Mexico on the basis of levelized costs.

  18. Fuel supply investment cost: coal and nuclear. Commercial electric power cost studies (6)

    International Nuclear Information System (INIS)

    1979-04-01

    This study presents an accounting model for calculating the capital investment requirements for coal and nuclear fuel supply facilities. The study addresses mining, processing, fabrication, and transportation of coal and nuclear fuels. A generic example is provided, for coal from different sources, and for nuclear fuel. The relationship of capital investment requirements to delivered prices is included in each example

  19. Dynamic Game Analysis of Coal Electricity Market Involving Multi-Interests

    Directory of Open Access Journals (Sweden)

    Yu Xiaobao

    2016-01-01

    Full Text Available The coal consumption of China reached 2.75 billion tons of standard coal in 2013, which accounted for 67.5% of total energy consumption and more than 50% of global coal consumption. Therefore, the impact of coal price is huge on coal market and even energy market in China. As a large consumer of coal, thermal power enterprise has a strong sensitivity to coal price. In order to balance the rising cost of enterprises due to coal price, we need to analyze the interests of multiple stakeholders. Firstly, this paper combined the Nash equilibrium and cobweb model and proposed the characteristics in different cobweb model. Then, for coal, power, and energy companies, the dynamic game analysis model is constructed. This model gives a game analysis in four scenarios and quantifies the decision of each stakeholder in different coal prices. Finally, the impact figure of different coal prices on each stakeholder has been drawn. The impacts of different coal or thermal power prices on different markets have been put forward, so relevant policy recommendations have been proposed combined with the cobweb model.

  20. Bioenergy Status Document 2012; Statusdocument Bio-energie 2012

    Energy Technology Data Exchange (ETDEWEB)

    Bles, M.; Schepers, B.; Van Grinsven, A.; Bergsma, G.; Croezen, H. [CE Delft, Delft (Netherlands)

    2013-05-15

    In addition to a review and characterisation of the current situation, the report contains an update on government policies on bio-energy and a review of the sources and sustainability of the biomass used in the Netherlands [Dutch] Het statusdocument bio-energie 2012 geeft de huidige status weer van bio-energie in Nederland, inclusief trends en verwachtingen voor de toekomst. Het doel van dit document is inzicht verstrekken in de ontwikkelingen van bio-energie, voor overheden en marktpartijen.

  1. 8. Rostock bioenergy forum. Proceedings

    International Nuclear Information System (INIS)

    Nelles, Michael

    2014-01-01

    This conference volume contains lectures and poster contributions with the following main topics: integrated biomass utilisation concepts; Solid bioenergy carrier; Bioenergy in the transport sector; Biogas. Seven papers are separately analyzed for this database. [de

  2. Policies to Enable Bioenergy Deployment: Key Considerations and Good Practices

    Energy Technology Data Exchange (ETDEWEB)

    Smolinksi, Sharon [National Renewable Energy Lab. (NREL), Golden, CO (United States); Cox, Sadie [National Renewable Energy Lab. (NREL), Golden, CO (United States)

    2016-05-01

    Bioenergy is renewable energy generated from biological source materials, and includes electricity, transportation fuels and heating. Source materials are varied types of biomass, including food crops such as corn and sugarcane, non-edible lignocellulosic materials such as agricultural and forestry waste and dedicated crops, and municipal and livestock wastes. Key aspects of policies for bioenergy deployment are presented in this brief as part of the Clean Energy Solutions Center's Clean Energy Policy Brief Series.

  3. Bioenergy in Germany. Facts and figures. Solid fuels, biofuels, biogas

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2012-04-11

    The brochure under consideration gives statistical information about the bioenergy in Germany: Renewable energies (bioenergy) and solid fuels. For example, the structure of the primary energy consumption in the year 2010, the energy supply from renewables, gross electricity generation, the total sales of renewables, growth in number of installed pellet boilers, wood fuel equivalent prices by energy value or biofuels in comparison with heating oil are presented.

  4. A flowsheet model of a coal-fired MHD/steam combined electricity generating cycle, using the access computer model

    International Nuclear Information System (INIS)

    Davison, J.E.; Eldershaw, C.E.

    1992-01-01

    This document forms the final report on a study of a coal-fired magnetohydrodynamic (MHD)/steam electric power generation system carried out by British Coal Corporation for the Commission of the European Communities. The study objective was to provide mass and energy balances and overall plant efficiency predictions for MHD to assist the Commission in their evaluation of advanced power generation technologies. In early 1990 the British Coal Corporation completed a study for the Commission in which a computer flowsheet modelling package was used to predict the performance of a conceptual air blown MHD plant. Since that study was carried out increasing emphasis has been placed on the possible need to reduce CO 2 emissions to counter the so-called greenhouse effect. Air blown MHD could greatly reduce CO 2 emissions per KWh by virtue of its high thermal efficiency. However, if even greater reductions in CO 2 emissions were required the CO 2 produced by coal combustion may have to be disposed of, for example into the deep ocean or underground caverns. To achieve this at minimum cost a concentrated CO 2 flue gas would be required. This could be achieved in an MHD plant by using a mixture of high purity oxygen and recycled CO 2 flue gas in the combustor. To assess this plant concept the European Commission awarded British Coal a contract to produce performance predictions using the access computer program

  5. Opportunities and impediments to the expansion of forest bioenergy in Australia

    International Nuclear Information System (INIS)

    Raison, R.J.

    2006-01-01

    There are significant opportunities for expansion of a forest bioenergy industry in Australia based on distributed electricity generation and production of liquid fuels (ethanol and bio-oil). If the large amounts of forest residues already available annually could be utilized, this would deliver useful greenhouse benefits, assist regeneration of new forests that have increased environmental values, and benefit silvicultural management. Creation of new forests in low rainfall environments for both environmental and commercial reasons will also provide residues in the future that could be used for energy production, thus enhancing overall viability of such ventures. Currently, there are several serious impediments to realising the potential. These include: - Large reserves of accessible coal, and low cost of electricity generated in coal-fired power plants. - Uncertain greenhouse and renewable energy policy (specifically that relating to implementation of the Mandated Renewable Energy Target (MRET)). - Lack of proven efficient small-scale technology to enable distributed electricity generation that would reduce transportation costs for delivery of biofuels. - Controversy over the sustainable use of native forest residues for renewable energy generation. - Lack of markets for environmental credits (carbon, salinity, biodiversity). - Lack of efficient processes for producing ethanol from wood, inadequate commercial products from lignin, and the need for further development before diesel engines can be run on bio-oil for stationary power generation and transport. In Australia, apart from the use of firewood for domestic heating, forest bioenergy has developed only to a very limited extent, despite the existence of significant opportunities. A major impediment to expansion is lack of public acceptance and support, especially for the use of native forest residues which are the main available biomass source. A concerted effort at several levels is needed to address this

  6. 11. Rostock bioenergy forum. Proceedings

    International Nuclear Information System (INIS)

    Nelles, Michael

    2017-01-01

    The seven main focus of the bioenergy forum were: 1. Political regulation and its consequences; 2. Flexible energy supply; 3. Biorefineries for the use of residues from bioenergy production; 4. Process optimization biogas; 5. Alternative substrates for biogas production; 6. Cross-sectoral bioenergy concept; 7. Transport sector (biofuels). Five lectures are separately analyzed for this database. [de

  7. Coal and the competition

    Energy Technology Data Exchange (ETDEWEB)

    Morey, M. [RDI Consulting, Arlington, VA (United States). FT Energy

    2000-07-01

    24 overheads/viewgraphs outline a presentation on competition in the US coal industry. It discussed four main subjects: key factors driving coal demand (environmental regulations, electric utility deregulation; competition with natural gas, inter-regional coal competition, supply availability and pricing; and the export market and competition from off-shore coal sources); coal's ability to boost market share; shifts in coal distribution and the risk of more branded coal; and attempts to keep more regional sources of coal in business. State tax incentives for coal use in Arizona, Ohio, Oklahoma, Virginia and Alabama were discussed.

  8. Economic and environmental evaluation of coal-and-biomass-to-liquids-and-electricity plants equipped with carbon capture and storage (data for figures and tables)

    Data.gov (United States)

    U.S. Environmental Protection Agency — Data used in the manuscript's tables and figures. Most data represent the modeled optimal capacity of the coal-and-biomass-to-liquid fuels-and-electricity (CBTLE)...

  9. The SONICHAR coal mine and electricity production thermal plant in Tchirozerine (Niger. Chemical analysis of drainage waters

    International Nuclear Information System (INIS)

    2009-06-01

    After a brief presentation of the coal mining and electricity production activities of the SONICHAR, and the related concerns about the environmental impacts of these activities, this document reports analyses performed on mine drainage waters, and on water samples coming from a pit located upstream the mine effluent and from a pit close to this effluent. Different sulfates and metals display much higher contents than those admitted for drinkable water in Europe

  10. Comparative Assessment of Gasification Based Coal Power Plants with Various CO2 Capture Technologies Producing Electricity and Hydrogen

    OpenAIRE

    Mukherjee, Sanjay; Kumar, Prashant; Hosseini, Ali; Yang, Aidong; Fennell, Paul

    2014-01-01

    Seven different types of gasification-based coal conversion processes for producing mainly electricity and in some cases hydrogen (H2), with and without carbon dioxide (CO2) capture, were compared on a consistent basis through simulation studies. The flowsheet for each process was developed in a chemical process simulation tool “Aspen Plus”. The pressure swing adsorption (PSA), physical absorption (Selexol), and chemical looping combustion (CLC) technologies were separately analyzed for proce...

  11. Development, testing, and evaluation of MHD materials and component designs, Volume 3: Electrical properties of coal combustion product

    Science.gov (United States)

    Young, W. E.; Lempert, J.

    1980-11-01

    Laboratory apparatus was assembled to produce a plasma identical in composition and properties to that resulting in an MHD system when coal and air are burned. This was accomplished with a combustion chamber in which benzene, char, sulfur, and seed mixtures were burned with electrically preheated air. The plasma entered a measuring section where temperatures were measured with iridium versus iridium-rhodium thermocouples, with pyrometers, and by means of line reversal. Measurements of electrical conductivity were made with current and voltage probes. Many difficulties were experienced in the operation and calibration of the equipment, however, some readings were obtained in the 19000 C to 20000 C range, averaging 10 to 20 mhos/meter - much higher than predicted theoretically, probably due to electrical leakage. Electrical measurements were made on the Waltz Mill passage during operation. Readings less than 1.0 mhos/meter were obtained which was not unexpected because the plasma temperature approximated 21000 C.

  12. A comparative study of health hazards and environmental impacts for electricity generation through nuclear energy hidroelectricity and coal fired thermoeletrical generation

    International Nuclear Information System (INIS)

    Guimaraes, C.A.

    1982-01-01

    Environmental impacts and health hazards were comparatively assessed in regard to electricity generation via nuclear energy, hidraulic dams and coal firing. The main aspects covered the nuclear reactor and its associated nuclear fuel cycle, coal fired thermoelectrical power plant its associated coal industry, and hidroelectrical power plant and its dam. Besides specific comparisons of impacts in the air, water, soil and health hazards an evaluation for the Brazilian case was made based on a forecast of electricity demand up to the year 2020. For the nuclear option the consequences were analysed based on American data since no data is yet available for Brazil. Coal firing option was also analised for based heavily on American data due to small Brazilian experience in this sector of energy generation. For hydroelectrical option Brazilian data were used mostly from CESP for comparative purposes. These alternatives for generation of electricity considered in this study are the most relevant for the next four decades for Brazil. (Author) [pt

  13. Stopping coal-fired electricity imports on smog days : a review of the OPA's proposed 250 MW demand response program

    International Nuclear Information System (INIS)

    Gibbons, J.

    2006-01-01

    This paper proposed an alternative to importing coal-fired electricity from the Ohio Valley on smog alert days in Ontario. It was suggested that the Ontario Power Authority (OPA) should pay large electricity consumers to shift some of their consumption from peak to off-peak hours. It was observed that demand response programs which pay consumers to shift demands to off-peak hours can provide multiple benefits to Ontario, including reduced air pollution on smog-alert days, a reduction in the spot price of electricity and reduced price volatility. In addition, demand response programs reduce the risk of blackouts and brownouts, as well as the need for new electricity generation and transmission infrastructure. It was noted that the Independent Electricity System Operator (IESO) and the OPA are planning to introduce demand response programs for the summer of 2006. However, the IESO's emergency load reduction program will be operated only during emergency situations to avoid the need for voltage reductions, while the OPA proposes to introduce a non-emergency demand response program which will be activated during most smog-alert days. Various amendments to the proposed program were suggested in this paper, including the establishment of price parity with coal-fired electricity imports; the provision of notification by 3 PM of the need for demand reductions the following day; no capping on the quantity of demand reductions that the OPA will purchase at a lower cost than electricity imports; and that the OPA's proposed Capacity Building Demand Response Program should proceed as quickly as possible without a pre-determined MW cap. 4 refs., 6 figs

  14. Electric plants to gas, influence of both Mineral Matter and Air Oxidation in coal pyrolysis

    International Nuclear Information System (INIS)

    Mondragon, F.; Jaramillo, A.; Quintero, G.

    1995-01-01

    In this work some coal samples from different Colombia's deposits are analyzed. In first stage, material matter is removed from coal by acid treatment with HF/HCl, and aerial oxidation of coal is made with air in oven to 150 Centigrade degree temperature. In second stage, pyrolysis is carried out in two different techniques: 1. Thermogravimetric Analysis (TGA) and 2. Programmed Temperature Pyrolysis (PTP) in a pyrolyzer equipped with a quadrupole mass spectrometer. In both techniques, the coal samples are heated in different rates to 650 Centigrade degree. During PTP trials the evolution of CH4, H2S, hydrocarbons (m/z=42), CO2, benzene and toluene are monitored. Studied coal samples showed: 1). A gas conversion range between 48.8% to 21.8%; 2). A decrease in the gas conversion between 2% to 4%, when oxidation it is applied; 3). The temperature at the one which is presented the maximum evolution of CH4 is similar for all coal samples; 4). The maximum evolution of H2S depends on mineral matter composition, occurs between 480 to 550 Centigrade degrees and is presented due to pyrite decomposition. 5). The evolution of CO2 occurs between 100 to 650 Centigrade degree, its production is generated in different stage of the mentioned temperature range, and in some coal samples is presented due to inorganic origin

  15. Coal competitiveness?

    International Nuclear Information System (INIS)

    Rogeaux, B.

    2006-01-01

    Will coal electrical plants be more competitive in the coming years? Answering this one cannot be limited to merely comparing estimates based on reference electricity production costs. The competitiveness of coal will indeed depend on the final product marketed, as the MWhs are not equal: is the purpose to produce base, half-base MWh? Does the electrical equipment structure require flexible MWh (for instance in the event of significant intermittent renewable energy amounts), and therefore plants able to adjust their power rapidly? But the competitiveness of coal will also depend on many factors that will correct reference cost estimates: uncertainties, risks, externalities. These factors will need to be appreciated on a case by case basis. We introduce some of the reasoning used to better appreciate the future competitiveness of coal, and the main factors conditioning it in three contrasting regions of the world: Europe, USA, china. (author)

  16. EIA projections of coal supply and demand

    International Nuclear Information System (INIS)

    Klein, D.E.

    1989-01-01

    Contents of this report include: EIA projections of coal supply and demand which covers forecasted coal supply and transportation, forecasted coal demand by consuming sector, and forecasted coal demand by the electric utility sector; and policy discussion

  17. Environmental control implications of generating electric power from coal. 1977 technology status report. Appendix A, Part 1. Coal preparation and cleaning assessment study

    Energy Technology Data Exchange (ETDEWEB)

    None

    1977-12-01

    This report evaluates the state of the art and effectiveness of physical coal cleaning as a potential strategy for controlling SO/sub x/ emissions in coal fired power generation. Coal properties which are significantly altered by physical coal cleaning were determined. The effects of the changes in properties as they relate to pulverized coal firing, fluidized bed combustion and low Btu gasification for combined cycle powered generation were studied. Available coal washability data were integrated by computer with U.S. coal reserve data. Approximately 18% of the demonstrated coal reserve were matched with washability data. Integrated data appear in the Appendix. Current coal preparation practices were reviewed. Future trends were determined. Five process flow sheets representing increasing levels of cleaning sophistication were prepared. The clean product from each flow sheet will meet U.S. EPA New Source Performance Standards. Capital and operating costs for each case were estimated. Environmental control technology and environmental impact associated with current coal preparation and cleaning operations were assessed. Physical coal cleaning is widely practiced today. Where applicable it represents the least expensive method of coal sulfur reduction. Developmental physical and chemical coal cleaning processes were studied. The chemical methods have the advantage of being able to remove both pyritic sulfur and organic sulfur present in the coal matrix. Further R and D efforts will be required before commercialization of these processes.

  18. Low-level radiation in coals utilized and ashes produced at New York State electric utilities

    International Nuclear Information System (INIS)

    Hornibrook, C.

    1981-01-01

    Eight coal-fired power plants in New York State were sampled for coal, fly ash and bottom ash. Samples were analyzed for uranium 238, uranium 235, uranium 234, thorium 232, thorium 230, radium 226, lead 210, polonium 210, radon 222. The leachate of six fly ash samples was analyzed for all of the above except radon 222. Some data on fly ash analysis are included

  19. Technical and economic performance of integrated bioenergy systems

    Energy Technology Data Exchange (ETDEWEB)

    Toft, A.J.; Bridgwater, A.V. [Aston Univ. (United Kingdom). Energy Research Group; Mitchell, C.P.; Watters, M.P. [Aberdeen Univ. (United Kingdom). Wood Supply Research Group; Stevens, D.J. [Cascade Research, Inc. (United States)

    1996-12-31

    A comprehensive study of biomass production, conversion and utilisation systems has been carried out to examine complete bioenergy systems from biomass in the forest to electricity delivered to the grid. Spreadsheet models have been derived for all of the key steps in an integrated process and these have been compiled into an overall BioEnergy Assessment Model (BEAM). The model has also been used to investigate both the performance of different technologies and the effect of different configurations of the same basic system by manipulating the interfaces between feed production, feed conversion and electricity generation. Some of the results of these analyses are presented here. (orig.)

  20. Wide Spread Exploitations of Bioenergy

    OpenAIRE

    Rahman, Md. Mizanur; Paatero, Jukka V.; Lahdelma, Risto

    2016-01-01

    The recoverable proven reserves of fossil fuel sources are projected to be exhausted by the end of this century. In response to the exhaustion of fossil resources, there is a serious need to find alternative fuel sources. Bioenergy is one of the potential candidates to counteract the fossil-fuel depletion challenge. Despite bioenergy sources appear to be renewable and net-zero GHG emitting, bioenergy undergoes competition with food, feed and other crucial applications. Since earth’s eco syste...

  1. Environmental life cycle assessment of methanol and electricity co-production system based on coal gasification technology.

    Science.gov (United States)

    Śliwińska, Anna; Burchart-Korol, Dorota; Smoliński, Adam

    2017-01-01

    This paper presents a life cycle assessment (LCA) of greenhouse gas emissions generated through methanol and electricity co-production system based on coal gasification technology. The analysis focuses on polygeneration technologies from which two products are produced, and thus, issues related to an allocation procedure for LCA are addressed in this paper. In the LCA, two methods were used: a 'system expansion' method based on two approaches, the 'avoided burdens approach' and 'direct system enlargement' methods and an 'allocation' method involving proportional partitioning based on physical relationships in a technological process. Cause-effect relationships in the analysed production process were identified, allowing for the identification of allocation factors. The 'system expansion' method involved expanding the analysis to include five additional variants of electricity production technologies in Poland (alternative technologies). This method revealed environmental consequences of implementation for the analysed technologies. It was found that the LCA of polygeneration technologies based on the 'system expansion' method generated a more complete source of information on environmental consequences than the 'allocation' method. The analysis shows that alternative technologies chosen for generating LCA results are crucial. Life cycle assessment was performed for the analysed, reference and variant alternative technologies. Comparative analysis was performed between the analysed technologies of methanol and electricity co-production from coal gasification as well as a reference technology of methanol production from the natural gas reforming process. Copyright © 2016 Elsevier B.V. All rights reserved.

  2. Finnish bioenergy research programme

    Energy Technology Data Exchange (ETDEWEB)

    Asplund, D. [VTT Energy, Jyvaeskylae (Finland)

    1996-12-31

    Finland is a leading country in the use of biofuels and has excellent opportunities to increase the use of biofuels by up to 25-30 %. The Finnish Government has set an objective for the promotion of bioenergy. The aim is to increase the use of bioenergy by about 25 % from the present level by 2005, and the increment corresponds to 1.5 million tonnes of oil equivalent (toe) per year. The R and D work has been considered as an important factor to achieve this ambitious goal. Energy research was organised into a series of research programmes in 1988 in accordance with the proposal of Finnish Energy Research Committee. The object of the research programmes is to enhance research activities and to bundle individual projects together into larger research packages. The common target of the Finnish energy research programmes is to proceed from basic and applied research to product development and pilot operation, and after that to the first commercial applications, e.g. demonstrations. As the organisation of energy research to programmes has led to good results, the Finnish Ministry of Trade and Industry decided to go on with this practice by launching new six-year programmes in 1993-1998. One of these programmes is the Bioenergy Research Programme and the co-ordination of this programme is carried out by VTT Energy. Besides VTT Energy the Finnish Forest Research Institute, Work Efficiency Institute, Metsaeteho and University of Joensuu are participating in the programme 7 refs.

  3. Finnish bioenergy research

    Energy Technology Data Exchange (ETDEWEB)

    Malinen, H. [Technical Research Centre of Finland, Jyvaeskylae (Finland)

    1993-12-31

    Finland is one of the leading countries in the use of biofuels. The share of wood derived fuels of the total primary energy requirement was about 14% (ca. 4 million toe) and peat about 5% (1.4 million toe). The possibilities for increasing the use of biofuels in Finland are significant. There is theoretically about 10 million m{sup 3}/a (about 2 million toe/a) of harvestable wood. Areas suitable for fuel peat production (0.5 million ha) could produce ca. 420 million toe of peat. At present rates of use, the peat reserves are adequate for centuries. During the next few years 0.5--1 million hectares of fields withdrawn from farming could be used for biofuel production. The production potential of this field area is estimated to be about 0.2--0.5 million toe. In addition, the use of wastes in energy production could be increased. The aim of the new Bioenergy Research Programme is to increase the use of economically profitable and environmentally sound bioenergy by improving the competitiveness of present peat and wood fuels. New economically competitive biofuels, new equipment and methods for production, handling and use of biofuels will also be developed. The main research areas are production of wood fuels, peat production, use of bioenergy and conversion of biomass.

  4. Pectins, Endopolygalacturonases, and Bioenergy

    Science.gov (United States)

    Latarullo, Mariana B. G.; Tavares, Eveline Q. P.; Padilla, Gabriel; Leite, Débora C. C.; Buckeridge, Marcos S.

    2016-01-01

    The precise disassembly of the extracellular matrix of some plant species used as feedstocks for bioenergy production continues to be a major barrier to reach reasonable cost effective bioethanol production. One solution has been the use of pretreatments, which can be effective, but increase even more the cost of processing and also lead to loss of cell wall materials that could otherwise be used in industry. Although pectins are known to account for a relatively low proportion of walls of grasses, their role in recalcitrance to hydrolysis has been shown to be important. In this mini-review, we examine the importance of pectins for cell wall hydrolysis highlighting the work associated with bioenergy. Here we focus on the importance of endopolygalacturonases (EPGs) discovered to date. The EPGs cataloged by CAZy were screened, revealing that most sequences, as well as the scarce structural work performed with EPGs, are from fungi (mostly Aspergillus niger). The comparisons among the EPG from different microorganisms, suggests that EPGs from bacteria and grasses display higher similarity than each of them with fungi. This compilation strongly suggests that structural and functional studies of EPGs, mainly from plants and bacteria, should be a priority of research regarding the use of pectinases for bioenergy production purposes. PMID:27703463

  5. Pectins, Endopolygalacturonases, and Bioenergy

    Directory of Open Access Journals (Sweden)

    Mariana B. G. Latarullo

    2016-09-01

    Full Text Available The precise disassembly of the extracellular matrix of some plant species used as feedstocks for bioenergy production continues to be a major barrier to reach reasonable cost effective bioethanol production. One solution has been the use of pretreatments, which can be effective, but increase even more the cost of processing and also lead to loss of cell wall materials that could otherwise be used in industry. Although pectins are known to account for a relatively low proportion of walls of grasses, their role in recalcitrance to hydrolysis has been shown to be important. In this mini-review, we examine the importance of pectins for cell wall hydrolysis highlighting the work associated with bioenergy. Here we focus on the importance of endopolygalacturonases (EPGs discovered to date. The EPGs cataloged by CAZy were screened, revealing that most sequences, as well as the scarce structural work performed with EPGs, are from fungi (mostly Aspergillus niger. The comparisons among the EPG from different microorganisms, suggests that EPGs from bacteria and grasses display higher similarity than each of them with fungi. This compilation strongly suggests that structural and functional studies of EPGs, mainly from plants and bacteria, should be a priority of research regarding the use of pectinases for bioenergy production purposes.

  6. Bioenergy Research Programme, Yearbook 1995. Utilization of bioenergy and biomass conversion; Bioenergian tutkimusohjelma, vuosikirja 1995. Bioenergian kaeyttoe ja biomassan jalostus

    Energy Technology Data Exchange (ETDEWEB)

    Alakangas, E. [ed.

    1996-12-31

    Bioenergy Research Programme is one of the energy technology research programmes of the Technology Development Centre TEKES. The aim of the bioenergy Research Programme is to increase, by using technical research and development, the economically profitable and environmentally sound utilisation of bioenergy, to improve the competitiveness of present peat and wood fuels, and to develop new competitive fuels and equipment related to bioenergy. The funding for 1995 was nearly 52 million FIM and the number of projects 66. The research area of biomass conversion consisted of 8 projects in 1995, and the research area of bioenergy utilization of 14 projects. The results of these projects carried out in 1995 are presented in this publication. The aim of the biomass conversion is to produce more bio-oils and electric power as well as wood processing industry as at power plants than it is possible at present appliances. The conversion research was pointed at refining of the waste liquors of pulping industry and the extracts of them into fuel-oil and liquid engine fuels, on production of wood oil via flash pyrolysis, and on combustion tests. Other conversion studies dealt with production of fuel-grade ethanol. For utilization of agrobiomass in various forms of energy, a system study is introduced where special attention is how to use rapeseed oil unprocessed in heating boilers and diesel engines. The main aim of the research in bioenergy utilization is to create the technological potential for increasing the bioenergy use. The aim is further defined as to get into commercial phase 3-4 new techniques or methods and to start several demonstrations, which will have 0.2-0.3 million toe bioenergy utilization potential

  7. Impacts on human health from the coal and nuclear fuel cycles and other technologies associated with electric power generation and transmission

    International Nuclear Information System (INIS)

    Radford, E.P.

    1980-01-01

    Major public health impacts of electric power generation and transmission associated with the nuclear fuel cycle and with coal use are evaluated. Only existing technology is evaluated. The only health effects of concern are those leading to definable human disease and injury. Health effects are scaled to a nominal 1000 Megawatt (electric) plant fueled by either option. Comparison of the total health effects to the general public gives: nuclear, 0.03 to 0.05 major health effects per 1000 MWe per year; coal, 0.7 to 3.7 per 1000 MWe per year. Thus for the general public the health risks from the coal cycle are about 50 times greater than for the nuclear cycle. Health effects to workers in the industry are currently quite high. For the nuclear cycle, 4.6 to 5.1 major health impacts per 1000 MWe per year; for coal, 6.5 to 10.9. The two-fold greater risk for the coal cycle is primarily due to high injury rates in coal miners. There is no evidence that electrical transmission contributes any health effects to the general public, except for episodes where broken power lines come in contact with people. For power line workers, the risk is estimated at 0.1 serious injury per 1000 MWe per year

  8. The unconstitutionality of the compensatory fee according to section 8 of the Third Act on Enhanced Use of Coal for Electricity Generation ('Coal Pfennig'). Federal Constitutional Court, judgment of 11 Oct. 1994 - 2BvR 633/86

    International Nuclear Information System (INIS)

    Haager, K.; Lauffer, P.

    1995-01-01

    In order to protect the financial system of the federation as well as the appropriations power of the Bundestag from interference, and in order to account for the requirement of individual protection of the tax payers with regard to equality of burdens, a special levy shall be permitted by constitutional law only under very stringent conditions, and in very exceptional cases. The compensatory fee according to section 8 of the Third Act on Enhanced Use of Coal for Electricity Generation ('Coal Pfennig') thus is unconstitutional, as it puts an additional burden on the body of tax payers who as such do not bear responsibility for the financing of the purpose, to subsidise the use of coal for electricity generation. (orig.) [de

  9. Comparing post-combustion CO2 capture operation at retrofitted coal-fired power plants in the Texas and Great Britain electric grids

    Science.gov (United States)

    Cohen, Stuart M.; Chalmers, Hannah L.; Webber, Michael E.; King, Carey W.

    2011-04-01

    This work analyses the carbon dioxide (CO2) capture system operation within the Electric Reliability Council of Texas (ERCOT) and Great Britain (GB) electric grids using a previously developed first-order hourly electricity dispatch and pricing model. The grids are compared in their 2006 configuration with the addition of coal-based CO2 capture retrofits and emissions penalties from 0 to 100 US dollars per metric ton of CO2 (USD/tCO2). CO2 capture flexibility is investigated by comparing inflexible CO2 capture systems to flexible ones that can choose between full- and zero-load CO2 capture depending on which operating mode has lower costs or higher profits. Comparing these two grids is interesting because they have similar installed capacity and peak demand, and both are isolated electricity systems with competitive wholesale electricity markets. However, differences in capacity mix, demand patterns, and fuel markets produce diverging behaviours of CO2 capture at coal-fired power plants. Coal-fired facilities are primarily base load in ERCOT for a large range of CO2 prices but are comparably later in the dispatch order in GB and consequently often supply intermediate load. As a result, the ability to capture CO2 is more important for ensuring dispatch of coal-fired facilities in GB than in ERCOT when CO2 prices are high. In GB, higher overall coal prices mean that CO2 prices must be slightly higher than in ERCOT before the emissions savings of CO2 capture offset capture energy costs. However, once CO2 capture is economical, operating CO2 capture on half the coal fleet in each grid achieves greater emissions reductions in GB because the total coal-based capacity is 6 GW greater than in ERCOT. The market characteristics studied suggest greater opportunity for flexible CO2 capture to improve operating profits in ERCOT, but profit improvements can be offset by a flexibility cost penalty.

  10. Coal Layer Identification using Electrical Resistivity Imaging Method in Sinjai Area South Sulawesi

    Science.gov (United States)

    Ilham Samanlangi, Andi

    2018-03-01

    The purpose of this research is to image subsurface resistivity for coal identification in Panaikang Village, Sinjai, South Sulawesi.Resistivity measurements were conducted in 3 lines of length 400 meters and 300 meter using resistivity imaging, dipole-dipole configuration. Resistivity data was processed using Res2DInv software to image resistivity variation and interpret lithology. The research results shown that coal resistivity in Line is about 70-200 Ωm, Line 2 is about 70-90 Ωm, and Line 3 is about 70-200 Ωm with average thickness about 10 meters and distributed to the east of research area.

  11. Prospects for Bioenergy in Europe. Supply, Demand and Trade

    International Nuclear Information System (INIS)

    Ericsson, Karin

    2006-11-01

    Renewable energy sources (RES), such as biomass, can be used to address two important issues in Europe: climate change and energy security. If biomass is produced sustainably and used efficiently, bioenergy contributes very little to CO 2 emissions. The overall objective of the work presented in this thesis is to provide a scientific basis describing how bioenergy can play a fundamental role in the transition to more sustainable energy systems. For this purpose, an assessment of the potential biomass supply was made. This assessment shows that the long-term biomass supply could amount to up to 16 EJ/y in the EU27, i.e. 21% of the current primary energy supply, taking environmental and land-use restrictions into account. The greater part of this potential biomass supply consists of perennial energy crops. Thus, if biomass is to play a major role in the future energy supply, large-scale perennial energy crop production is required. The analysis of the economics of growing willow, a perennial energy crop, indicates that it can be equally viable for the farmer as that of cereal crops if subsidies and the cost of risk are excluded. In a strategy to reduce the cost of risk, a central issue is to create opportunities for a long-term demand for bioenergy. In Sweden and Finland, two of the leading bioenergy-using countries in Europe, energy and CO 2 taxes have been the key instruments in increasing the use of bioenergy. Creating opportunities for bioenergy in general will not immediately or necessarily stimulate perennial crop production since production costs are at the high end of the biomass cost range. In a strategy to stimulate perennial crop production, large coal-fired power and combined heat and power (CHP) plants can play an important role. Co-firing of biofuels in these plants is a low-risk bioenergy strategy for energy companies. The continuous and, compared to other continents in the world, more intense promotion of bioenergy in Europe is likely to increase

  12. Mobilizing Sustainable Bioenergy Supply Chains

    DEFF Research Database (Denmark)

    Smith, Tat; Lattimore, Brenna; Berndes, Göran

    International Bioenergy Trade: Securing Supply and Demand), 42 (Biorefining – Sustainable Processing of Biomass into a Spectrum of Marketable Bio-based Products and Bioenergy), and 43 (Biomass Feedstocks for Energy Markets). The purpose of the collaboration has been to analyze prospects for large...

  13. Control of mercury emissions from coal fired electric uitlity boilers: An update

    Science.gov (United States)

    Coal-fired power plants in the U.S. are known to be the major anthropogenic source of domestic mercury emissions. The Environmental Protection Agency (EPA) has recently proposed to reduce emissions of mercury from these plants. In March 2005, EPA plans to promulgate final regulat...

  14. JV Task 126 - Mercury Control Technologies for Electric Utilities Burning Bituminous Coal

    Energy Technology Data Exchange (ETDEWEB)

    Jason Laumb; John Kay; Michael Jones; Brandon Pavlish; Nicholas Lentz; Donald McCollor; Kevin Galbreath

    2009-03-29

    The EERC developed an applied research consortium project to test cost-effective mercury (Hg) control technologies for utilities burning bituminous coals. The project goal was to test innovative Hg control technologies that have the potential to reduce Hg emissions from bituminous coal-fired power plants by {ge}90% at costs of one-half to three-quarters of current estimates for activated carbon injection (ACI). Hg control technology evaluations were performed using the EERC's combustion test facility (CTF). The CTF was fired on pulverized bituminous coals at 550,000 Btu/hr (580 MJ/hr). The CTF was configured with the following air pollution control devices (APCDs): selective catalytic reduction (SCR) unit, electrostatic precipitator (ESP), and wet flue gas desulfurization system (WFDS). The Hg control technologies investigated as part of this project included ACI (three Norit Americas, Inc., and eleven Envergex sorbents), elemental mercury (Hg{sup 0}) oxidation catalysts (i.e., the noble metals in Hitachi Zosen, Cormetech, and Hitachi SCR catalysts), sorbent enhancement additives (SEAs) (a proprietary EERC additive, trona, and limestone), and blending with a Powder River Basin (PRB) subbituminous coal. These Hg control technologies were evaluated separately, and many were also tested in combination.

  15. Pacific Northwest and Alaska Regional Bioenergy Program : Five Year Report, 1985-1990.

    Energy Technology Data Exchange (ETDEWEB)

    Pacific Northwest and Alaska Bioenergy Program (U.S.)

    1991-02-01

    This five-year report describes activities of the Pacific Northwest and Alaska Regional Bioenergy Program between 1985 and 1990. Begun in 1979, this Regional Bioenergy Program became the model for the nation's four other regional bioenergy programs in 1983. Within the time span of this report, the Pacific Northwest and Alaska Regional Bioenergy Program has undertaken a number of applied research and technology projects, and supported and guided the work of its five participating state energy programs. During this period, the Regional Bioenergy Program has brought together public- and private-sector organizations to promote the use of local biomass and municipal-waste energy resources and technologies. This report claims information on the mission, goals and accomplishments of the Regional Bioenergy Program. It describes the biomass projects conducted by the individual states of the region, and summarizes the results of the programs technical studies. Publications from both the state and regional projects are listed. The report goes on to consider future efforts of the Regional Bioenergy Program under its challenging assignment. Research activities include: forest residue estimates; Landsat biomass mapping; woody biomass plantations; industrial wood-fuel market; residential space heating with wood; materials recovery of residues; co-firing wood chips with coal; biomass fuel characterization; wood-boosted geothermal power plants; wood gasification; municipal solid wastes to energy; woodstove study; slash burning; forest depletion; and technology transfer. 9 figs., 6 tabs.

  16. Technological learning in bioenergy systems

    International Nuclear Information System (INIS)

    Junginger, Martin; Visser, Erika de; Hjort-Gregersen, Kurt; Koornneef, Joris; Raven, Rob; Faaij, Andre; Turkenburg, Wim

    2006-01-01

    The main goal of this article is to determine whether cost reductions in different bioenergy systems can be quantified using the experience curve approach, and how specific issues (arising from the complexity of biomass energy systems) can be addressed. This is pursued by case studies on biofuelled combined heat and power (CHP) plants in Sweden, global development of fluidized bed boilers and Danish biogas plants. As secondary goal, the aim is to identify learning mechanisms behind technology development and cost reduction for the biomass energy systems investigated. The case studies reveal large difficulties to devise empirical experience curves for investment costs of biomass-fuelled power plants. To some extent, this is due to lack of (detailed) data. The main reason, however, are varying plant costs due to differences in scale, fuel type, plant layout, region etc. For fluidized bed boiler plants built on a global level, progress ratios (PRs) for the price of entire plants lies approximately between 90-93% (which is typical for large plant-like technologies). The costs for the boiler section alone was found to decline much faster. The experience curve approach delivers better results, when the production costs of the final energy carrier are analyzed. Electricity from biofuelled CHP-plants yields PRs of 91-92%, i.e. an 8-9% reduction of electricity production costs with each cumulative doubling of electricity production. The experience curve for biogas production displays a PR of 85% from 1984 to the beginning of 1990, and then levels to approximately 100% until 2002. For technologies developed on a local level (e.g. biogas plants), learning-by-using and learning-by-interacting are important learning mechanism, while for CHP plants utilizing fluidized bed boilers, upscaling is probably one of the main mechanisms behind cost reductions

  17. Comparative Assessment of Gasification Based Coal Power Plants with Various CO2Capture Technologies Producing Electricity and Hydrogen.

    Science.gov (United States)

    Mukherjee, Sanjay; Kumar, Prashant; Hosseini, Ali; Yang, Aidong; Fennell, Paul

    2014-02-20

    Seven different types of gasification-based coal conversion processes for producing mainly electricity and in some cases hydrogen (H 2 ), with and without carbon dioxide (CO 2 ) capture, were compared on a consistent basis through simulation studies. The flowsheet for each process was developed in a chemical process simulation tool "Aspen Plus". The pressure swing adsorption (PSA), physical absorption (Selexol), and chemical looping combustion (CLC) technologies were separately analyzed for processes with CO 2 capture. The performances of the above three capture technologies were compared with respect to energetic and exergetic efficiencies, and the level of CO 2 emission. The effect of air separation unit (ASU) and gas turbine (GT) integration on the power output of all the CO 2 capture cases is assessed. Sensitivity analysis was carried out for the CLC process (electricity-only case) to examine the effect of temperature and water-cooling of the air reactor on the overall efficiency of the process. The results show that, when only electricity production in considered, the case using CLC technology has an electrical efficiency 1.3% and 2.3% higher than the PSA and Selexol based cases, respectively. The CLC based process achieves an overall CO 2 capture efficiency of 99.9% in contrast to 89.9% for PSA and 93.5% for Selexol based processes. The overall efficiency of the CLC case for combined electricity and H 2 production is marginally higher (by 0.3%) than Selexol and lower (by 0.6%) than PSA cases. The integration between the ASU and GT units benefits all three technologies in terms of electrical efficiency. Furthermore, our results suggest that it is favorable to operate the air reactor of the CLC process at higher temperatures with excess air supply in order to achieve higher power efficiency.

  18. Comparative Assessment of Gasification Based Coal Power Plants with Various CO2 Capture Technologies Producing Electricity and Hydrogen

    Science.gov (United States)

    2014-01-01

    Seven different types of gasification-based coal conversion processes for producing mainly electricity and in some cases hydrogen (H2), with and without carbon dioxide (CO2) capture, were compared on a consistent basis through simulation studies. The flowsheet for each process was developed in a chemical process simulation tool “Aspen Plus”. The pressure swing adsorption (PSA), physical absorption (Selexol), and chemical looping combustion (CLC) technologies were separately analyzed for processes with CO2 capture. The performances of the above three capture technologies were compared with respect to energetic and exergetic efficiencies, and the level of CO2 emission. The effect of air separation unit (ASU) and gas turbine (GT) integration on the power output of all the CO2 capture cases is assessed. Sensitivity analysis was carried out for the CLC process (electricity-only case) to examine the effect of temperature and water-cooling of the air reactor on the overall efficiency of the process. The results show that, when only electricity production in considered, the case using CLC technology has an electrical efficiency 1.3% and 2.3% higher than the PSA and Selexol based cases, respectively. The CLC based process achieves an overall CO2 capture efficiency of 99.9% in contrast to 89.9% for PSA and 93.5% for Selexol based processes. The overall efficiency of the CLC case for combined electricity and H2 production is marginally higher (by 0.3%) than Selexol and lower (by 0.6%) than PSA cases. The integration between the ASU and GT units benefits all three technologies in terms of electrical efficiency. Furthermore, our results suggest that it is favorable to operate the air reactor of the CLC process at higher temperatures with excess air supply in order to achieve higher power efficiency. PMID:24578590

  19. Halophytes as Bioenergy Crops

    Directory of Open Access Journals (Sweden)

    Rita Sharma

    2016-09-01

    Full Text Available Shrinking arable land due to soil salinization and, depleting fresh water resources pose serious worldwide constraints to crop productivity. A vision of using plant feedstock for biofuel production can only be realized if we can identify alternate species that can be grown on saline soils and therefore, would not compete for the resources required for conventional agriculture. Halophytes have remarkable ability to grow under high salinity conditions. They can be irrigated with seawater without compromising their biomass and seed yields making them good alternate candidates as bioenergy crops. Both oil produced from the seeds and the lignocellulosic biomass of halophytes can be utilized for biofuel production. Several researchers across the globe have recognized this potential and assessed several halophytes for their tolerance to salt, seed oil contents and composition of their lignocellulosic biomass. Here, we review current advances and highlight the key species of halophytes analyzed for this purpose. We have critically assessed the challenges and opportunities associated with using halophytes as bioenergy crops.

  20. Critical factors for bioenergy technology implementation. Five case studies of bioenergy markets in the United States, Sweden and Austria

    Energy Technology Data Exchange (ETDEWEB)

    Roos, Anders [Swedish Univ. of Agricultural Sciences, Uppsala (Sweden). Dept. of Forest-Industry-Market Studies

    1998-07-01

    market and prices and contracting practices are allowed to vary); (4) competition from other energy forms, fossil, nuclear, electric (The features of this competition are also important whether through cost reductions, quality, the execution of market power, or influence on energy policy); (5) a positive treatment by the national government that means that a market is created, and a technological 'pull' situation appears; and (6) the attitude from local governments and local opinion can play an important role by promoting the industry and introducing regulations and control mechanisms that prevent negative side-effects of the activity. Analysis of these six factors helps policy makers or investors to make realistic assumptions about a bioenergy market potential and to make sound investment decisions for public or private money.

  1. Critical factors for bioenergy technology implementation. Five case studies of bioenergy markets in the United States, Sweden and Austria

    International Nuclear Information System (INIS)

    Roos, Anders

    1998-01-01

    market and prices and contracting practices are allowed to vary); (4) competition from other energy forms, fossil, nuclear, electric (The features of this competition are also important whether through cost reductions, quality, the execution of market power, or influence on energy policy); (5) a positive treatment by the national government that means that a market is created, and a technological 'pull' situation appears; and (6) the attitude from local governments and local opinion can play an important role by promoting the industry and introducing regulations and control mechanisms that prevent negative side-effects of the activity. Analysis of these six factors helps policy makers or investors to make realistic assumptions about a bioenergy market potential and to make sound investment decisions for public or private money

  2. Recent increases in nitrogen oxide (NOx) emissions from coal-fired electric generating units equipped with selective catalytic reduction.

    Science.gov (United States)

    McNevin, Thomas F

    2016-01-01

    The most effective control technology available for the reduction of oxides of nitrogen (NOx) from coal-fired boilers is selective catalytic reduction (SCR). Installation of SCR on coal-fired electric generating units (EGUs) has grown substantially since the onset of the U.S. Environmental Protection Agency's (EPA) first cap and trade program for oxides of nitrogen in 1999, the Ozone Transport Commission (OTC) NOx Budget Program. Installations have increased from 6 units present in 1998 in the states that encompass the current Cross-State Air Pollution Rule (CSAPR) ozone season program to 250 in 2014. In recent years, however, the degree of usage of installed SCR technology has been dropping significantly at individual plants. Average seasonal NOx emission rates increased substantially during the Clean Air Interstate Rule (CAIR) program. These increases coincided with a collapse in the cost of CAIR allowances, which declined to less than the cost of the reagent required to operate installed SCR equipment, and was accompanied by a 77% decline in delivered natural gas prices from their peak in June of 2008 to April 2012, which in turn coincided with a 390% increase in shale gas production between 2008 and 2012. These years also witnessed a decline in national electric generation which, after peaking in 2007, declined through 2013 at an annualized rate of -0.3%. Scaling back the use of installed SCR on coal-fired plants has resulted in the release of over 290,000 tons of avoidable NOx during the past five ozone seasons in the states that participated in the CAIR program. To function as designed, a cap and trade program must maintain allowance costs that function as a disincentive for the release of the air pollutants that the program seeks to control. If the principle incentive for reducing NOx emissions is the avoidance of allowance costs, emissions may be expected to increase if costs fall below a critical value, in the absence of additional state or federal

  3. Smart bioenergy technologies and concepts for a more flexible bioenergy provision in future energy systems

    CERN Document Server

    2015-01-01

    Biomass is a vital source of renewable energy, because it offers a wide range of established and potential methods for energy generation. It is also an important facet of the progression toward a sustainable energy future. The need for further development in the provision of bioenergy is underlined by challenges affecting the biomass resource base, including rising demand for biomass for food, feed, materials and fuel. This is underlined by significant concerns over factors relating to land, such as soil, nutrients and biodiversity. This book examines and analyzes Germany's decade-long initiative toward implementation of an active policy for the transition of the energy system to make greater use of renewable energy sources, which has resulted in a significant increase in the amount of biomass used for electricity, heat and transport fuel. The book begins with a review of market and resource base issues, and moves on to analyze the technical options for a more integrated bioenergy use. The analysis spans the ...

  4. Our Commitment to Bioenergy Sustainability

    Energy Technology Data Exchange (ETDEWEB)

    None

    2015-06-18

    The U.S. Department of Energy’s Bioenergy Technologies Office (BETO) is committed to developing the resources, technologies, and systems needed to support a thriving bioenergy industry that protects natural resources and ad- vances environmental, economic, and social benefits. BETO’s Sustainability Technology Area proactively identifies and addresses issues that affect the scale-up potential, public acceptance, and long-term viability of advanced bioenergy systems; as a result, the area is critical to achieving BETO’s overall goals.

  5. ADVANCED FLUE GAS CONDITIONING AS A RETROFIT UPGRADE TO ENHANCE PM COLLECTION FROM COAL-FIRED ELECTRIC UTILITY BOILERS

    International Nuclear Information System (INIS)

    Kenneth E. Baldrey

    2002-01-01

    The U.S. Department of Energy and ADA Environmental Solutions are engaged in a project to develop commercial flue gas conditioning additives. The objective is to develop conditioning agents that can help improve particulate control performance of smaller or under-sized electrostatic precipitators on utility coal-fired boilers. The new chemicals will be used to control both the electrical resistivity and the adhesion or cohesivity of the fly ash. There is a need to provide cost-effective and safer alternatives to traditional flue gas conditioning with SO(sub 3) and ammonia. During this reporting quarter, performance testing of flue gas conditioning was underway at the PacifiCorp Jim Bridger Power Plant. The product tested, ADA-43, was a combination resistivity modifier with cohesivity polymers. This represents the first long-term full-scale testing of this class of products. Modifications to the flue gas conditioning system at Jim Bridger, including development of alternate injection lances, was also undertaken to improve chemical spray distribution and to avoid spray deposition to duct interior surfaces. Also in this quarter, a firm commitment was received for another long-term test of the cohesivity additives. This plant fires a bituminous coal and has opacity and particulate emissions performance issues related to fly ash re-entrainment. Ammonia conditioning is employed here on one unit, but there is interest in liquid cohesivity additives as a safer alternative

  6. Case study on comparative assessment of nuclear and coal-fueled electricity generation options and strategy for nuclear power development in China

    International Nuclear Information System (INIS)

    Zhao Shiping; Shi Xiangjun; Bao Yunqiao; Mo Xuefeng; Wei Zhihong; Fang Dong; Ma Yuqing; Li Hong; Pan Ziqiang; Li Xutong

    2001-01-01

    China, as other countries in the world, is seeking for a way of sustainable development. In energy/electricity field, nuclear power is one of electric energy options considering the Chinese capability of nuclear industry. The purpose of this study is to investigate the role of nuclear power in Chinese energy/electricity system in future by comprehensive assessment. The main conclusions obtained from this study are: (1) China will need a total generation capacity of 750 - 879 GW in 2020, which means new power units of 460 - 590 GW generation capacity will be built from 2001 to 2020. (2) the total amount of SO 2 emission from power production will rise to 16 - 18 Mt in 2020, about 2.8 - 3.2 times of 1995, even if the measures to control SO 2 emission are taken for all new coal units. (3) CO 2 emission from electricity generation will reach 21 - 24 Gt in 2020. (4) the environmental impacts and health risks of coal-fired energy chain are greater than that of nuclear chain. The normalized health risk caused by coal chain is 20.12 deaths/GW·a but 4.63 deaths/GW·a by nuclear chain in China. (5) As estimated by experts, there will be a shortage of 200 GW in 2050 in China even if considering the maximum production of coal, the utilization of hydropower and renewable resource. Nuclear power is the only way to fill the gap between demand and supply

  7. Bioenergy '97: Nordic Bioenergy Conference, market, environment and technology

    International Nuclear Information System (INIS)

    1997-01-01

    (Leading abstract). The conference ''Bioenergy '97: Nordic Bioenergy Conference, market, environment and technology'' took place in Oslo, Norway, 7-8 Oct 1997. The conference papers are grouped under three headings: (1) The nordic energy market. 12 papers. (2) Production and sale of biofuels. 8 papers. (3) Conversion and utilization of biofuels. With subsections New technologies, 4 papers, and Power/heat production from biofuels, 4 papers

  8. Bio-energy in Europe: changing technology choices

    International Nuclear Information System (INIS)

    Faaij, Andre P.C.

    2006-01-01

    Bio-energy is seen as one of the key options to mitigate greenhouse gas emissions and substitute fossil fuels. This is certainly evident in Europe, where a kaleidoscope of activities and programs was and is executed for developing and stimulating bio-energy. Over the past 10-15 years in the European Union, heat and electricity production from biomass increased with some 2% and 9% per year, respectively, between 1990 and 2000 and biofuel production increased about eight-fold in the same period. Biomass contributed some two-thirds of the total renewable energy production in the European Union (EU) (2000 PJ) or 4% of the total energy supply in 1999. Given the targets for heat, power and biofuels, this contribution may rise to some 10% (6000 PJ) in 2010. Over time, the scale at which bio-energy is being used has increased considerably. This is true for electricity and combined heat and power plants, and how biomass markets are developing from purely regional to international markets, with increasing cross-border trade-flows. So far, national policy programs proved to be of vital importance for the success of the development of bio-energy, which led to very specific technological choices in various countries. For the future, a supra-national approach is desired: comprehensive research development, demonstration and deployment trajectories for key options as biomass integrated gasification/combined cycle and advanced biofuel concepts, develop an international biomass market allowing for international trade and an integral policy approach for bio-energy incorporating energy, agricultural, forestry, waste and industrial policies. The Common Agricultural Policy of the (extended) EU should fully incorporate bio-energy and perennial crops in particular

  9. Combined production of synthetic liquid fuel and electricity from coal using H2S and CO2 removal systems

    Directory of Open Access Journals (Sweden)

    Elina A. Tyurina

    2015-11-01

    Full Text Available The main aim of the research is to continue the studies on promising technologies of coal conversion into synthetic liquid fuel (methanol. The object of study is the plants for combined production of electricity and synthetic liquid fuel (PCPs, which are eco-friendly and more efficient as compared to the plants for separate production. The previous studies on PCPs consider the systems for fine cleaning of gasification products in a simplified way. This study presents the detailed mathematical modeling of the aforementioned systems and determines the values of energy consumption and investment in them. The obtained values are used to carry out the optimization studies and find the optimal parameters of PCPs with different degree of CO2 removal from gasification products providing fine cleaning of gasification products from H2S.

  10. 2016 Bioenergy Industry Status Report

    Energy Technology Data Exchange (ETDEWEB)

    Moriarty, Kristen L. [National Renewable Energy Lab. (NREL), Golden, CO (United States); Milbrandt, Anelia R. [National Renewable Energy Lab. (NREL), Golden, CO (United States); Warner, Ethan [National Renewable Energy Lab. (NREL), Golden, CO (United States); Lewis, John E. [National Renewable Energy Lab. (NREL), Golden, CO (United States); Schwab, Amy A. [National Renewable Energy Lab. (NREL), Golden, CO (United States)

    2018-03-03

    This report provides a snapshot of the bioenergy industry status at the end of 2016. The report compliments other annual market reports from the U.S. Department of Energy’s (DOE’s) Office of Energy Efficiency and Renewable Energy offices and is supported by DOE’s Bioenergy Technologies Office (BETO). The 2016 Bioenergy Industry Status Report focuses on past year data covering multiple dimensions of the bioenergy industry and does not attempt to make future market projections. The report provides a balanced and unbiased assessment of the industry and associated markets. It is openly available to the public and is intended to compliment International Energy Agency and industry reports with a focus on DOE stakeholder needs.

  11. Biomass for bioenergy

    DEFF Research Database (Denmark)

    Bentsen, Niclas Scott

    sources of biomass for energy purposes in the European Union. Estimation of European biomass resources is associated with significant uncertainty, and it is not sure if the European Union can meet its 2020 energy policy targets with biomass produced in the EU, although some countries hold sway over...... a total production of residues from these six crops of ~3.7 billion tonnes dry matter annually. North and South America; Eastern, South-Eastern and Southern Asia and Eastern Europe each produce more than 200 million tonnes dry matter annually. The theoretical energy potential from the selected crop......, where bio-ethanol production is integrated with combined heat and power production may improve the energy balance with about 30 % point and reach energy efficiencies almost comparable to those seen for conversion of petroleum into gasoline. Minimisation of GHG emissions from bioenergy production...

  12. 10. Rostock bioenergy forum. Proceedings

    International Nuclear Information System (INIS)

    Nelles, Michael

    2016-01-01

    Biomass energy not only contributes to the energy transition, but also for climate and resource protection. The main topics of the conference are: Alternative solid bioenergy sources; Optimizing the use of heat; Prospects for biofuels; Emission reduction through use of biofuels; Alternative biomass for biogas; Optimization and adjustment in the biogas sector; Flexibility of biogas plants; New uses of bioenergy. 12 contributions were recorded separately for the INIS database. [de

  13. Energy, Environmental, and Economic Analyses of Design Concepts for the Co-Production of Fuels and Chemicals with Electricity via Co-Gasification of Coal and Biomass

    Energy Technology Data Exchange (ETDEWEB)

    Eric Larson; Robert Williams; Thomas Kreutz; Ilkka Hannula; Andrea Lanzini; Guangjian Liu

    2012-03-11

    The overall objective of this project was to quantify the energy, environmental, and economic performance of industrial facilities that would coproduce electricity and transportation fuels or chemicals from a mixture of coal and biomass via co-gasification in a single pressurized, oxygen-blown, entrained-flow gasifier, with capture and storage of CO{sub 2} (CCS). The work sought to identify plant designs with promising (Nth plant) economics, superior environmental footprints, and the potential to be deployed at scale as a means for simultaneously achieving enhanced energy security and deep reductions in U.S. GHG emissions in the coming decades. Designs included systems using primarily already-commercialized component technologies, which may have the potential for near-term deployment at scale, as well as systems incorporating some advanced technologies at various stages of R&D. All of the coproduction designs have the common attribute of producing some electricity and also of capturing CO{sub 2} for storage. For each of the co-product pairs detailed process mass and energy simulations (using Aspen Plus software) were developed for a set of alternative process configurations, on the basis of which lifecycle greenhouse gas emissions, Nth plant economic performance, and other characteristics were evaluated for each configuration. In developing each set of process configurations, focused attention was given to understanding the influence of biomass input fraction and electricity output fraction. Self-consistent evaluations were also carried out for gasification-based reference systems producing only electricity from coal, including integrated gasification combined cycle (IGCC) and integrated gasification solid-oxide fuel cell (IGFC) systems. The reason biomass is considered as a co-feed with coal in cases when gasoline or olefins are co-produced with electricity is to help reduce lifecycle greenhouse gas (GHG) emissions for these systems. Storing biomass-derived CO

  14. Bioenergy Research Programme. Yearbook 1994. Utilization of bioenergy and biomass conversion

    International Nuclear Information System (INIS)

    Alakangas, E.

    1995-01-01

    BIOENERGIA Research Programme is one of energy technology programmes of the Finnish Ministry of Trade and Industry (in 1995 TEKES, Technology Development Center). The aim of Bioenergy Research Programme is to increase the use of economically profitable and environmentally sound bioenergy by improving the competitiveness of present peat and wood fuels. Research and development projects will also develop new economically competitive biofuels and new equipment and methods for production, handling and using of biofuels. The funding for 1994 was nearly 50 million FIM and project numbered 60. The research area of biomass conversion consisted of 8 projects in 1994, and the research area of bioenergy utilization of 13 projects. The results of these projects carried out in 1994 are presented in this publication. The aim of the biomass conversion research is to produce more bio-oils and electric power as well at wood processing industry as at power plants. The conversion research was pointed at refining of the waste liquors of pulping industry and the extracts of them into fuel oil and liquid engine fuels, on production of wood oil via flash pyrolysis, and on combustion tests. Other conversion studies dealt with production of fuel-grade ethanol. For utilization of agrobiomass in various forms of energy, a system study is introduced where special attention is how to use rapeseed oil unprocessed in heating boilers and diesel engines. Possibilities to produce agrofibre in investigated at a laboratory study

  15. Modeling Sustainable Bioenergy Feedstock Production in the Alps

    Science.gov (United States)

    Kraxner, Florian; Leduc, Sylvain; Kindermann, Georg; Fuss, Sabine; Pietsch, Stephan; Lakyda, Ivan; Serrano Leon, Hernan; Shchepashchenko, Dmitry; Shvidenko, Anatoly

    2016-04-01

    Sustainability of bioenergy is often indicated by the neutrality of emissions at the conversion site while the feedstock production site is assumed to be carbon neutral. Recent research shows that sustainability of bioenergy systems starts with feedstock management. Even if sustainable forest management is applied, different management types can impact ecosystem services substantially. This study examines different sustainable forest management systems together with an optimal planning of green-field bioenergy plants in the Alps. Two models - the biophysical global forest model (G4M) and a techno-economic engineering model for optimizing renewable energy systems (BeWhere) are implemented. G4M is applied in a forward looking manner in order to provide information on the forest under different management scenarios: (1) managing the forest for maximizing the carbon sequestration; or (2) managing the forest for maximizing the harvestable wood amount for bioenergy production. The results from the forest modelling are then picked up by the engineering model BeWhere, which optimizes the bioenergy production in terms of energy demand (power and heat demand by population) and supply (wood harvesting potentials), feedstock harvesting and transport costs, the location and capacity of the bioenergy plant as well as the energy distribution logistics with respect to heat and electricity (e.g. considering existing grids for electricity or district heating etc.). First results highlight the importance of considering ecosystem services under different scenarios and in a geographically explicit manner. While aiming at producing the same amount of bioenergy under both forest management scenarios, it turns out that in scenario (1) a substantially larger area (distributed across the Alps) will need to be used for producing (and harvesting) the necessary amount of feedstock than under scenario (2). This result clearly shows that scenario (2) has to be seen as an "intensification

  16. Coal and wood fuel for electricity production: An environmentally sound solution for waste and demolition wood

    Energy Technology Data Exchange (ETDEWEB)

    Penninks, F.W.M. [EPON, Zwolle (Netherlands)

    1997-12-31

    Waste wood from primary wood processing and demolition presents both a problem and a potential. If disposed in landfills, it consumes large volumes and decays, producing CH{sub 4}, CO{sub 2} and other greenhouse gases. As an energy source used in a coal fired power plant it reduces the consumption of fossil fuels reducing the greenhouse effect significantly. Additional advantages are a reduction of the ash volume and the SO{sub 2} and NO{sub x} emissions. The waste wood requires collection, storage, processing and burning. This paper describes a unique project which is carried out in the Netherlands at EPON`s Gelderland Power Plant (635 MW{sub e}) where 60 000 tonnes of waste and demolition wood will be used annually. Special emphasis is given to the processing of the powdered wood fuel. Therefore, most waste and demolition wood can be converted from an environmental liability to an environmental and economic asset. (author)

  17. Coal and wood fuel for electricity production: an environmentally sound solution for waste and demolition wood

    Energy Technology Data Exchange (ETDEWEB)

    Penninks, F.W.; Zonneveld, N. [nv EPON, Zwolle (Germany)

    1995-12-31

    Waste wood from primary wood processing and demolition presents both a problem and potential. If disposed of in land fills, it consumes large volumes and decays, producing CH{sub 4}, CO{sub 2} and other greenhouse gases. As an energy source used in a coal fired power plant it reduces the consumption of fossil fuels reducing the greenhouse effect significantly. Additional advantages are a reduction of the ash volume and the SO{sub 2} and NO{sub x} emissions. The waste wood requires collection, storage, processing and burning. This paper describes an unique project which is carried out in the Netherlands at EPON`s Gelderland Power Plant (635 MWe) where 60,000 tonnes of waste and demolition wood will be used yearly. Special emphasis is given to the processing of the powdered wood fuel. Therefore, most waste and demolition wood can be converted from a environmental liability to an environmental and economic asset.

  18. Coal and wood fuel for electricity production: an environmentally sound solution for waste and demolition wood

    Energy Technology Data Exchange (ETDEWEB)

    Penninks, F.W.; Zonneveld, N. [nv EPON, Zwolte (Netherlands)

    1997-12-31

    Waste wood from primary wood processing and demolition presents both a problem and potential. If disposed of in land-fills, it consumes large volumes and decays, producing CH{sub 4}, CO{sub 2} and other greenhouse gases. As an energy source used in a coal fired power plant it reduces the consumption of fossil fuels reducing the greenhouse effect significantly. Additional advantages are a reduction of the ash volume and the SO{sub 2} and NO{sub x} emissions. The waste wood requires collection, storage, processing and burning. This paper describes a unique project which is carried out in the Netherlands at EPON`s Gelderland Power Plant (635 MWe) where 60,000 tonnes of waste and demolition wood will be used yearly. Special emphasis is given to the processing of the powdered wood fuel. 1 fig., 5 tabs.

  19. Methodology and a preliminary data base for examining the health risks of electricity generation from uranium and coal fuels

    Energy Technology Data Exchange (ETDEWEB)

    El-Bassioni, A.A.

    1980-08-01

    An analytical model was developed to assess and examine the health effects associated with the production of electricity from uranium and coal fuels. The model is based on a systematic methodology that is both simple and easy to check, and provides details about the various components of health risk. A preliminary set of data that is needed to calculate the health risks was gathered, normalized to the model facilities, and presented in a concise manner. Additional data will become available as a result of other evaluations of both fuel cycles, and they should be included in the data base. An iterative approach involving only a few steps is recommended for validating the model. After each validation step, the model is improved in the areas where new information or increased interest justifies such upgrading. Sensitivity analysis is proposed as the best method of using the model to its full potential. Detailed quantification of the risks associated with the two fuel cycles is not presented in this report. The evaluation of risks from producing electricity by these two methods can be completed only after several steps that address difficult social and technical questions. Preliminary quantitative assessment showed that several factors not considered in detail in previous studies are potentially important. 255 refs., 21 figs., 179 tabs.

  20. Bioenergy Sustainability in China: Potential and Impacts

    Science.gov (United States)

    Zhuang, Jie; Gentry, Randall W.; Yu, Gui-Rui; Sayler, Gary S.; Bickham, John W.

    2010-10-01

    The sustainability implications of bioenergy development strategies are large and complex. Unlike conventional agriculture, bioenergy production provides an opportunity to design systems for improving eco-environmental services. Different places have different goals and solutions for bioenergy development, but they all should adhere to the sustainability requirements of the environment, economy, and society. This article serves as a brief overview of China’s bioenergy development and as an introduction to this special issue on the impacts of bioenergy development in China. The eleven articles in this special issue present a range of perspectives and scenario analyses on bioenergy production and its impacts as well as potential barriers to its development. Five general themes are covered: status and goals, biomass resources, energy plants, environmental impacts, and economic and social impacts. The potential for bioenergy production in China is huge, particularly in the central north and northwest. China plans to develop a bioenergy capacity of 30GW by 2020. However, realization of this goal will require breakthroughs in bioenergy landscape design, energy plant biotechnology, legislation, incentive policy, and conversion facilities. Our analyses suggest that (1) the linkage between bioenergy, environment, and economy are often circular rather than linear in nature; (2) sustainability is a core concept in bioenergy design and the ultimate goal of bioenergy development; and (3) each bioenergy development scheme must be region-specific and designed to solve local environmental and agricultural problems.

  1. Technical/economical analysis of bioenergy systems

    International Nuclear Information System (INIS)

    Solantausta, Y.

    1998-01-01

    The objectives of the IEA Bioenergy Technoeconomic Analysis Activity are: (1) To promote development of thermochemical biomass conversion methods by carrying out selected site specific feasibility studies in participating countries. Both agricultural and woody biomasses will be converted either into electricity or boiler fuels; (2) To compare advanced technologies to commercial alternatives based on technoeconomic basis to establish future development needs, and (3) To facilitate information exchange between participants on relevant basic process issues. Five countries (Finland, Canada, USA, Norway, Austria) are participating to the Activity. Initially two feasibility studies are planned for each country. Each study has three common elements: site specific, technical, and economic data. The site specific cases are described below in short. Products in the cases are electricity, heat and fuel oil. Total of two cases per country are planned. (orig.)

  2. Utilization of coal rejects and coal washery tailings in Yong Rong Power Plant

    International Nuclear Information System (INIS)

    Tao, T.; Kefa, C.; Mingjiang, N.; Guoguan, H.; Yong, C.; Xiang, Z.

    1991-01-01

    The coal rejects and coal washery tailings discharged by coal washery not only occupies farmland but also causes environmental pollution. With the development of coal industry, the problem becomes more serious. In this paper, the properties of coal rejects and coal washery tailings are analyzed. The technology that burn coal rejects and coal washery tailings in boilers to produce electric power is reported. It has been shown the technology is feasible and successful. It saves energy as well as protects the environment

  3. Navigating Bioenergy. Contributing to informed decision making on bioenergy issues

    Energy Technology Data Exchange (ETDEWEB)

    Vis, M.; Reumerman, P.; Frederiks, B. [BTG Biomass Technology Group, Enschede (Netherlands)

    2009-11-15

    In order to further contribute to sustainable global bioenergy development, UNIDO will this year be launching the Bioenergy Capacity Building Programme (BIOCAB), offering a comprehensive training package to policy makers and entrepreneurs aimed at enhancing their engagement in shaping a sustainable bioenergy industry in developing countries. The training package, disseminated through a network of key institutions and certified trainers, will consist of four modules covering the following subjects: Technologies and Processes, Policy, Socio-Economic and Environmental Issues, Financial and Project Development Issues, Industrial Applications for Productive Use. While designing the training package and its modules at a meeting hosted by UNIDO at headquarters in August 2008, experts reiterated a demand, previously expressed by UNIDO clients at various international fora, for an easy-to-read, practical and user-friendly introduction to certain contentious bioenergy issues. The expert meeting selected the most hotly-debated bioenergy issues and came up with the following eight topics: (1) Jatropha, the feedstock of the future?; (2) Biomethane, is it an underestimated energy source?; (3) Energy from Municipal Solid Waste, can this potential be realized?; (4) The Biorefinery Concept, how relevant is it for developing countries?; (5) Competition with Food, what are the facts in the food versus fuel discussion?; (6) Sustainability and Certification of Biomass, what are the benefits?; (7) Clean Development Mechanism, how does it work?; (8) Success Stories.

  4. Towards an integrated system for bio-energy: hydrogen production by Escherichia coli and use of palladium-coated waste cells for electricity generation in a fuel cell.

    Science.gov (United States)

    Orozco, R L; Redwood, M D; Yong, P; Caldelari, I; Sargent, F; Macaskie, L E

    2010-12-01

    Escherichia coli strains MC4100 (parent) and a mutant strain derived from this (IC007) were evaluated for their ability to produce H(2) and organic acids (OAs) via fermentation. Following growth, each strain was coated with Pd(0) via bioreduction of Pd(II). Dried, sintered Pd-biomaterials ('Bio-Pd') were tested as anodes in a proton exchange membrane (PEM) fuel cell for their ability to generate electricity from H(2). Both strains produced hydrogen and OAs but 'palladised' cells of strain IC007 (Bio-Pd(IC007)) produced ~threefold more power as compared to Bio-Pd(MC4100) (56 and 18 mW respectively). The power output used, for comparison, commercial Pd(0) powder and Bio-Pd made from Desulfovibrio desulfuricans, was ~100 mW. The implications of these findings for an integrated energy generating process are discussed.

  5. Management swing potential for bioenergy crops

    NARCIS (Netherlands)

    Davis, S.C.; Boddey, R.M.; Alves, B.J.R.; Cowie, A.L.; George, B.H.; Ogle, S.M.; Smith, P.; Noordwijk, van M.; Wijk, van M.T.

    2013-01-01

    Bioenergy crops are often classified (and subsequently regulated) according to species that have been evaluated as environmentally beneficial or detrimental, but in practice, management decisions rather than species per se can determine the overall environmental impact of a bioenergy production

  6. Dispersion of pollutants, environmental externalities due to a pulverized coal power plant and their effect on the cost of electricity

    International Nuclear Information System (INIS)

    Czarnowska, Lucyna; Frangopoulos, Christos A.

    2012-01-01

    Energy conversion systems generate pollution that causes damages to the environment and the society. The objective of this work is to study the dispersion of pollutants and assess the environmental and social cost due to pollution from such a system. For this purpose, a pulverized coal power plant is selected. Using thermodynamic principles combined with empirical techniques, the quantities of pollutants emitted by the plant are estimated. Then, using the EcoSenseWeb software, which is based on the results of the ExternE project, the external environmental cost (externalities) of pollution is assessed. The plant is considered as located in four different cities in Poland and the externalities are calculated for each city separately. It is shown that the external environmental cost has a strong influence on the unit cost of electricity. In addition, the dispersion of pollutants is presented for the plant located in Olsztyn city. Furthermore, the plant is considered as located near the capitals of European countries and the environmental externalities are calculated for each city. The neighboring countries that are strongly affected by the plant in each particular city are identified. The sensitivity of the unit cost of electricity to certain important parameters is investigated. -- Highlights: ► The external cost of pollution has a significant impact on the cost of electricity. ► The results depend on the particular plant, location and level (local-global). ► Externalities make the installation of abatement equipment economical. ► The source location of emissions has a significant effect on the external cost. ► The transboundary pollution has a strong effect on the environmental cost.

  7. External cost of coal based electricity generation:A tale of Ahmedabad city

    DEFF Research Database (Denmark)

    Mahapatra, Diptiranjan; Shukla, Priyadarshi; Dhar, Subash

    2012-01-01

    Electricity production causes unintended impacts.Theire xclusion by the market leads to suboptimal resource allocations.Monetizing and internalizing of external costs, though challenging and debatable, leads to a better allocation of economic resources and welfare. In this paper, a life...

  8. CONTROL OF MERCURY EMISSIONS FROM COAL-FIRED ELECTRIC UTILITY BOILERS: INTERIM REPORT

    Science.gov (United States)

    The report provides additional information on mercury (Hg) emissions control following the release of "Study of Hazardous Air Pollutant Emissions from Electric Utility Steam Generating Units--Final Report to Congress" in February 1998. Chapters 1-3 describe EPA's December 2000 de...

  9. Environmental control implications of generating electric power from coal. Appendix B. Assessment of status of technology for solvent refining of coal. 1977 technology status report

    Energy Technology Data Exchange (ETDEWEB)

    None

    1977-12-01

    This report reviews the technology and environmental impacts of the solvent refined coal process to produce clean solid fuel (SRC-I). Information on SRC-I pilot plant operation, process design, and economics is presented. A bibliography of current available literature in this technology area, divided into fourteen categories with abstracts of the references, is appended. The history, current operations, and future plans for the SRC pilot plants at Fort Lewis and Wilsonville are reviewed. Process data generated at these pilot plants for various coals are used as a basis for a conceptual commercial plant design with a capacity to process 20,000 tons per day (TPD) of prepared coal. Block flow diagrams, material balances, an energy balance, and a list of raw materials for the plant are also provided. Capital cost estimates for a 20,000 TPD coal feed plant derived from four prior economic studies range from $706 million to $1093 million in 1976 dollars. The annual net operating cost is estimated at $238.6 million (1976 dollars) and the average product cost at $2.71/MM Btu based on utility financing (equity 25:debt 75) with $25/ton as the delivered price of the dry coal. The report also discusses special technical considerations associated with some of the process operations and major equipment items and enumerates technical risks associated with the commercialization of the SRC-I process.

  10. Bioenergy from sisal residues

    Energy Technology Data Exchange (ETDEWEB)

    Jungersen, G. [Dansk Teknologisk Inst. (Denmark); Kivaisi, A.; Rubindamayugi, M. [Univ. of Dar es Salaam (Tanzania, United Republic of)

    1998-05-01

    The main objectives of this report are: To analyse the bioenergy potential of the Tanzanian agro-industries, with special emphasis on the Sisal industry, the largest producer of agro-industrial residues in Tanzania; and to upgrade the human capacity and research potential of the Applied Microbiology Unit at the University of Dar es Salaam, in order to ensure a scientific and technological support for future operation and implementation of biogas facilities and anaerobic water treatment systems. The experimental work on sisal residues contains the following issues: Optimal reactor set-up and performance; Pre-treatment methods for treatment of fibre fraction in order to increase the methane yield; Evaluation of the requirement for nutrient addition; Evaluation of the potential for bioethanol production from sisal bulbs. The processing of sisal leaves into dry fibres (decortication) has traditionally been done by the wet processing method, which consumes considerable quantities of water and produces large quantities of waste water. The Tanzania Sisal Authority (TSA) is now developing a dry decortication method, which consumes less water and produces a waste product with 12-15% TS, which is feasible for treatment in CSTR systems (Continously Stirred Tank Reactors). (EG)

  11. Combining Bioenergy with CCS

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2011-07-01

    Bioenergy with Carbon Capture and Storage (BECCS) is a carbon reduction technology that offers permanent net removal of carbon dioxide (CO2) from the atmosphere. This has been termed negative carbon dioxide emissions, and offers a significant advantage over other mitigation alternatives, which only decrease the amount of emissions to the atmosphere. The benefits inherent within this technology are currently receiving increased attention from policy makers. To facilitate the development of appropriate policy incentives, this paper reviews the treatment of negative carbon dioxide emissions under current and planned international carbon accounting frameworks. It finds that, while current frameworks provide limited guidance, proposed and revised guidelines could provide an environmentally sound reporting framework for BECCS. However, the paper also notes that, as they currently stand, new guidelines do not tackle a critical issue that has implications for all biomass energy systems, namely the overall carbon footprint of biomass production and use. It recommends that, to the best extent possible, all carbon impacts of BECCS are fully reflected in carbon reporting and accounting systems under the UNFCCC and Kyoto Protocol.

  12. A systematic review of bioenergy life cycle assessments

    International Nuclear Information System (INIS)

    Muench, Stefan; Guenther, Edeltraud

    2013-01-01

    Highlights: • We conducted a systematic literature review of bioenergy LCAs. • We provide a detailed overview of GWP, AP, and EP for biomass electricity and heat. • We discuss methodological choices that can lead to variations in results. • Relevant choices are functional unit, allocation method, system boundary, and carbon modelling. - Abstract: On a global scale, bioenergy is highly relevant to renewable energy options. Unlike fossil fuels, bioenergy can be carbon neutral and plays an important role in the reduction of greenhouse gas emissions. Biomass electricity and heat contribute 90% of total final biomass energy consumption, and many reviews of biofuel Life Cycle Assessments (LCAs) have been published. However, only a small number of these reviews are concerned with electricity and heat generation from biomass, and these reviews focus on only a few impact categories. No review of biomass electricity and heat LCAs included a detailed quantitative assessment. The failure to consider heat generation, the insufficient consideration of impact categories, and the missing quantitative overview in bioenergy LCA reviews constitute research gaps. The primary goal of the present review was to give an overview of the environmental impact of biomass electricity and heat. A systematic review was chosen as the research method to achieve a comprehensive and minimally biased overview of biomass electricity and heat LCAs. We conducted a quantitative analysis of the environmental impact of biomass electricity and heat. There is a significant variability in results of biomass electricity and heat LCAs. Assumptions regarding the bioenergy system and methodological choices are likely reasons for extreme values. The secondary goal of this review is to discuss influencing methodological choices. No general consensus has been reached regarding the optimal functional unit, the ideal allocation of environmental impact between co-products, the definition of the system boundary

  13. Bioenergy Knowledge Discovery Framework (KDF) Fact Sheet

    Energy Technology Data Exchange (ETDEWEB)

    None

    2013-07-29

    The Bioenergy Knowledge Discovery Framework (KDF) is an online collaboration and geospatial analysis tool that allows researchers, policymakers, and investors to explore and engage the latest bioenergy research. This publication describes how the KDF harnesses Web 2.0 and social networking technologies to build a collective knowledge system that facilitates collaborative production, integration, and analysis of bioenergy-related information.

  14. The time aspect of bioenergy. Climate impacts of bioenergy due to differences in carbon uptake rates

    Energy Technology Data Exchange (ETDEWEB)

    Zetterberg, Lars [IVL Swedish Environmental Research Institute, Stockholm (Sweden); Chen, Deliang [Dept. of Earth Sciences, Univ. of Gothenburg, Gothenburg (Sweden)

    2011-07-01

    This paper investigates the climate impacts from bioenergy due to how they influence carbon stocks over time and more specifically how fast combustion related carbon emissions are compensated by uptake of atmospheric carbon. A set of fuel types representing different uptake rates are investigated, namely willow, branches and tops, stumps and coal. Net emissions are defined as emissions from utilizing the fuel minus emissions from a reference case of no utilisation. In the case of forest residues, the compensating 'uptake' is avoided emissions from the reference case of leaving the residues to decompose on the ground. Climate impacts are estimated using the measures radiative forcing and global average surface temperature, which have been calculated by an energy balance climate model. We conclude that there is a climate impact from using bioenergy due to how fast the emission pulse is compensated by uptake of atmospheric carbon (or avoided emissions). Biofuels with slower uptake rates have a stronger climate impact than fuels with a faster uptake rate, assuming all other parameters equal. The time perspective over which the analysis is done is crucial for the climate impact of biofuels. If only biogenic fluxes are considered, our results show that over a 100 year perspective branches and tops are better for climate mitigation than stumps which in turn are better than coal. Over a 20 year time perspective this conclusion holds, but the differences between these fuels are relatively smaller. Establishing willow on earlier crop land may reduce atmospheric carbon, provided new land is available. However, these results are inconclusive since we haven't considered the effects, if needed, of producing the traditional agricultural crops elsewhere. The analysis is not a life cycle assessment of different fuels and does therefore not consider the use of fossil fuels for logging, transportation and refining, other greenhouse gases than carbon or energy

  15. Coal -98

    International Nuclear Information System (INIS)

    Sparre, C.

    1998-01-01

    The following report deals with the use of coal and coke during 1997. Some information about technic, environmental questions and markets are also given. Data have been collected by questionnaires to major users and by telephone to minor users. Preliminary statistical data from SCB have also been used. The use of steam coal for heating purposes during 1997 was 730 000 tons and about 500 000 tons lower than in 1996. The extremely high figures of 1996 were due to twice the production of electricity because of lack of hydro power. The co-generation plants were the main users of coal. The minor plants have increased their use of forest fuels. Probably the use of steam coal will go down in the immediate years both in the heat generating and the co-generating plants. Some foreign analysts, however, estimate a doubled use of coal for energy use after 2020 because of the plans to phase out the nuclear power. During the top year 1987 coal was used in 18 hot water plants and 11 co-generation plants. 1997 these figures are 2 and 8. Taxes and environmental reasons explain this trend. The use of steam coal in the industry has been constant at the level 700 000 tons. This level is supposed to be constant or to vary with business cycles. The import of metallurgical coal in 1997 was 1.6 mill tons like the year before. 1.2 mill tons coke were produced. The coke consumption in the industry was 1.5 Mill tons. 0.3 mill tons of coke were imported. Several other plants have plans to replace the coal with forest fuels, waste fuels and NG. Even the biggest plant, Vaesteraas, has plans to build a block for bio fuels. Helsingborg has started to use wood pellets. The pellets replace most of the coal for the heat production in the co-generation plant. Norrkoeping Kraft AB has taken a fluid bed boiler for different fuels in operation, leading to more than half the coal consumption compared with previous years. They have also rebuilt one of their travelling grates for bio fuels. Stockholm

  16. Sustainability constraints on UK bioenergy development

    International Nuclear Information System (INIS)

    Thornley, Patricia; Upham, Paul; Tomei, Julia

    2009-01-01

    Use of bioenergy as a renewable resource is increasing in many parts of the world and can generate significant environmental, economic and social benefits if managed with due regard to sustainability constraints. This work reviews the environmental, social and economic constraints on key feedstocks for UK heat, power and transport fuel. Key sustainability constraints include greenhouse gas savings achieved for different fuels, land availability, air quality impacts and facility siting. Applying those constraints, we estimate that existing technologies would facilitate a sustainability constrained level of medium-term bioenergy/biofuel supply to the UK of 4.9% of total energy demand, broken down into 4.3% of heat demands, 4.3% of electricity, and 5.8% of transport fuel. This suggests that attempts to increase the supply above these levels could have counterproductive sustainability impacts in the absence of compensating technology developments or identification of additional resources. The barriers that currently prevent this level of supply being achieved have been analysed and classified. This suggests that the biggest policy impacts would be in stimulating the market for heat demand in rural areas, supporting feedstock prices in a manner that incentivised efficient use/maximum greenhouse gas savings and targeting investment capital that improves yield and reduces land-take. (author)

  17. Use of bioenergy in the Baltic Sea region. Conference proceedings

    Energy Technology Data Exchange (ETDEWEB)

    Barz, M.; Ahlhaus, M. (eds.)

    2006-07-01

    The actual situation in our world can shortly be characterized by growing population and increasing energy demand, mainly covered by fossil fuels. This results in environmental as well as climate change problems. Renewable energies offer many opportunities to overcome these problems - they can provide heat and electricity as well as automotive fuels in environmentally friendly systems and thus contribute to lower the fossil fuels dependency. Biomass as the oldest renewable energy of mankind is still playing a dominant role as an energy carrier in some African and Asian regions, where biofuels are still used in traditional ways - mainly for cooking. On the other hand biomass has a huge potential to become a more important energy resource even in industrialized countries. All over the world the opportunities of biomass are accepted and biomass has become a common term in politics resulting in new strategic analyses, political documents, legislative actions and funding programs. A lot of modern and new high-tech solutions for bioenergy systems are already developed and others are under research. Aims of the actual developments are new bioenergy systems on the basis of regional biomass potentials in rural regions. The Baltic Sea Region offers a high potential to produce biofuels for different applications to fit the growing demand of heat, electricity and fuels. In combination with its industry and engineering skills the Baltic Sea Region is predestinated as a nucleus for further development and demonstration of advanced bioenergy solutions. In the result of the conference ''Contribution of Agriculture to Energy Production'', held in Tallinn, Estonia in October 2005 representatives from policy, economy and science identified a high potential and demand for bioenergy solutions and realized the necessity of establishment of an international network (Baltic Bioenergy Net - BaBEt) for information and know-how transfer between the Baltic States to foster

  18. Proceedings of the CANBIO workshop on Canadian bioenergy : export markets vs. domestic business opportunities

    International Nuclear Information System (INIS)

    2006-01-01

    While there is a strong European demand for bioenergy products such as wood pellets, Canadian bioenergy markets remain relatively subdued. Organized by the Canadian Bioenergy Association, this workshop explored various national and international development opportunities for wood residue and bioenergy products. BioOil markets in Europe were considered as a potential market for Canadian bioenergy products. Various European and Canadian incentive programs and research initiatives were outlined. New technologies in bioenergy refinement practices were explored and new development in syngas production techniques were introduced. It was suggested that district heating programs and gasification fuels may provide new domestic markets for bioenergy products. Resource opportunities in the electricity sector were evaluated, and wood residue production trends in Canada were examined. It was noted that the mountain pine beetle (MPB) infestation in British Columbia (BC) has increased wood residue production surpluses in the province, which has resulted in increased sawmill activity. Sixteen presentations were given at this workshop, 4 of which were catalogued separately for inclusion in this database. refs., tabs., figs

  19. Networking to build a world-class bioenergy industry in British Columbia

    Energy Technology Data Exchange (ETDEWEB)

    Weedon, M. [BC Bioenergy Network, Vancouver, BC (Canada)

    2009-07-01

    This presentation described the role of the BC Bioenergy Network and its goal of maximizing the value of biomass resources in British Columbia (BC) and developing a world-class bioenergy industry in the province. Established in March 2008 with $25 million in funding from the BC government, the BC Bioenergy Network is an industry-led association that promotes the development of near-term bioenergy technologies and demonstration of new bioenergy technologies that are environmentally appropriate for the province of BC. The following technology areas require funding support: solid wood residues, pulp and paper residues, harvesting and pelleting, agriculture residues, municipal wastewater, municipal landfill waste, municipal solid waste, and community heating-electricity greenhouse systems. This presentation demonstrated that BC is well positioned to become a major player in the global bioenergy sector, as it has one of the largest forested areas in the world, and is a leader in biomass to value-added wood products. The opportunities, challenges, and requirements to build a world class bioenergy industry in British Columbia were discussed along with successful Canadian, US, and European collaborations with industry, research, and government. tabs., figs.

  20. Bioenergy research advances and applications

    CERN Document Server

    Gupta, Vijai G; Kubicek, Christian P; Saddler, Jack; Xu, Feng

    2014-01-01

    Bioenergy Research: Advances and Applications brings biology and engineering together to address the challenges of future energy needs. The book consolidates the most recent research on current technologies, concepts, and commercial developments in various types of widely used biofuels and integrated biorefineries, across the disciplines of biochemistry, biotechnology, phytology, and microbiology. All the chapters in the book are derived from international scientific experts in their respective research areas. They provide you with clear and concise information on both standard and more recent bioenergy production methods, including hydrolysis and microbial fermentation. Chapters are also designed to facilitate early stage researchers, and enables you to easily grasp the concepts, methodologies and application of bioenergy technologies. Each chapter in the book describes the merits and drawbacks of each technology as well as its usefulness. The book provides information on recent approaches to graduates, post...

  1. Recent developments in microbial fuel cell technologies for sustainable bioenergy.

    Science.gov (United States)

    Watanabe, Kazuya

    2008-12-01

    Microbial fuel cells (MFCs) are devices that exploit microbial catabolic activities to generate electricity from a variety of materials, including complex organic waste and renewable biomass. These sources provide MFCs with a great advantage over chemical fuel cells that can utilize only purified reactive fuels (e.g., hydrogen). A developing primary application of MFCs is its use in the production of sustainable bioenergy, e.g., organic waste treatment coupled with electricity generation, although further technical developments are necessary for its practical use. In this article, recent advances in MFC technologies that can become fundamentals for future practical MFC developments are summarized. Results of recent studies suggest that MFCs will be of practical use in the near future and will become a preferred option among sustainable bioenergy processes.

  2. Coal 95

    International Nuclear Information System (INIS)

    Sparre, C.

    1995-01-01

    The report deals with the use of coal and coke in Sweden during 1994. Some information about technology, environmental questions and markets are also given. Data have been collected by questionnaires to major users and by telephone to minor users. Preliminary statistical data from Statistics Sweden have also been used.The use of steam coal for heating purposes has been unchanged during 1994 at a level of 1 Mtons. The production in the cogeneration plants has been constant, but has increased for electricity production. The minor plants have increased their use of forest fuels. The use of steam coal will probably go down in the next years both for heat and cogeneration plants. During the top year 1987 coal was used in 18 hot water and 11 cogeneration plants. 1994 these figures are 3 and 12. Taxes and environmental reasons explain this trend. The use of steam coal in industry has been constant at the level 0.7 Mtons. The import of metallurgical coal in 1993 was 1.6 Mtons, like 1992. Import of 0.3 Mtons of coke gives the total consumption of coke in industry as 1.5 Mtons. the average price of steam coal imported to Sweden was 317 SEK/ton, 3% higher than 1993. All Swedish plants meet their emission limit of dust, SO 2 and NO x as given by county administrations or concession boards. The cogeneration plants all have some SO 2 removal system. The biggest cogeneration plant (Vaesteraas) has recently invested in a SCR NO x cleaning system. Most other plants use low NO x burners or SNR injection systems based on ammonia or urea. 2 figs, 13 tabs

  3. CHALLENGES AND OPPORTUNITIES FOR EMISSION REDUCTIONS FROM THE COAL-FIRED POWER SECTOR IN GROWING ECONOMIES: THE CASE OF COAL-FIRED ELECTRIC UTILITY PLANTS IN RUSSIA

    Science.gov (United States)

    China, Russia and India together contribute over one-fourth of the total global greenhouse gas emissions from the combustion of fossil-fuels. This paper focuses on the Russian coal-fired power sector, and identifies potential opportunities for reducing emissions. The Russian powe...

  4. Impacts on human health from the coal and nuclear fuel cycles and other technologies associated with electric power generation and transmission

    International Nuclear Information System (INIS)

    Radford, E.P.

    1980-07-01

    The report evaluates major public health impacts of electric power generation and transmission associated with the nuclear fuel cycle and with coal use. Only existing technology is evaluated. For the nuclear cycle, effects of future use of fuel reprocessing and long-term radioactive waste disposal are briefly considered. The health effects of concern are those leading to definable human disease and injury. Health effects are scaled to numbers of persons and activities associated with a nominal 1000-megawatt electric plant fueled by either option. Comparison of the total health effects to the general public shows that the health risks from the coal cycle are about 50 times greater than for the nuclear cycle (coal, 0.7-3.7 major health effects per 1000 MWe per year; nuclear, 0.03-0.05 per 1000 MWe per year). For workers, these rates are higher. No evidence is found that electrical transmission contributes any health effects to the general public, except when broken power lines come in contact with people

  5. The power vacuum: the effect of the electricity power crisis on GDP in South Africa in the context of an uncertain coal supply.

    Energy Technology Data Exchange (ETDEWEB)

    Sorensen, P. [Freyaafdrammen (South Africa)

    2011-07-01

    In 1988 the South African government released a white paper advocating an increased electricity supply to meet social obligations. Large sectors of the rural population in South Africa were not electrified. The National Electrification Program (NEP) was launched in 1994 to wipe out the electrification backlog by 2012. The target of the first phase of NEP was achieved. By 2003, a basic 50kWh electricity per month was supplied free of charge, due to the poverty of the population. In 1996, the GEAR (Growth, Employment and Redistribution) strategy was introduced to generate 6% GDP growth, create 400,000 new jobs each year and increase foreign investment. But the race for GDP growth could result in high electricity consumption and frequent interruptions, particularly in energy-intensive industries which had been introduced in South Africa. The national coal production rate has been reached and surpassed its peak, leading to the end of the cheap coal era in South Africa but more expensive coal could slow down industrial development.

  6. Economic aspects of ecological risk due to nuclear and coal-fired electricity production (general comparison, related to the USSR)

    International Nuclear Information System (INIS)

    Novikov, V.; Wahlstroem, B.; Demin, V.; Lebedev, O.; Ignatiyev, V.

    1991-05-01

    The content of this paper is reflected in the chapter headings: (1) Introduction (2) Environmental problems relating to the coal-fired power plants (3) Costs of environmental protection for coal-fired power plants (4) Comparison of economic efficiency of nuclear and coal-fired power plants (5) Cost of environmental protection for normal operation of a nuclear power plant and its fuel facilities (6) Accidental risk from off-reactor nuclear fuel cycle facilities (7) Conclusion. (Quittner)

  7. Determination of leveled costs of electric generation for gas plants, coal and nuclear; Determinacion de costos nivelados de generacion electrica para plantas de gas, carbon y nucleares

    Energy Technology Data Exchange (ETDEWEB)

    Alonso V, G.; Palacios H, J.C.; Ramirez S, J.R.; Gomez, A. [ININ, 52045 Ocoyoacac, Estado de Mexico (Mexico)]. e-mail: galonso@nuclear.inin.mx

    2005-07-01

    The present work analyzes the leveled costs of electric generation for different types of nuclear reactors known as Generation III, these costs are compared with the leveled costs of electric generation of plants with the help of natural gas and coal. In the study several discount rates were used to determine their impact in the initial investment. The obtained results are comparable with similar studies and they show that it has more than enough the base of the leveled cost the nuclear option it is quite competitive in Mexico. Also in this study it is also thinks about the economic viability of a new nuclear power station in Mexico. (Author)

  8. Analysis of thermal coal pricing and the coal price distortion in China from the perspective of market forces

    International Nuclear Information System (INIS)

    Cui, Herui; Wei, Pengbang

    2017-01-01

    The price of thermal coal has always been the focus of the debate between coal mining industry and electric power industry. The thermal coal price is always lower than other same quality coal, and this phenomenon of thermal coal price distortion has been existing in China for a long time. The distortion coal price can not reflect the external cost and the resource scarcity of coal, which could result in environment deteriorating and inefficient resource allocation. This paper studied the phenomenon of thermal coal price distortion through economic theoretical modeling and empirical cointegration analysis from the perspective of market forces. The results show that thermal coal price is determined by electricity price, the prediction elasticity of a electricity enterprise, price elasticity of demand of electricity, the input prediction elasticity of a electricity enterprise and the price elasticity of supply of thermal coal. The main reason of coal price distortion is the unbalance market force of coal industry and thermal coal generation industry. The distortion rate of coal price is positively related to the market force of electric power industry and negatively related to the industrial concentration of coal industry. - Highlights: • This paper studied thermal coal pricing and the coal price distortion in China. • The main reason of coal price distortion is the unbalance market force. • Thermal coal price is also influenced by electricity price and price elasticity of demand of electricity. • The distortion rate of coal price is negatively related to the industrial concentration of coal industry.

  9. Biomass production on marginal lands - catalogue of bioenergy crops

    Science.gov (United States)

    Baumgarten, Wibke; Ivanina, Vadym; Hanzhenko, Oleksandr

    2017-04-01

    Marginal lands are the poorest type of land, with various limitations for traditional agriculture. However, they can be used for biomass production for bioenergy based on perennial plants or trees. The main advantage of biomass as an energy source compared to fossil fuels is the positive influence on the global carbon dioxide balance in the atmosphere. During combustion of biofuels, less carbon dioxide is emitted than is absorbed by plants during photosynthesis. Besides, 20 to 30 times less sulphur oxide and 3 to 4 times less ash is formed as compared with coal. Growing bioenergy crops creates additional workplaces in rural areas. Soil and climatic conditions of most European regions are suitable for growing perennial energy crops that are capable of rapid transforming solar energy into energy-intensive biomass. Selcted plants are not demanding for soil fertility, do not require a significant amount of fertilizers and pesticides and can be cultivated, therefore, also on unproductive lands of Europe. They prevent soil erosion, contribute to the preservation and improvement of agroecosystems and provide low-cost biomass. A catalogue of potential bioenergy plants was developed within the EU H2020 project SEEMLA including woody and perennial crops that are allowed to be grown in the territory of the EU and Ukraine. The catalogue lists high-productive woody and perennial crops that are not demanding to the conditions of growing and can guarantee stable high yields of high-energy-capacity biomass on marginal lands of various categories of marginality. Biomass of perennials plants and trees is composed of cellulose, hemicellulose and lignin, which are directly used to produce solid biofuels. Thanks to the well-developed root system of trees and perennial plants, they are better adapted to poor soils and do not require careful maintenance. Therefore, they can be grown on marginal lands. Particular C4 bioenergy crops are well adapted to a lack of moisture and high

  10. Moderne bioenergi har store muligheder

    DEFF Research Database (Denmark)

    Larsen, Hans Hvidtfeldt; Kossmann, J.; Sønderberg Petersen, L.

    2003-01-01

    Bioenergi er energi, der stammer fra vedvarende kilder af biologisk oprindelse. Normalt bruges energiafgrøder dyrket specielt til formålet, eller biprodukter fra landbrug, skovbrug eller fiskeri. Eksempler på bioenergikilder er træbrændsel, bagasse(udpressede sukkerrør), organisk affald, biogas og...

  11. IEA bioenergy annual report 1995

    International Nuclear Information System (INIS)

    1996-01-01

    The report describes the organization and the results of the recently completed and the ongoing tasks. Ongoing tasks 1995 were: Biomass Production, Harvesting and Supply (Task XII); Biomass Utilization (Task XIII); Energy Recovery from Municipal Waste (Task XIV) and Greenhouse Gas Balances of Bioenergy Systems (Task XV). Lists of publications from the different tasks are given. 151 refs

  12. IEA Bioenergy. Annual report 1996

    International Nuclear Information System (INIS)

    1997-01-01

    The report describes the organization and the results of the recently completed and the ongoing tasks. Ongoing tasks 1995 were: Biomass Production, Harvesting and Supply (Task XII); Biomass Utilization (Task XIII); Energy Recovery from Municipal Waste (Task XIV) and Greenhouse Gas Balances of Bioenergy Systems (Task XV). Lists of publications from the different tasks are given

  13. Assessment of renewable bioenergy application

    DEFF Research Database (Denmark)

    Kronborg Jensen, Jesper; Govindan, Kannan

    2014-01-01

    into biogas. In order to validate the proposed options of bioenergy application, we considered a food processing company in Denmark as a case company in a single in-depth case study. In the case studied, the produced biogas is to be utilized in one of two options at a bakery site: To substitute natural gas...

  14. IEA bioenergy annual report 1995

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1996-06-01

    The report describes the organization and the results of the recently completed and the ongoing tasks. Ongoing tasks 1995 were: Biomass Production, Harvesting and Supply (Task XII); Biomass Utilization (Task XIII); Energy Recovery from Municipal Waste (Task XIV) and Greenhouse Gas Balances of Bioenergy Systems (Task XV). Lists of publications from the different tasks are given. 151 refs

  15. Feasibility study: comparison of coal- and nuclear-fueled alternatives for process steam and by product electrical power generation for the E. I. Du Pont de Nemours and Company, Incorporated Plant Site, Victoria, Texas

    Energy Technology Data Exchange (ETDEWEB)

    1978-07-01

    The purpose of the study was to evaluate the technical and economic feasibility of a small, (365 MWt) nuclear reactor for supplying process steam and electricity as a replacement for energy sources using increasingly scarce natural gas or oil. The Du Pont Chemical Plant Site at Victoria, Texas, was chosen as representative of industrial installations that require sizeable amounts of process steam and electricity. For comparison purposes conventional coal-fired boilers were also evaluated. It was determined that both nuclear- and coal-based process energy supply systems are technically feasible. For the specific steam/electricity demands at the reference site, the coal-fired plant proved to be economically more attractive than the nuclear units. For an application requiring a base-loaded supply of saturated steam, utilizing full reactor capacity, the nuclear option appears competitive for coal costing $37/ton in 1978 dollars.

  16. Feasibility study: comparison of coal- and nuclear-fueled alternatives for process steam and by product electrical power generation for the PPG Industries, Incorporated Plant Site, Lake Charles, Louisiana

    Energy Technology Data Exchange (ETDEWEB)

    1978-07-01

    The purpose of the study was to evaluate the technical and economic feasibility of a small, (365 MWt) nuclear reactor for supplying process steam and electricity as a replacement for energy sources using increasingly scarce natural gas or oil. The PPG Industries, Incorporated Plant Site at Lake Charles, Louisiana, was chosen as representative of industrial installations that require sizeable amounts of process steam and electricity. For comparison purposes conventional coal-fired boilers were also evaluated. It was determined that both nuclear- and coal-based process energy supply systems are technically feasible. For the specific steam/electricity demands at the reference site, the coal-fired plant proved to be economically more attractive than the nuclear units. For an application requiring a base-loaded supply of saturated steam, utilizing full reactor capacity, the nuclear option appears competitive for coal costing $40/ton in 1978 dollars.

  17. The renaissance of coal

    International Nuclear Information System (INIS)

    Schernikau, Lars

    2013-01-01

    There is hardly another energy resource where public opinion and reality lie as far apart as they do for coal. Many think of coal as an inefficient relic from the era of industrialisation. However, such views underestimate the significance of this energy resource both nationally and globally. In terms of global primary energy consumption coal ranks second behind crude oil, which plays a central role in the energy sector. Since global electricity use is due to rise further, coal, being the only energy resource that can meet a growing electricity demand over decades, stands at the beginning of a renaissance, and does so also in the minds of the political leadership. Coal is indispensable as a bridging technology until the electricity demand of the world population can be met primarily through renewable resources.

  18. Long-term energy and climate implications of carbon capture and storage deployment strategies in the US coal-fired electricity fleet.

    Science.gov (United States)

    Sathre, Roger; Masanet, Eric

    2012-09-04

    To understand the long-term energy and climate implications of different implementation strategies for carbon capture and storage (CCS) in the US coal-fired electricity fleet, we integrate three analytical elements: scenario projection of energy supply systems, temporally explicit life cycle modeling, and time-dependent calculation of radiative forcing. Assuming continued large-scale use of coal for electricity generation, we find that aggressive implementation of CCS could reduce cumulative greenhouse gas emissions (CO(2), CH(4), and N(2)O) from the US coal-fired power fleet through 2100 by 37-58%. Cumulative radiative forcing through 2100 would be reduced by only 24-46%, due to the front-loaded time profile of the emissions and the long atmospheric residence time of CO(2). The efficiency of energy conversion and carbon capture technologies strongly affects the amount of primary energy used but has little effect on greenhouse gas emissions or radiative forcing. Delaying implementation of CCS deployment significantly increases long-term radiative forcing. This study highlights the time-dynamic nature of potential climate benefits and energy costs of different CCS deployment pathways and identifies opportunities and constraints of successful CCS implementation.

  19. Bioenergy Development in Russia. Comparison of the North-West of Russia and Finland.

    Energy Technology Data Exchange (ETDEWEB)

    Rakitova, Olga (National Bioenergy Union, Saint-Petersburg, 197183 (Russian Federation)). e-mail: rakitova@newc.ru; Mutanen, Keijo (Joensuu Regional Development Company JOSEK Ltd, FIN-80110 Joensuu (Finland)). e-mail: keijo.mutanen@josek.fi

    2008-10-15

    Russia owns the largest natural gas, the second largest coal and the third largest oil reserves in the world. Russia is the third largest energy user and the largest producer of oil and gas in the world. Export of oil and gas plays a major role in the economic development of the whole Russia. Wood harvesting and processing industry responds only 4,4 % of the industrial production although Russia owns 23 % of the world's forest resources. Biomass represents only 1 % of the total energy consumption including residential use but hydro power represents about 18 % of Russia's electricity generation. Russia needs three times more energy to produce one unit of GDP than e.g. EU. This indicates very poor energy efficiency and poor conditions of the energy and the whole infrastructure as well. Simultaneously the prices of fossil fuels and electricity are heavily subsidized. These basic figures give on idea why utilization of renewable energy and especially biomass play a minor role in Russian energy system. One of the most progressive regions in bioenergy is the Northwest of Russia. The first pellet and briquette plants were installed in this region a few years ago. The region can be regarded as the forerunner in bioenergy in Russia. Federal Region of Northwest Russia consists of City of St.Petersburg, Republics of Karelia and Komi and regions of Leningrad, Arkhangelsk, Kaliningrad, Murmansk, Nenetsk, Novgorod, Pskov and Vologda. The region has 15 million inhabitants and a 2200 km long joint border with the EU, most of that with Finland. N-W Russia owns over 14000 million m3 of raw wood that represents 17 % of Russian forests and 60 % of the forests located in the European side. Potential for annual harvesting is over 100 million m3 while harvesting is about 45 million m3. Most of that is exported as a form of raw wood. Wood represents only 2,8 % of the region's energy use including residential usage. Use of peat is marginal representing only 0,1 % of the

  20. Planning for Increased Bioenergy use - Strategies for Minimising Environmental Impacts and Analysing the Consequences

    International Nuclear Information System (INIS)

    Jonsson, Anna

    2006-08-01

    There are several goals aimed at increasing the use of renewable energy in the Swedish energy system. Bioenergy is one important renewable energy source and there is a potential to increase its use in the future. This thesis aimed to develop and analyse strategies and tools that could be used when planning for conversion to bioenergy-based heating systems and the building of new residential areas with bioenergy-based heating. The goal was to enable the increase of bioenergy and simultaneously minimise the negative health effects caused by emissions associated with the combustion of bioenergy. The thesis consists of two papers. Paper I concerned existing residential areas and conversion from electric heating and individual heating systems, such as firewood and oil boilers, to more modern and low-emitting pellet techniques and small-scale district heating. Paper II concerned new residential areas and how to integrate bioenergy-based heating systems that cause impacts on local air quality into the physical planning process through using Geographical Information Systems (GIS) and a meteorological dispersion model, ALARM. The results from Paper I indicated that it was possible to convert areas currently using electric heating to pellet techniques and small-scale district heating without degrading local air quality. Furthermore, it was possible to decrease high emissions caused by firewood boilers by replacing them with pellet boilers. The results from Paper II highlighted that GIS and ALARM were advantageous for analysing local air quality characteristics when planning for new residential areas and before a residential area is built: thus, avoiding negative impacts caused by bioenergy-based combustion. In conclusion, the work procedures developed in this thesis can be used to counteract negative impacts on local air quality with increasing use of bioenergy in the heating system. Analysis of potentially negative aspects before conversion to bioenergy-based heating

  1. Can switching fuels save water? A life cycle quantification of freshwater consumption for Texas coal- and natural gas-fired electricity

    International Nuclear Information System (INIS)

    Grubert, Emily A; Beach, Fred C; Webber, Michael E

    2012-01-01

    Thermal electricity generation is a major consumer of freshwater for cooling, fuel extraction and air emissions controls, but the life cycle water impacts of different fossil fuel cycles are not well understood. Much of the existing literature relies on decades-old estimates for water intensity, particularly regarding water consumed for fuel extraction. This work uses contemporary data from specific resource basins and power plants in Texas to evaluate water intensity at three major stages of coal and natural gas fuel cycles: fuel extraction, power plant cooling and power plant emissions controls. In particular, the water intensity of fuel extraction is quantified for Texas lignite, conventional natural gas and 11 unconventional natural gas basins in Texas, including major second-order impacts associated with multi-stage hydraulic fracturing. Despite the rise of this water-intensive natural gas extraction method, natural gas extraction appears to consume less freshwater than coal per unit of energy extracted in Texas because of the high water intensity of Texas lignite extraction. This work uses new resource basin and power plant level water intensity data to estimate the potential effects of coal to natural gas fuel switching in Texas’ power sector, a shift under consideration due to potential environmental benefits and very low natural gas prices. Replacing Texas’ coal-fired power plants with natural gas combined cycle plants (NGCCs) would reduce annual freshwater consumption in the state by an estimated 53 billion gallons per year, or 60% of Texas coal power’s water footprint, largely due to the higher efficiency of NGCCs. (letter)

  2. Preliminary assessment of the health and environmental impacts of fluidized-bed combustion of coal as applied to electrical utility systems

    Energy Technology Data Exchange (ETDEWEB)

    None

    1977-02-01

    The objective of this study was to assess the health and environmental impacts of fluidized-bed combustion of coal (FBC), specifically as applied to base-load generation of electrical energy by utilities. The public health impacts of Fluidized-Bed Combustion (FBC) plants are expected to be quite similar to those for Low Sulfur Coal (LSC) and Flue Gas Desulfurization (FGD) plants because all appear to be able to meet Federal emission standards; however, there are emissions not covered by standards. Hydrocarbon emissions are higher and trace element emissions are lower for FBC than for conventional technologies. For FBC, based on an analytical model and a single emission data point, the polycyclic organic material decreases the anticipated lifespan of the highly exposed public very slightly. Added health protection due to lower trace element emissions is not known. Although there is a large quantity of solid wastes from the generating plant, the environmental impact of the FBC technology due to solid residue appears lower than for FGD, where sludge management requires larger land areas and presents problems due to the environmentally noxious calcium sulfite in the waste. Fixing the sludge may become a requirement that increases the cost of wet-limestone FGD but makes that system more acceptable. The potential for aquatic or terrestrial impacts from hydrocarbon emissions is low. If application of AFBC technology increases the use of local high-sulfur coals to the detriment of western low-sulfur coal, a sociological benefit could accrue to the FBC (or FGD) technology, because impacts caused by western boom towns would decrease. The infrastructure of areas that mine high-sulfur coal in the Midwest are better equipped to handle increased mining than the West.

  3. Strategy for increased development of bio-energy; Strategi for oekt utbygging av bioenergi

    Energy Technology Data Exchange (ETDEWEB)

    2008-04-15

    The goal for the bio-energy strategy is to secure goal-oriented and coordinated effort towards increased development of bio-energy by 14 TWh within 2020. The increase in development of bio-energy is important because it reduces greenhouse gases, contribute to industrial and commercial development and strengthen the reliability of energy supply

  4. Bioenergy. The manifold renewable energy. 4. compl. rev. ed.; Bioenergie. Die vielfaeltige erneuerbare Energie

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2012-06-15

    Bioenergy is the most important renewable energy source in Germany. With about 70 percent bioenergy contributes to the largest share of energy supply from renewable energy sources. This brochure provides an overview of the various possibilities, advantages and opportunities in the use of biomass and bioenergy.

  5. Bioenergy Knowledge Discovery Framework Fact Sheet

    Energy Technology Data Exchange (ETDEWEB)

    None

    2017-07-01

    The Bioenergy Knowledge Discovery Framework (KDF) supports the development of a sustainable bioenergy industry by providing access to a variety of data sets, publications, and collaboration and mapping tools that support bioenergy research, analysis, and decision making. In the KDF, users can search for information, contribute data, and use the tools and map interface to synthesize, analyze, and visualize information in a spatially integrated manner.

  6. Electricity generation of Maritsa-Iztok coal-fired power plant in Bulgaria and its complex impact on the environment

    International Nuclear Information System (INIS)

    Mitrikov, M.; Antonov, A.; Hristov, Hr.

    2001-01-01

    Soil, water and vegetable samples from the region of Maritsa-Iztok Coal-Fired Power Plants (CFPP) in Bulgaria have been studied using a large variety of methods for analysis: γ- and neutron activation analysis, γ-spectrometry, radiometry, mass- spectrometry, physicochemical analysis, soil sciences study. Detailed information about the concentration of ecologically important elements in the chain coal bottom ash, fly ashes environment (soil, water, air, vegetation) has been obtained, allowing to estimate the present ecological state of the region. (author)

  7. Coal geopolitics

    International Nuclear Information System (INIS)

    Giraud, P.N.; Suissa, A.; Coiffard, J.; Cretin, D.

    1991-01-01

    This book divided into seven chapters, describes coal economic cycle. Chapter one: coals definition; the principle characteristics and properties (origin, calorific power, international classification...) Chapter two: the international coal cycle: coal mining, exploration, coal reserves estimation, coal handling coal industry and environmental impacts. Chapter three: the world coal reserves. Chapter four: the consumptions, productions and trade. Chapter five: the international coal market (exporting mining companies; importing companies; distributors and spot market operators) chapter six: the international coal trade chapter seven: the coal price formation. 234 refs.; 94 figs. and tabs [fr

  8. Correcting a fundamental error in greenhouse gas accounting related to bioenergy

    DEFF Research Database (Denmark)

    Haberl, Helmut; Sprinz, Detlef; Bonazountas, Marc

    2012-01-01

    already requires the dedication of roughly 75% of vegetated lands and more than 70% of water withdrawals. However, burning biomass for energy provision increases the amount of carbon in the air just like burning coal, oil or gas if harvesting the biomass decreases the amount of carbon stored in plants...... emissions. Failure to correct this accounting flaw will likely have substantial adverse consequences. The article presents recommendations for correcting greenhouse gas accounts related to bioenergy....

  9. IEA Bioenergy. Annual report 1997

    International Nuclear Information System (INIS)

    1997-01-01

    The report describes the organization and the results of recently completed and ongoing tasks. Ongoing tasks in 1997 were: Biomass Production, Harvesting and Supply (Task XII); Biomass Utilization (Task XIII); Energy Recovery from Municipal Solid Waste (Task XIV); Greenhouse Gas Balances of Bioenergy Systems (Task XV); and Technology Assessment Studies for the Conversion of Cellulosic Materials to Ethanol in Sweden (Task XVI). Lists of publications from the different tasks are given

  10. IEA Bioenergy. Annual report 1997

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1997-12-31

    The report describes the organization and the results of recently completed and ongoing tasks. Ongoing tasks in 1997 were: Biomass Production, Harvesting and Supply (Task XII); Biomass Utilization (Task XIII); Energy Recovery from Municipal Solid Waste (Task XIV); Greenhouse Gas Balances of Bioenergy Systems (Task XV); and Technology Assessment Studies for the Conversion of Cellulosic Materials to Ethanol in Sweden (Task XVI). Lists of publications from the different tasks are given

  11. Trace elements in coal ash

    Science.gov (United States)

    Deonarine, Amrika; Kolker, Allan; Doughten, Michael W.

    2015-01-01

    Coal ash is a residual waste product primarily produced by coal combustion for electric power generation. Coal ash includes fly ash, bottom ash, and flue-gas desulfurization products (at powerplants equipped with flue-gas desulfurization systems). Fly ash, the most common form of coal ash, is used in a range of products, especially construction materials. A new Environmental Protection Agency ruling upholds designation of coal ash as a non-hazardous waste under Subtitle D of the Resource Conservation and Recovery Act, allowing for the continued beneficial use of coal ash and also designating procedures and requirements for its storage.

  12. Bioenergy Status Document 2011; Statusdocument Bio-energie 2011

    Energy Technology Data Exchange (ETDEWEB)

    Bles, M.; Schepers, B.; Van Grinsven, A.; Bergsma, G.

    2011-03-15

    The Dutch status document on bio-energy has been updated with data for the year 2011. This document provides an overview of the amount of energy derived from biomass, a description of the current bio-energy policy framework and a discussion of the extent to which the Netherlands is on track for securing European renewable energy targets. The status document shows there has been a slight increase in the share of bio-energy in overall energy consumption as well as in the total amount of renewable energy generated (which now stands at a little over 4% of gross final consumption). The question, however, is whether this growth is sufficient to meet the European target of 14% renewables in 2020. The limited growth is due partly to the decrease in the amount of energy generated in the category 'other incineration'. In addition, there was a decline in the physical delivery of transport biofuels because certain types of fuel can be 'double-counted' in the records, although they do not contribute to the 14% target. This document provides an overview of the amount of energy derived from biomass, a description of the current bio-energy policy framework and a discussion of the extent to which the Netherlands is on track for securing European renewable energy targets [Dutch] Het statusdocument bio-energie 2011 geeft de huidige status weer van bioenergie in Nederland, inclusief trends en verwachtingen voor de toekomst. Het doel van dit document is inzicht verstrekken aan overheden en marktpartijen in de ontwikkelingen van bio-energie. De kabinetsdoelstellingen voor hernieuwbare energie zijn conform de doelstellingen uit de richtlijn voor hernieuwbare energie (2009/28/EG), die is vastgesteld door de EC. In 2020 moet 14% van het nationale bruto finaal eindgebruik afkomstig zijn van hernieuwbare bronnen, de Nederlandse overheid schat dat dat overeenkomt met 300 PJ. Naar schatting is in 2011 ongeveer 88 PJ aan hernieuwbare energie geproduceerd, ongeveer evenveel

  13. The shell coal gasification process

    Energy Technology Data Exchange (ETDEWEB)

    Koenders, L.O.M.; Zuideveld, P.O. [Shell Internationale Petroleum Maatschappij B.V., The Hague (Netherlands)

    1995-12-01

    Future Integrated Coal Gasification Combined Cycle (ICGCC) power plants will have superior environmental performance and efficiency. The Shell Coal Gasification Process (SCGP) is a clean coal technology, which can convert a wide range of coals into clean syngas for high efficiency electricity generation in an ICGCC plant. SCGP flexibility has been demonstrated for high-rank bituminous coals to low rank lignites and petroleum coke, and the process is well suited for combined cycle power generation, resulting in efficiencies of 42 to 46% (LHV), depending on choice of coal and gas turbine efficiency. In the Netherlands, a 250 MWe coal gasification combined cycle plant based on Shell technology has been built by Demkolec, a development partnership of the Dutch Electricity Generating Board (N.V. Sep). The construction of the unit was completed end 1993 and is now followed by start-up and a 3 year demonstration period, after that the plant will be part of the Dutch electricity generating system.

  14. 29 CFR 779.357 - May qualify as exempt 13(a)(2) establishments; classification of coal sales.

    Science.gov (United States)

    2010-07-01

    ... principal raw material, such as sales of coal for the production of coke, coal gas, coal tar, or electricity... production of coke, coal gas, coal tar, or electricity. This is distinguished from sales of coal for use in...; classification of coal sales. 779.357 Section 779.357 Labor Regulations Relating to Labor (Continued) WAGE AND...

  15. World perspectives of petroleum, gas, coal and electric power demand per sectors 2003-2004: 52 countries and the world in 5 regions

    International Nuclear Information System (INIS)

    2003-09-01

    Taking into account the economic growth of international organizations, the world demand of petroleum would increase of 1,2 % in 2003 and this rhythm would grow in 2004 (2%). The gas demand increase, begun in 2002 would continue in 2003 and 2004. In other hands the electric power and coal consumption would decrease in 2003 and stabilize in 2004. These evolutions are presented and illustrated by data for the five following areas: west Europe, East and CEI Europe, America, Asia and Oceania, Africa and Middle East. (A.L.B.)

  16. Bioenergy as a Mitigation Measure

    Science.gov (United States)

    Dass, P.; Brovkin, V.; Müller, C.; Cramer, W.

    2011-12-01

    Numerous studies have shown that bioenergy, being one of the renewable energies with the lowest costs, is expected to play an important role in the near future as climate change mitigation measure. Current practices of converting crop products such as carbohydrates or plant oils to ethanol or biodiesel have limited capabilities to curb emission. Moreover, they compete with food production for the most fertile lands. Thus, second generation bioenergy technologies are being developed to process lignocellulosic plant materials from fast growing tree and grass species. A number of deforestation experiments using Earth System models have shown that in the mid- to high latitudes, deforested surface albedo strongly increases in presence of snow. This biophysical effect causes cooling, which could dominate over the biogeochemical warming effect because of the carbon emissions due to deforestation. In order to find out the global bioenergy potential of extensive plantations in the mid- to high latitudes, and the resultant savings in carbon emissions, we use the dynamic global vegetation model LPJmL run at a high spatial resolution of 0.5°. It represents both natural and managed ecosystems, including the cultivation of cellulosic energy crops. LPJmL is run with 21st century projections of climate and atmospheric CO2 concentration based on the IPCC-SRES business as usual or A2 scenario. Latitudes above 45° in both hemispheres are deforested and planted with crops having the highest bioenergy return for the respective pixels of the model. The rest of the Earth has natural vegetation. The agricultural management intensity values are used such that it results in the best approximation for 1999 - 2003 national yields of wheat and maize as reported by FAOSTAT 2009. Four different scenarios of land management are used ranging from an idealistic or best case scenario, where all limitations of soil and terrain properties are managed to the worst case scenario where none of these

  17. A new method to assess mercury emissions: a study of three coal-fired electric-generating power station configurations.

    Science.gov (United States)

    Boylan, Helen M; Cain, Randy D; Kingston, H M

    2003-11-01

    U.S. Environmental Protection Agency (EPA) Method 7473 for the analysis of mercury (Hg) by thermal decomposition, amalgamation, and atomic absorption spectroscopy has proved successful for use in Hg assessment at coal-fired power stations. In an analysis time of approximately 5 min per sample, this instrumental methodology can directly analyze total Hg--with no discrete sample preparation--in the solid matrices associated with a coal-fired power plant, including coal, fly ash, bottom ash, and flue gas desulfurization (FGD) material. This analysis technique was used to investigate Hg capture by coal combustion byproducts (CCBs) in three different coal-fired power plant configurations. Hg capture and associated emissions were estimated by partial mass balance. The station equipped with an FGD system demonstrated 68% capture on FGD material and an emissions estimate of 18% (11 kg/yr) of total Hg input. The power plant equipped with low oxides of nitrogen burners and an electrostatic precipitator (ESP) retained 43% on the fly ash and emitted 57% (51 kg/yr). The station equipped with conventional burners and an ESP retained less than 1% on the fly ash, emitting an estimated 99% (88 kg/yr) of Hg. Estimated Hg emissions demonstrate good agreement with EPA data for the power stations investigated.

  18. The market for bioenergy in Europe

    International Nuclear Information System (INIS)

    Kopetz, H.

    1997-01-01

    Conference paper. The demand for energy in Europe at present amounts to 16 PWh. Of this, 50% is needed for heating, 27% for transportation, 23% for light, communication and power. The European Commission in 1996 proposed that the share of renewables should be doubled to 12% by 2010. It is calculated that 3/4 of the supply of renewables must be supplied by biomass. A comprehensive energy crop programme is needed to guarantee the supply. According to calculations, 77% of the bioenergy supply will be used to deliver heat. For small heating installations financial support is necessary to overcome the investment costs. It is recommended that biomass based district heating grids should be subsidized by a joint programme of the Commission and the national governments. For industrial users little or no subsidies are required. It is suggested that the members of the EU should submit to the commission regional heat concepts, ''heat from biomass'', of a certain specified content. The necessary investment should come from private investors, from public money and from the EU. Green electricity is a way to promote renewable energy resources. As a realistic target for electricity from biomass within 12 years, 80 TWh is proposed. The production of raw materials for the energy sector on set-aside land is unsuccessful because of the changing set-aside rate. Some remedial actions are proposed

  19. The role of bioenergy in the energy transition. The ''Smart Bioenergy'' concept; Die Rolle der Bioenergie in der Energiewende. Das ''Smart Bioenergy''-Konzept

    Energy Technology Data Exchange (ETDEWEB)

    Thraen, Daniela [Helmholtz-Zentrum fuer Umweltforschung - UFZ, Leipzig (Germany). Dept. Bioenergie (BEN); DBFZ Deutsches Biomasseforschungszentrum gGmbH, Leipzig (Germany). Bereich Bioenergiesysteme; Seitz, Stefanie B.; Wirkner, Ronny; Nelles, Michael [DBFZ Deutsches Biomasseforschungszentrum gGmbH, Leipzig (Germany). Bereich Bioenergiesysteme

    2016-08-01

    The energy system's transformation away from fossil and therefore finite resources and ecological harmful use towards renewable energy sources and sustainable forms of usage proceeds. But even after 35 years, the German energy transition has yet not reached its ambitious goals. Moreover, in the recent years the progress has stagnated in certain areas. This is due to the fact that one of the central challenges of the energy system's changeover to an sole use renewable energy (RE) have not yet mastered: the reliable and stable delivery of RE for all energy dependent sectors starting form electricity via heat to mobility in the face of fluctuating energy sources like sun and wind. Bioenergy with its flexible use of innovative technologies and smart integration in the overall system is therefore vital to grant stability of energy supply. Furthermore, bioenergy can recourse on sustainable resources and may become therefore the backbone of the future bioeconomy. For this purpose an integrative approach is necessary that aligns the aforementioned building blocks in a cohesive whole: the Smart Bioenergy concept - that will be presented here with its elements but also open questions and challenges.

  20. Land-Use Change and Bioenergy

    Energy Technology Data Exchange (ETDEWEB)

    None

    2011-07-01

    This publication describes the Biomass Program’s efforts to examine the intersection of land-use change and bioenergy production. It describes legislation requiring land-use change assessments, key data and modeling challenges, and the research needs to better assess and understand the impact of bioenergy policy on land-use decisions.

  1. Bioenergy has a key role to play!

    DEFF Research Database (Denmark)

    Holm-Nielsen, Jens Bo

    2010-01-01

    Key note speach - Opening seremony of the 6.th International Bioenergy Conference organized by NASU - Kiev, Ukraine; www.biomass.kiev.ua;......Key note speach - Opening seremony of the 6.th International Bioenergy Conference organized by NASU - Kiev, Ukraine; www.biomass.kiev.ua;...

  2. Ethical and legal challenges in bioenergy governance

    DEFF Research Database (Denmark)

    Gamborg, Christian; Anker, Helle Tegner; Sandøe, Peter

    2014-01-01

    The article focuses on the interplay between two factors giving rise to friction in bioenergy governance: profound value disagreements (e.g. the prioritizing of carbon concerns like worries over GHG emissions savings over non-carbon related concerns) and regulatory complexity (in terms of regulat...... about such factors, and about the inherent trade-offs in bioenergy governance....

  3. Bioenergy in energy transformation and climate management

    NARCIS (Netherlands)

    Rose, S.K.; Kriegler, E.; Bibas, R.; Calvin, K.; Popp, A.; van Vuuren, D.P.|info:eu-repo/dai/nl/11522016X; Weyant, J.

    2014-01-01

    This study explores the importance of bioenergy to potential future energy transformation and climate change management. Using a large inter-model comparison of 15 models, we comprehensively characterize and analyze future dependence on, and the value of, bioenergy in achieving potential long-run

  4. Contribution of coal to the transformation of the German electricity supply; Beitrag der Kohle zur Transformation der deutschen Stromversorgung

    Energy Technology Data Exchange (ETDEWEB)

    Milojcic, George [Bundesverband Braunkohle (DEBRIV), Koeln (Germany)

    2016-11-01

    The use of coal, hard coal and lignite, is compatible with the targets of the German ''Energiewende''. This fact is often ignored. Due to the uncertain geopolitical situation, the domestic lignite is an important element for a reliable energy supply of Germany. In addition to the known factors secure availability, competitiveness and local economic importance, flexibility has become a characteristics of lignite. The change of the German energy supply is only possible with domestic lignite. This article points out the importance of lignite for this process.

  5. Dynamic analysis of policy drivers for bioenergy commodity markets

    International Nuclear Information System (INIS)

    Jeffers, Robert F.; Jacobson, Jacob J.; Searcy, Erin M.

    2013-01-01

    Biomass is increasingly being considered as a feedstock to provide a clean and renewable source of energy in the form of both liquid fuels and electric power. In the United States, the biofuels and biopower industries are regulated by different policies and have different drivers, which impact the maximum price the industries are willing to pay for biomass. This article describes a dynamic computer simulation model that analyzes future behavior of bioenergy feedstock markets given policy and technical options. The model simulates the long-term dynamics of these markets by treating advanced biomass feedstocks as a commodity and projecting the total demand of each industry, as well as the market price over time. The model is used for an analysis of the United States bioenergy feedstock market that projects supply, demand, and market price given three independent buyers: domestic biopower, domestic biofuels, and foreign exports. With base-case assumptions, the biofuels industry is able to dominate the market and meet the federal Renewable Fuel Standard (RFS) targets for advanced biofuels. Further analyses suggest that United States bioenergy studies should include estimates of export demand in their projections, and that GHG-limiting policy would partially shield both industries from export dominance. - Highlights: ► We model a United States bioenergy feedstock commodity market. ► Three buyers compete for biomass: biopower, biofuels, and foreign exports. ► The presented methodology improves on dynamic economic equilibrium theory. ► With current policy incentives and ignoring exports, biofuels dominates the market. ► Overseas biomass demand could dominate unless a CO 2 -limiting policy is enacted.

  6. Coal sector profile

    Energy Technology Data Exchange (ETDEWEB)

    1990-06-05

    Coal is our largest domestic energy resource with recoverable reserves estimated at 268 billion short tons or 5.896 quads Btu equivalent. This is approximately 95 percent of US fossil energy resources. It is relatively inexpensive to mine, and on a per Btu basis it is generally much less costly to produce than other energy sources. Its chief drawbacks are the environmental, health and safety concerns that must be addressed in its production and consumption. Historically, coal has played a major role in US energy markets. Coal fueled the railroads, heated the homes, powered the factories. and provided the raw materials for steel-making. In 1920, coal supplied over three times the amount of energy of oil, gas, and hydro combined. From 1920 until the mid 1970s, coal production remained fairly constant at 400 to 600 million short tons a year. Rapid increases in overall energy demands, which began during and after World War II were mostly met by oil and gas. By the mid 1940s, coal represented only half of total energy consumption in the US. In fact, post-war coal production, which had risen in support of the war effort and the postwar Marshall plan, decreased approximately 25 percent between 1945 and 1960. Coal demand in the post-war era up until the 1970s was characterized by increasing coal use by the electric utilities but decreasing coal use in many other markets (e.g., rail transportation). The oil price shocks of the 1970s, combined with natural gas shortages and problems with nuclear power, returned coal to a position of prominence. The greatly expanded use of coal was seen as a key building block in US energy strategies of the 1970s. Coal production increased from 613 million short tons per year in 1970 to 950 million short tons in 1988, up over 50 percent.

  7. The role of bioenergy in the energy transition. The ''Smart Bioenergy'' concept

    International Nuclear Information System (INIS)

    Thraen, Daniela; DBFZ Deutsches Biomasseforschungszentrum gGmbH, Leipzig; Seitz, Stefanie B.; Wirkner, Ronny; Nelles, Michael

    2016-01-01

    The energy system's transformation away from fossil and therefore finite resources and ecological harmful use towards renewable energy sources and sustainable forms of usage proceeds. But even after 35 years, the German energy transition has yet not reached its ambitious goals. Moreover, in the recent years the progress has stagnated in certain areas. This is due to the fact that one of the central challenges of the energy system's changeover to an sole use renewable energy (RE) have not yet mastered: the reliable and stable delivery of RE for all energy dependent sectors starting form electricity via heat to mobility in the face of fluctuating energy sources like sun and wind. Bioenergy with its flexible use of innovative technologies and smart integration in the overall system is therefore vital to grant stability of energy supply. Furthermore, bioenergy can recourse on sustainable resources and may become therefore the backbone of the future bioeconomy. For this purpose an integrative approach is necessary that aligns the aforementioned building blocks in a cohesive whole: the Smart Bioenergy concept - that will be presented here with its elements but also open questions and challenges.

  8. BioEnergy Feasibility in South Africa

    Science.gov (United States)

    Hugo, Wim

    2015-04-01

    The BioEnergy Atlas for South Africa is the result of a project funded by the South African Department of Science and Technology, and executed by SAEON/ NRF with the assistance of a number of collaborators in academia, research institutions, and government. Now nearing completion, the Atlas provides an important input to policy and decision support in the country, significantly strengthens the availability of information resources on the topic, and provides a platform whereby current and future contributions on the subject can be managed, preserved, and disseminated. Bioenergy assessments have been characterized in the past by poor availability and quality of data, an over-emphasis on potentials and availability studies instead of feasibility assessment, and lack of comprehensive evaluation in competition with alternatives - both in respect of competing bioenergy resources and other renewable and non-renewable options. The BioEnergy Atlas in its current edition addresses some of these deficiencies, and identifies specific areas of interest where future research and effort can be directed. One can qualify the potentials and feasible options for BioEnergy exploitation in South Africa as follows: (1) Availability is not a fixed quantum. Availability of biomass and resulting energy products are sensitive to both the exclusionary measures one applies (food security, environmental, social and economic impacts) and the price at which final products will be competitive. (2) Availability is low. Even without allowing for feasibility and final product costs, the availability of biomass is low: biomass productivity in South Africa is not high by global standards due to rainfall constraints, and most arable land is used productively for food and agribusiness-related activities. This constrains the feasibility of purposely cultivated bioenergy crops. (3) Waste streams are important. There are significant waste streams from domestic solid waste and sewage, some agricultural

  9. IEA Bioenergy Annual Report 1994

    Energy Technology Data Exchange (ETDEWEB)

    1995-01-31

    The report describes the work in the Executive Committee and includes short reports from the four tasks which have been in operation 1992-94: Task VIII - Efficient and Environmentally-Sound Biomass Production Systems; Task IX - Harvesting and Supply of Woody Biomass for Energy; Task X - Biomass Utilization; Task XI - The Conversion of Municipal Solid Waste Feedstocks to Energy. The three new tasks (XII-XIV) for the period 1995-97 approved during 1994 are presented in the report. At the end of 1994 there were sixteen Contracting Parties to the IEA Bioenergy Agreement - Fifteen countries plus the European Commission. 164 refs

  10. IEA Bioenergy Annual Report 1994

    International Nuclear Information System (INIS)

    1995-01-01

    The report describes the work in the Executive Committee and includes short reports from the four tasks which have been in operation 1992-94: Task VIII - Efficient and Environmentally-Sound Biomass Production Systems; Task IX - Harvesting and Supply of Woody Biomass for Energy; Task X - Biomass Utilization; Task XI - The Conversion of Municipal Solid Waste Feedstocks to Energy. The three new tasks (XII-XIV) for the period 1995-97 approved during 1994 are presented in the report. At the end of 1994 there were sixteen Contracting Parties to the IEA Bioenergy Agreement - Fifteen countries plus the European Commission. 164 refs

  11. Coal -94

    International Nuclear Information System (INIS)

    Sparre, C.

    1994-05-01

    This report deals with use of coal and coke during 1993; information about techniques, environmental questions and markets are also given. Use of steamcoal for heating purposes has been reduced about 3 % during 1993 to 1,0 mill tons. This is the case especially for the heat generating boilers. Production in co-generation plants has been constant and has increased for electricity production. Minor plants have increased their use of forest fuels, LPG and NG. Use of steamcoal will probably go down in the immediate years both in heat generating and co-generating plants. Coal-based electricity has been imported from Denmark during 1993 corresponding to about 400 000 tons of coal, when several of our nuclear plants were stopped. Use of steamcoal in the industry has been constant at 700 000 tons. This level is supposed to be constant or to vary with business cycles. The import of metallurgical coal in 1993 was 1,6 mill tons like the year before. 1,2 mill tons coke were produced. Coke consumption in industry was 1,4 mill tons. 0,2 mill tons of coke were imported. Average price of steamcoal imported to Sweden in 1993 was 308 SEK/ton or 13 % higher than in 1992; this can be explained by the dollar price level increasing 34% in 1993. For the world, the average import price was 50,0 USD/ton, a decrease of 6 %. The coal market during 1993 was affected by less consumption in Europe, shut downs of European mines and decreasing prices. High freight price raises in Russia has affected the Russian export and the market in northern Europe. The prices have been stabilized recently. All Swedish plants meet emission limits of dust, SO 2 and NO x . Co-generation plants all have some sort of SO 2 -removal system; the wet-dry method is mostly used. A positive effect of the recently introduced NO x -duties is a 40% reduction

  12. An outlook for sustainable forest bioenergy production in the Lake States

    Science.gov (United States)

    Dennis R. Becker; Kenneth Skog; Allison Hellman; Kathleen E. Halvorsen; Terry Mace

    2009-01-01

    The Lake States region of Minnesota, Wisconsin and Michigan offers significant potential for bioenergy production. We examine the sustainability of regional forest biomass use in the context of existing thermal heating, electricity, and biofuels production, projected resource needs over the next decade including existing forest product market demand, and impacts on...

  13. Woody biomass for bioenergy and biofuels in the United States -- a briefing paper

    Science.gov (United States)

    Eric M. White

    2010-01-01

    Woody biomass can be used for the generation of heat, electricity, and biofuels. In many cases, the technology for converting woody biomass into energy has been established for decades, but because the price of woody biomass energy has not been competitive with traditional fossil fuels, bioenergy production from woody biomass has not been widely adopted. However,...

  14. Role of coal in the world and Asia

    Energy Technology Data Exchange (ETDEWEB)

    Johnson, C.J.; Li, B.

    1994-10-01

    This paper examines the changing role of coal in the world and in Asia. Particular attention is given to the rapidly growing demand for coal in electricity generation, the importance of China as a producer and consumer of coal, and the growing environmental challenge to coal. Attention is given to the increasing importance of low sulfur coal and Clean Coal Technologies in reducing the environmental impacts of coal burning.

  15. Role of coal in the world and Asia

    International Nuclear Information System (INIS)

    Johnson, C.J.; Li, B.

    1994-10-01

    This paper examines the changing role of coal in the world and in Asia. Particular attention is given to the rapidly growing demand for coal in electricity generation, the importance of China as a producer and consumer of coal, and the growing environmental challenge to coal. Attention is given to the increasing importance of low sulfur coal and Clean Coal Technologies in reducing the environmental impacts of coal burning

  16. Biofuel and Bioenergy implementation scenarios. Final report of VIEWLS WP5, modelling studies

    International Nuclear Information System (INIS)

    Wakker, A.; Egging, R.; Van Thuijl, E.; Van Tilburg, X.; Deurwaarder, E.P.; De Lange, T.J.; Berndes, G.; Hansson, J.

    2005-11-01

    This report is published within the framework of the European Commission-supported project 'Clear Views on Clean Fuels' or VIEWLS. The overall objectives of this project are to provide structured and clear data on the availability and performance of biofuel and to identify the possibilities and strategies towards large-scale sustainable production, use and trading of biofuels for the transport sector in Europe, including Central and Eastern European Countries (CEEC). This reports constitutes the outcome of the Work Package 5 (WP5) of the VIEWLS project. In WP5 the EU biofuels and bioenergy markets are modelled with the aim to conduct quantitative analyses on the production and costs of biofuels and on the resulting market structure and supply chains. In a bigger context, where possible, WP5 aims also to provide insight into larger socio-economic impacts of bioenergy trade within Europe. The objective of this research is to develop a cost efficient biofuel strategy for Europe in terms of biofuel production, cost and trade, and to assess its larger impact on bioenergy markets and trade up to 2030. Based on the biomass availability and associated costs within EU25, under different conditions, scenarios for biofuels production and cost can be constructed using quantitative modelling tools. Combining this with (cost) data on biofuel conversion technologies and transport of biomass and biofuels, the lowest cost biofuel supply chain given a certain demand predetermined by the biofuels Directive can be designed. In a broader context, this is supplemented by a design of a sustainable bioenergy supply chain in view of the fact that biomass-heat, biomass-electricity and biofuels are competing for the same biomass resources. In other words, the scarcity of bioenergy crops, as manifested through overall bioenergy demand, is an essential variable in bioenergy scenarios

  17. Production of bio-energies

    International Nuclear Information System (INIS)

    Gurtler, J.L.; Femenias, A.; Blondy, J.

    2009-01-01

    After having indicated the various possible origins of biomass, this paper considers the issue of bio-energies, i.e., energies produced with biomass related to forest or agriculture production. Some indicators are defined (share of renewable energies, share of biomass in the energy production and consumption, number of production units). Stake holders are identified. Then, major and emerging trends are identified and discussed. The major trends are: development and diversification of renewable energies, development of bio-fuels with the support of incentive policies, prevalence of the wood-energy sector on the whole renewable energies, increase of surfaces dedicated to bio-fuels since the end of the 1990's, a French biogas sector which is late with respect to other countries. The emerging trends are: the important role of oil price in the development of bio-fuels, a necessary public support for the development of biogas, mobilization of research and development of competitiveness poles for bio-industries. Some prospective issues are also discussed in terms of uncertainties (soil availabilities, environmental performance of bio-fuels, available biomass resource, need of a technological advance, and evolution of energy needs on a medium term, tax and public policy). Three hypotheses of bio-energy evolutions are discussed

  18. Correcting a fundamental error in greenhouse gas accounting related to bioenergy

    International Nuclear Information System (INIS)

    Haberl, Helmut; Sprinz, Detlef; Bonazountas, Marc; Cocco, Pierluigi; Desaubies, Yves; Henze, Mogens; Hertel, Ole; Johnson, Richard K.; Kastrup, Ulrike; Laconte, Pierre; Lange, Eckart; Novak, Peter; Paavola, Jouni; Reenberg, Anette; Hove, Sybille van den

    2012-01-01

    Many international policies encourage a switch from fossil fuels to bioenergy based on the premise that its use would not result in carbon accumulation in the atmosphere. Frequently cited bioenergy goals would at least double the present global human use of plant material, the production of which already requires the dedication of roughly 75% of vegetated lands and more than 70% of water withdrawals. However, burning biomass for energy provision increases the amount of carbon in the air just like burning coal, oil or gas if harvesting the biomass decreases the amount of carbon stored in plants and soils, or reduces carbon sequestration. Neglecting this fact results in an accounting error that could be corrected by considering that only the use of ‘additional biomass’ – biomass from additional plant growth or biomass that would decompose rapidly if not used for bioenergy – can reduce carbon emissions. Failure to correct this accounting flaw will likely have substantial adverse consequences. The article presents recommendations for correcting greenhouse gas accounts related to bioenergy.

  19. Bioenergy for sustainable development: An African context

    Science.gov (United States)

    Mangoyana, Robert Blessing

    This paper assesses the sustainability concerns of bioenergy systems against the prevailing and potential long term conditions in Sub-Saharan Africa with a special attention on agricultural and forestry waste, and cultivated bioenergy sources. Existing knowledge and processes about bioenergy systems are brought into a “sustainability framework” to support debate and decisions about the implementation of bioenergy systems in the region. Bioenergy systems have been recommended based on the potential to (i) meet domestic energy demand and reduce fuel importation (ii) diversify rural economies and create employment (iii) reduce poverty, and (iv) provide net energy gains and positive environmental impacts. However, biofuels will compete with food crops for land, labour, capital and entrepreneurial skills. Moreover the environmental benefits of some feedstocks are questionable. These challenges are, however, surmountable. It is concluded that biomass energy production could be an effective way to achieve sustainable development for bioenergy pathways that (i) are less land intensive, (ii) have positive net energy gains and environmental benefits, and (iii) provide local socio-economic benefits. Feasibility evaluations which put these issues into perspective are vital for sustainable application of agricultural and forest based bioenergy systems in Sub-Saharan Africa. Such evaluations should consider the long run potential of biofuels accounting for demographic, economic and technological changes and the related implications.

  20. Monetization of Environmental Externalities (Emissions from Bioenergy

    Directory of Open Access Journals (Sweden)

    Isabelle BROSE

    2008-01-01

    Full Text Available Bioenergy from agriculture is today in the heart of sustainabledevelopment, integrating its key components: environment and climate change,energy economics and energy supply, agriculture, rural and social development.Each bioenergy production route presents externalities that must be assessed inorder to compare one bioenergy route to another (bioenergy route. The lack ofprimary and reliable data on externalities is, nevertheless, an important nontechnologicalbarrier to the implementation of the best (bioenergy routes. In thisarticle, we want to monetize one environmental externality from bioenergy:emissions (GHG: CO2, CH4, N2O, O3; CO, NOx, SO2, metal, and PM. We have tomonetize emissions on the basis of their effects on health, global warming, and soiland water quality. Emissions will be quantified through Life Cycle Analysis (LCAand ECOINVENT database. Impacts on health will be monetized on the basis ofmortality (number of life expectancy years lost multiplied by Value Of Life Year(VOLY and morbidity (number of ill persons multiplied by Cost Of Illness(COI. Impacts on global warming will be monetized by Benefits Transfers fromthe Stern Review and its critics. Finally, impacts on soil and water quality will bemonetized by Averting Behaviour or Defensive Expenses methods. Monetizationresults will be gathered, weighted, and incorporated in states and firms’ decisionmakingtools. They would enhance capacity of policy makers and managers tochose the best (bioenergy routes.

  1. Bioenergy Feedstock Development Program Status Report

    Energy Technology Data Exchange (ETDEWEB)

    Kszos, L.A.

    2001-02-09

    The U.S. Department of Energy's (DOE's) Bioenergy Feedstock Development Program (BFDP) at Oak Ridge National Laboratory (ORNL) is a mission-oriented program of research and analysis whose goal is to develop and demonstrate cropping systems for producing large quantities of low-cost, high-quality biomass feedstocks for use as liquid biofuels, biomass electric power, and/or bioproducts. The program specifically supports the missions and goals of DOE's Office of Fuels Development and DOE's Office of Power Technologies. ORNL has provided technical leadership and field management for the BFDP since DOE began energy crop research in 1978. The major components of the BFDP include energy crop selection and breeding; crop management research; environmental assessment and monitoring; crop production and supply logistics operational research; integrated resource analysis and assessment; and communications and outreach. Research into feedstock supply logistics has recently been added and will become an integral component of the program.

  2. Climate Effect of Bioenergy and Agriculture Integration Based on Lowtar Gasification of Wood Chips

    DEFF Research Database (Denmark)

    Sigurjonsson, Hafthor Ægir; Elmegaard, Brian; Clausen, Lasse Røngaard

    2015-01-01

    that goal. The climate change mitigating effect of different bioenergy scenarios is however not obvious. In recent years, finding the rightway to quantify the effectof biogenic carbon emissions associated with bioenergy has gathered attention.This paper analyses the global warming potential of an integrated...... potential is included in the analysis, by accounting for both the atmospheric load of biogenic carbon emissions and the carbon captured by forest re-growth. The energy conversion is based on thermal gasification. The gasifier allows changing the carbon conversion fraction, from the conventional maximum...... bioenergy and agricultural system through a polygenerating energy system, producing electricity, district heatand fertile biocharfor agricultural soil application. The case analysisis based on utilization of forest residues from a sustainably harvested forest. Quantification of the biogenic global warming...

  3. BIOENERGY AND ITS CONTRIBUTION TO REGIONAL DEVELOPMENT

    Directory of Open Access Journals (Sweden)

    Flaška Filip

    2011-01-01

    Full Text Available The paper deals with bioenergy as an innovative source of regional development in Europe.It provides overview about main drivers and barriers to bioenergy implementation andemphases the role of potential socio-economic factors. Brief summary of real contributionto regional development in Germany, Austria and Norway is presented. The paper analyzesproblems and benefits of Slovak bioenergy project in town Detva as well. The finalsuggestions focus on creating effective information campaign in combination withappropriate tax measures and setting up conditions for better utilization of municipalorganic waste.

  4. 2010 World bio-energy conference

    International Nuclear Information System (INIS)

    2010-01-01

    After having evoked the bio-energy price awarded to a Brazilian for his works on the use of eucalyptus as energy source, this report proposes a synthesis of the highlights of the conference: discussions about sustainability, bio-energies as an opportunity for developing countries, the success of bio-energies in Sweden, and more particularly some technological advances in the field of biofuels: a bio-LPG by Biofuel-solution AB, catalysis, bio-diesel from different products in a Swedish farm, a second generation ethanol by the Danish company Inbicon, a large scale methanization in Goteborg, a bio-refinery concept in Sweden, bio-gases

  5. Development of a Hydrogasification Process for Co-Production of Substitute Natural Gas (SNG) and Electric Power from Western Coals-Phase I

    Energy Technology Data Exchange (ETDEWEB)

    Raymond Hobbs

    2007-05-31

    The Advanced Hydrogasification Process (AHP)--conversion of coal to methane--is being developed through NETL with a DOE Grant and has successfully completed its first phase of development. The results so far are encouraging and have led to commitment by DOE/NETL to begin a second phase--bench scale reactor vessel testing, expanded engineering analysis and economic perspective review. During the next decade new means of generating electricity, and other forms of energy, will be introduced. The members of the AHP Team envision a need for expanded sources of natural gas or substitutes for natural gas, to fuel power generating plants. The initial work the team has completed on a process to use hydrogen to convert coal to methane (pipeline ready gas) shows promising potential. The Team has intentionally slanted its efforts toward the needs of US electric utilities, particularly on fuels that can be used near urban centers where the greatest need for new electric generation is found. The process, as it has evolved, would produce methane from coal by adding hydrogen. The process appears to be efficient using western coals for conversion to a highly sought after fuel with significantly reduced CO{sub 2} emissions. Utilities have a natural interest in the preservation of their industry, which will require a dramatic reduction in stack emissions and an increase in sustainable technologies. Utilities tend to rank long-term stable supplies of fuel higher than most industries and are willing to trade some ratio of cost for stability. The need for sustainability, stability and environmentally compatible production are key drivers in the formation and progression of the AHP development. In Phase II, the team will add a focus on water conservation to determine how the basic gasification process can be best integrated with all the plant components to minimize water consumption during SNG production. The process allows for several CO{sub 2} reduction options including consumption of

  6. Bioenergy `97: Nordic Bioenergy Conference, market, environment and technology; Bioenergi `97: nordisk bioenergikonferanse, marked, miljoe og teknikk

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1997-12-31

    (Leading abstract). The conference ``Bioenergy `97: Nordic Bioenergy Conference, market, environment and technology`` took place in Oslo, Norway, 7-8 Oct 1997. The conference papers are grouped under three headings: (1) The nordic energy market. 12 papers. (2) Production and sale of biofuels. 8 papers. (3) Conversion and utilization of biofuels. With subsections New technologies, 4 papers, and Power/heat production from biofuels, 4 papers

  7. How can accelerated development of bioenergy contribute to the future UK energy mix? Insights from a MARKAL modelling exercise

    Directory of Open Access Journals (Sweden)

    Anandarajah Gabrial

    2009-07-01

    Full Text Available Abstract Background This work explores the potential contribution of bioenergy technologies to 60% and 80% carbon reductions in the UK energy system by 2050, by outlining the potential for accelerated technological development of bioenergy chains. The investigation was based on insights from MARKAL modelling, detailed literature reviews and expert consultations. Due to the number and complexity of bioenergy pathways and technologies in the model, three chains and two underpinning technologies were selected for detailed investigation: (1 lignocellulosic hydrolysis for the production of bioethanol, (2 gasification technologies for heat and power, (3 fast pyrolysis of biomass for bio-oil production, (4 biotechnological advances for second generation bioenergy crops, and (5 the development of agro-machinery for growing and harvesting bioenergy crops. Detailed literature searches and expert consultations (looking inter alia at research and development needs and economic projections led to the development of an 'accelerated' dataset of modelling parameters for each of the selected bioenergy pathways, which were included in five different scenario runs with UK-MARKAL (MED. The results of the 'accelerated runs' were compared with a low-carbon (LC-Core scenario, which assesses the cheapest way to decarbonise the energy sector. Results Bioenergy was deployed in larger quantities in the bioenergy accelerated technological development scenario compared with the LC-Core scenario. In the electricity sector, solid biomass was highly utilised for energy crop gasification, displacing some deployment of wind power, and nuclear and marine to a lesser extent. Solid biomass was also deployed for heat in the residential sector from 2040 in much higher quantities in the bioenergy accelerated technological development scenario compared with LC-Core. Although lignocellulosic ethanol increased, overall ethanol decreased in the transport sector in the bioenergy

  8. Developing Switchgrass as a Bioenergy Crop

    Energy Technology Data Exchange (ETDEWEB)

    Bouton, J.; Bransby, D.; Conger, B.; McLaughlin, S.; Ocumpaugh, W.; Parrish, D.; Taliaferro, C.; Vogel, K.; Wullschleger, S.

    1998-11-08

    The utilization of energy crops produced on American farms as a source of renewable fuels is a concept with great relevance to current ecological and economic issues at both national and global scales. Development of a significant national capacity to utilize perennial forage crops, such as switchgrass (Panicum virgatum, L.) as biofuels could benefit our agricultural economy by providing an important new source of income for farmers. In addition energy production from perennial cropping systems, which are compatible with conventional fining practices, would help reduce degradation of agricultural soils, lower national dependence on foreign oil supplies, and reduce emissions of greenhouse gases and toxic pollutants to the atmosphere (McLaughlin 1998). Interestingly, on-farm energy production is a very old concept, extending back to 19th century America when both transpofiation and work on the farm were powered by approximately 27 million draft animals and fueled by 34 million hectares of grasslands (Vogel 1996). Today a new form of energy production is envisioned for some of this same acreage. The method of energy production is exactly the same - solar energy captured in photosynthesis, but the subsequent modes of energy conversion are vastly different, leading to the production of electricity, transportation fuels, and chemicals from the renewable feedstocks. While energy prices in the United States are among the cheapest in the world, the issues of high dependency on imported oil, the uncertainties of maintaining stable supplies of imported oil from finite reserves, and the environmental costs associated with mining, processing, and combusting fossil fuels have been important drivers in the search for cleaner burning fuels that can be produced and renewed from the landscape. At present biomass and bioenergy combine provide only about 4% of the total primary energy used in the U.S. (Overend 1997). By contrast, imported oil accounts for approximately 44% of the

  9. Coal transporting systems

    International Nuclear Information System (INIS)

    Vasilevski, Goce; Sazdov, Dushko; Tasevski, Apostol

    1999-01-01

    Installation of transporting systems in coal open pits in Macedonia was connected with construction and purchasing of the equipment from foreign companies. During 1998 Electric Power Company of Macedonia in connection with needs of the Oslomej Thermal Power Plant and delivery conditions,decided to give this task to domestic companies. This paper presents the planning activities an the implementation of the new coal transporting system. (Author)

  10. A study of the development of bio-energy resources and the status of eco-society in China

    Energy Technology Data Exchange (ETDEWEB)

    Li, Xia; Huang, Yongmei; Gong, Jirui [State Key Laboratory of Earth Surface Processes and Resource Ecology, Beijing Normal University, Beijing 100875 (China); College of Resources Science and Technology, Beijing Normal University, Beijing 100875 (China); Zhang, Xinshi [State Key Laboratory of Earth Surface Processes and Resource Ecology, Beijing Normal University, Beijing 100875 (China); College of Resources Science and Technology, Beijing Normal University, Beijing 100875 (China); Institute of Botany, CAS, Beijing 100093 (China)

    2010-11-15

    Industrialization of bio-energy relies on the supply of resources on a large scale. The theoretical biomass resources could reach 2.61-3.51 billion tce (tons of coal equivalent)/a in China, while the available feedstock is about 440-640 million tce/a, however, among this only 1.5-2.5% has been transferred into energy at present. Marginal land utilization has great prospects of supplying bio-energy resources in China, with co-benefits, such as carbon sequestration, water/soil conservation, and wind erosion protection. There is a large area of marginal land in China, especially in northern China, including about 263 million ha of desertification land, 173 million ha of sand-land, and 17 million ha of salinizatin land. The plant species suitable to be grown in marginal lands, including some species in Salix, Hippophae, Tamarix, Caragana, and Prunus is also abundant Biomass feedstock in marginal lands would be 100 million tce/a in 2020, and 200 million tce/a in 2050. As a result, a win-win situation of eco-society and bio-energy development could be realized, with an expected 4-5% reduction of total CO{sub 2} emission in China in 2020-2050. Although much progress has been made in the field of bio-energy research in China, yet significant efforts should be taken in the future to fulfill large-scale industrialization of bio-energy. (author)

  11. Bioenergy originating from biomass combustion in a fluidized bed

    Energy Technology Data Exchange (ETDEWEB)

    Crujeira, T.; Gulyurtlu, I.; Lopes, H.; Abelha, P.; Cabrita, I. [INETI/DEECA, Lisboa (Portugal)

    2008-07-01

    Bioenergy could significantly contribute to reducing and controlling greenhouse emissions (GHG) and to replace fossil fuels in large power plants. Although the use of biomass, originating from forests, could be beneficial, particularly in preventing fires, there are obstacles to achieve a sustainable supply chain of biomass in most European countries. In addition, there are also technical barriers as requirements of biomass combustion may differ from those of coal, which could mean significant retrofitting of existing installations. The combustion behaviour of different biomass materials were studied on a pilot fluidised bed combustor, equipped with two cyclones for particulate matter removal. The gaseous pollutants leaving the stack were sampled under isokinetic conditions for particulate matter, chlorine compounds, heavy metals and dioxins and furans (PCDD/F). The results obtained indicated that the combustion of these materials did not present any operational problem, although for temperatures above 800{sup o}C, bed agglomeration could be observed for all biomass materials studied. Most of the combustion of biomass, contrary to what is observed for coal, takes place in the riser where the temperature was as much as 150{sup o}C above that of the bed. Stable combustion conditions were achieved as well as high combustion efficiency. When compared with the emissions of bituminous coal, the most used fossil fuel, the emissions of CO and SO2 were found to be lower and NOx emissions were similar to those of coal. HCl and PCDD/F could be considerable with biomasses containing high chlorine levels, as in the case of straw. It was observed that the nature of ash could give rise serious operating problems.

  12. The Controversies over Bioenergy in Denmark

    DEFF Research Database (Denmark)

    Jørgensen, Michael Søgaard; Andersen, Bente Hessellund

    2012-01-01

    for processing of biomass for biofuels. The alignment with the private car regime is strong, because biofuel enables continuation of fuel-driven vehicles as dominating transportation mode. Danish farmers see manure as important source for biogas while arguing for reduction of climate impact and nuisances from......Based on the approach of 'arena of development' controversies over bioenergy in the shaping of a Danish climate strategy are analyzed as a contribution to a sustainable transition perspective on bioenergy in industrialized societies with substantial agricultural production. Bioenergy plays...... a prominent role in several Danish climate and energy plans, alongside with wind and solar energy, and energy savings. There are major controversies about targets for bioenergy with respect to acceptable types, sources and amounts of biomass. Strong path dependency is identified. Energy companies in Denmark...

  13. 2013 Bioenergy Technologies Office Peer Review Report

    Energy Technology Data Exchange (ETDEWEB)

    None, None

    2014-02-01

    This document summarizes the recommendations and evaluations provided by an independent external panel of experts at the 2013 U.S. Department of Energy Bioenergy Technologies Office's Peer Review meeting.

  14. The Indonesian coal industry

    International Nuclear Information System (INIS)

    Cook, A.; Daulay, B.

    2000-01-01

    In this comprehensive article the authors describe the origins and progress of the Indonesian coal industry and the role it plays, and will play, in the domestic energy scene and world coal trade. In the '80s, the Indonesian coal industry laid the basis for major expansion such that coal production rose from under a million tonnes in 1983 to 10.6 million tonnes in 1990, 50.9 million tonnes by 1996 and 61.2 million tonnes in 1992. At the same time, exports have increased from 0.4 million tonnes to 44.8 million tonnes. Current export levels are higher than originally expected, due in part to a slow down in the construction of electric power stations and a partial switch to natural gas. This has slowed the rate at which domestic coal demand has built up. The majority of coals currently exported are low rank steam coals, but some of the higher rank and very low ash coals are used for blast furnace injection, and a very small proportion may even be used within coking blends, even though they have poor coking properties. The Indonesian coal industry has developed very rapidly over the last six years to become a significant exporter, especially within the ASEAN context. The resources base appears to be large enough to support further increases in production above those already planned. It is probable that resources and reserves can be increased above the current levels. It is likely that some reserves of high value coals can be found, but it is also probable that the majority of additions to reserves will be lower in rank (and therefore quality) compared with the average of coals currently being mined. Reserves of qualities suitable for export will support that industry for a considerable period of time. However, in the longer term, the emphasis of production will increasingly swing to the domestic market

  15. Coals of Hungary

    Energy Technology Data Exchange (ETDEWEB)

    Landis, E.R.; Rohrbacher, T.J.; Gluskoter, H.; Fodor, B.; Gombar, G.; Sebestyen, I.

    1999-07-01

    As part of the activities conducted under the U.S. Hungarian Science and Technology Fund, a total of 39 samples from five coal mines in Hungary were selected for standard coal analyses and major, minor and trace elements analysis. The mine areas sampled were selected to provide a spectrum of coal quality information for comparison with other coal areas in central Europe and worldwide. All of the areas are of major importance in the energy budget of Hungary. The five sample sites contain coal in rocks of Jurassic, Cretaceous, Eocene, Miocene, and Pliocene age. The coals, from four underground and one surface mine, range in rank from high volatile bituminous to lignite B. Most of the coal produced from the mines sampled is used to generate electricity. Some of the power plants that utilize the coals also provide heat for domestic and process usage. The standard coal analysis program is based on tests performed in accordance with standards of the American Society for Testing and Materials (ASTM). Proximate and ultimate analyses were supplemented by determinations of the heating value, equilibrium moisture, forms of sulfur, free-swelling index, ash fusion temperatures (both reducing and oxidizing), apparent specific gravity and Hardgrove Grindability index. The major, minor and trace element analyses were performed in accordance with standardized procedures of the U.S. Geological Survey. The analytical results will be available in the International Coal Quality Data Base of the USGS. The results of the program provide data for comparison with test data from Europe and information of value to potential investors or cooperators in the coal industry of Hungary and Central Europe.

  16. Canada report on bioenergy 2009

    International Nuclear Information System (INIS)

    2009-01-01

    Canada possesses significant forest resources. This paper reviewed Canada's bioenergy potential and market. Biomass in Canada is used to produce heat and power, as well as to produce ethanol and biodiesel. Biomass is also used to produce pyrolysis oil and wood pellets. Biomass resources included woody biomass; annual residue production; hog fuel piles; forest harvest waste and urban wood residues; agricultural residues; and municipal solid wastes. Trends in biomass production and consumption were discussed, and current biomass users were identified. A review of biomass prices was presented, and imports and exports for ethanol, biodiesel, pyrolysis oil, and wood pellets were discussed. Barriers and opportunities for trade were also outlined. 6 tabs., 6 figs. 1 appendix.

  17. European greenhouse gas fluxes from land use: the impact of expanding the use of dedicated bioenergy crops.

    Science.gov (United States)

    Hastings, Astley; Böttcher, Hannes; Clifton-Brown, John; Fuchs, Richard; Hillier, Jon; Jones, Ed; Obersteiner, Michael; Pogson, Mark; Richards, Mark; Smith, Pete

    2013-04-01

    Bioenergy derived from vegetation cycles carbon to and from the atmosphere using the chemical energy fixed by the plants by photosynthesis using solar energy. However bioenergy is not carbon neutral as energy is used and greenhouse gasses (GHG) are emitted in the process of growing bioenergy feeedstocks and processing them into a usable fuel, whether it is biomass or liquid fuel such as biodiesel or bioethanol. Using bio instead of fossil fuels replaces greenhouse gas emissions from coal, oil and gas by those of the biofuel. To estimate the impact on European greenhouse gas fluxes of expanding the use of bioenergy, it is necessary to quantify the difference between the GHG emissions associated with producing and using the biofuel and the fossil fuel it replaces, and to take into account any emissions associated with the change from the original land use to that of growing the bioenergy feedstock. This involves estimating any displacement of food, fibre and timber production to other geographical areas. Here we report on a study of the GHG emissions from the potential increasing use of a variety of biofuels produced from feedstocks grown in the EU countries. The GHG emissions of the historical land use of EU27 have been modelled using ECOSSE on a 1 km grid to estimate the impact the agriculture intensification and land use change of the last 50 years and the associated crop yield gains. The excess land made available from the yield gains is considered to be available for use for bioenergy, and the yields of potential bioenergy feedstocks are estimated from EUROSTAT data or modelled using the bioenergy crop growth model MISCANFOR. These yields are used to calculate the energy used and GHG emissions associated with the use of the resulting biofuel using a life cycle analysis, and to estimate the organic matter input into the soil. The ECOSSE model is then used to estimate the soil carbon change and GHG emissions associated with the land use change to growing the

  18. India clamours for coal

    Energy Technology Data Exchange (ETDEWEB)

    Nadkarni, S.

    2000-10-01

    The steadily deteriorating quality of coal provided by government-owned companies in India has persuaded coal users to follow the lead of the World Bank and call for deregulation of the sector to allow quality coal to be procured at competitive prices from the global market.Some 24 opencast mines belonging to Coal India Limited subsidiaries were to be expanded to produce 112 mta of coal but the World Bank terminated a loan of 507 million dollars from the total sanctioned loan of 1.06 bn. CIL refuses to accept that the loan was terminated because the government failed to meet the terms and conditions imposed at the time of the loan sanction. In addition to slow demand from the power sector, the state-owned coal companies have found the World Bank terms impossible to meet. The favourable debt market in India has come to their aid but even this will not enable the quality of coal to be improved for use in many power plants. The Maharashtra State Electricity Board has called for the formation of a joint venture with the private sector to explore for and supply quality coal. 1 photo.

  19. Bioenergy

    Science.gov (United States)

    2012-03-06

    H2 production in microalgae and cyanobacteria • Genetically engineer pathways to improve the H2 producing capacity of these phototrophs 10...density of enzymatic fuel cells (EFC) - sustained oxygen-tolerant hydrogen production by photosynthetic microbes Artificial Systems Research...Metabolic Engineering for the Production of Biofuels 2 H2O water-splitting enzyme 4 e_ 4 H+ H2-generating hydrogenase enzyme

  20. Coal still plays an important role in Europe's energy business

    International Nuclear Information System (INIS)

    Janoska, J.; Beer, G.

    2004-01-01

    European energy mix would be unimaginable without the coal as it is used to produce about 25 percent of the EU electricity and its importance will even increase after the enlargement. In many of the accession countries coal represents the main source of electricity. Reviews of electricity production in dependence of source, coal mining and share of brown coal on electricity production in European Union are presented

  1. The position of bioenergy and development possibilities

    International Nuclear Information System (INIS)

    Asplund, D.

    1997-01-01

    This report is a review of bioenergy in energy economy of Finland and generally a review of bioenergy markets in the world. This review concentrates on wood and peat fuels. Municipal wastes, agro biomass and use of biogas in energy production are also considered in this review but in minor aspect. The significant part of this work is an estimation of bioenergy development prospects. The schedule is strategic to the year 2010, partly to the year 2025. The use of bioenergy in Finland has increased 64 % from the year 1980 and was in 1996 almost 7 million toe. The use of peat was 2,1 million toe and the rest consisted mainly of wood and wood based fuels. The share of bioenergy in the primary energy consumption is over 20 %. As far as the resources are concerned the possibilities to increase the use are very good. The main problem is the competitiveness. The competitiveness of forest biomass has improved as a result of technological research and development but it is still potential to maintain more by systematical R and D. A large target setting of increasing the bioenergy use in Finland is included in this review. The target is to increase the bioenergy use 25 % by the year 2005. This equals to 1,5 million toe. The target for the year 2010 is suggested to increase of 3,5 million toe from the 1995 level. Also the possibilities to develop new bioenergy technology for export markets are considered. A large number of concrete actions and long term activities to achieve these targets are presented. (orig.) 24 refs

  2. Bioenergy Project Development and Biomass Supply

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2007-07-01

    Modern biomass, and the resulting useful forms of bioenergy produced from it, are anticipated by many advocates to provide a significant contribution to the global primary energy supply of many IEA member countries during the coming decades. For non-member countries, particularly those wishing to achieve economic growth as well as meet the goals for sustainable development, the deployment of modern bioenergy projects and the growing international trade in biomass-based energy carriers offer potential opportunities.

  3. The Vermont Bioenergy Initiative: Final Technical Report

    Energy Technology Data Exchange (ETDEWEB)

    Callahan, Chris [Vermont Sustainable Jobs Fund, Montpelier, VT (United States); Sawyer, Scott [Vermont Sustainable Jobs Fund, Montpelier, VT (United States); Kahler, Ellen [Vermont Sustainable Jobs Fund, Montpelier, VT (United States)

    2016-11-30

    The purpose of the Vermont Bioenergy Initiative (VBI) was to foster the development of sustainable, distributed, small-scale biodiesel and grass/mixed fiber industries in Vermont in order to produce bioenergy for local transportation, agricultural, and thermal applications, as a replacement for fossil fuel based energy. The VBI marked the first strategic effort to reduce Vermont’s dependency on petroleum through the development of homegrown alternatives.

  4. Two levels decision system for efficient planning and implementation of bioenergy production

    International Nuclear Information System (INIS)

    Ayoub, Nasser; Martins, Ricardo; Wang, Kefeng; Seki, Hiroya; Naka, Yuji

    2007-01-01

    When planning bioenergy production from biomass, planners should take into account each and every stakeholder along the biomass supply chains, e.g. biomass resources suppliers, transportation, conversion and electricity suppliers. Also, the planners have to consider social concerns, environmental and economical impacts related with establishing the biomass systems and the specific difficulties of each country. To overcome these problems in a sustainable manner, a robust decision support system is required. For that purpose, a two levels general Bioenergy Decision System (gBEDS) for bioenergy production planning and implementation was developed. The core part of the gBEDS is the information base, which includes the basic bioenergy information and the detailed decision information. Basic bioenergy information include, for instance, the geographical information system (GIS) database, the biomass materials' database, the biomass logistic database and the biomass conversion database. The detailed decision information considers the parameters' values database with their default values and the variables database, values obtained by simulation and optimization. It also includes a scenario database, which is used for demonstration to new users and also for case based reasoning by planners and executers. Based on the information base, the following modules are included to support decision making: the simulation module with graph interface based on the unit process (UP) definition and the genetic algorithms (GAs) methods for optimal decisions and the Matlab module for applying data mining methods (fuzzy C-means clustering and decision trees) to the biomass collection points, to define the location of storage and bioenergy conversion plants based on the simulation and optimization model developed of the whole life cycle of bioenergy generation. Furthermore, Matlab is used to set up a calculation model with crucial biomass planning parameters (e.g. costs, CO 2 emissions), over

  5. Evaluation on community tree plantations as sustainable source for rural bioenergy in Indonesia

    Science.gov (United States)

    Siregar, U. J.; Narendra, B. H.; Suryana, J.; Siregar, C. A.; Weston, C.

    2017-05-01

    Indonesia has forest plantation resources in rural areas far from the national electricity grid that have potential as feedstock for biomass based electricity generation. Although some fast growing tree plantations have been established for bioenergy, their sustainability has not been evaluated to date. This research aimed to evaluate the growth of several tree species, cultivated by rural communities in Jawa Island, for their sustainability as a source for bio-electricity. For each tree species the biomass was calculated from diameter and height measurements and an estimate made for potential electricity generation based on density of available biomass and calorific content. Species evaluated included Acacia mangium, A. auriculiformis, A. crasicarpa, Anthocephalus cadamba, Calliandra calothirsus, Eucalyptus camaldulensis, Falcataria moluccana, Gmelina arborea, Leucaena leucochephala and Sesbania grandiflora. Among these species Falcataria moluccana and Anthocephalus cadamba showed the best potential for bioenergy production, with up to 133.7 and 67.1 ton/ha biomass respectively, from which 160412 and 80481 Kwh of electricity respectively could be generated. Plantations of these species could potentially meet the estimated demand for biomass feedstock to produce bioenergy in many rural villages, suggesting that community plantations could sustainably provide much needed electricity.

  6. Demonstration program for coal-oil mixture combustion in an electric utility boiler - Category III A. 1978 annual report

    Energy Technology Data Exchange (ETDEWEB)

    1980-04-01

    The 1978 annual report covers New England Power Service Company's participation in the Department of Energy coal-oil mixture (COM) program. Continued world-wide unrest resulting in an unstable fuel oil supply coupled with rapidly inflating costs have caused continued interest in a demonstrable viable solution. NEPSCO's program, while not attaining all the milestones forecast, has made considerable progress. As of January 31, 1979, ninety-five (95% percent of engineering and design has been completed. Construction of facilities and installation of required equipment was approximately 75% complete and the six-week Feasibility Testing program was expected to commence during April 1979.

  7. Personal attitudes towards large-scale technologies. The perception of risks and benefits of electricity generation with uranium and coal

    Energy Technology Data Exchange (ETDEWEB)

    Midden, C.J.H.; Daamen, D.D.L.; Verplanken, B.

    1984-06-01

    The distribution of attitudes towards the large-scale application of coal and uranium, belief systems underlying these attitudes, the perceived probabilities of a number of consequences from these energy sources and the consequences of these attitudes for behaviour and behavioural intentions are discussed. Attention is paid to other aspects of people's evaluations of these energy technologies: involvement with the problems perceived, personal effectivity to influence collective decisions, information acquisition and level, imaginability of accidents, anxiety, reactions to local plants. The study has been designed following an extended and adapted version of the attitude-behaviour model by Fishbein and Ajzen.

  8. Multi Criteria Analysis for bioenergy systems assessments

    International Nuclear Information System (INIS)

    Buchholz, Thomas; Rametsteiner, Ewald; Volk, Timothy A.; Luzadis, Valerie A.

    2009-01-01

    Sustainable bioenergy systems are, by definition, embedded in social, economic, and environmental contexts and depend on support of many stakeholders with different perspectives. The resulting complexity constitutes a major barrier to the implementation of bioenergy projects. The goal of this paper is to evaluate the potential of Multi Criteria Analysis (MCA) to facilitate the design and implementation of sustainable bioenergy projects. Four MCA tools (Super Decisions, DecideIT, Decision Lab, NAIADE) are reviewed for their suitability to assess sustainability of bioenergy systems with a special focus on multi-stakeholder inclusion. The MCA tools are applied using data from a multi-stakeholder bioenergy case study in Uganda. Although contributing to only a part of a comprehensive decision process, MCA can assist in overcoming implementation barriers by (i) structuring the problem, (ii) assisting in the identification of the least robust and/or most uncertain components in bioenergy systems and (iii) integrating stakeholders into the decision process. Applying the four MCA tools to a Ugandan case study resulted in a large variability in outcomes. However, social criteria were consistently identified by all tools as being decisive in making a bioelectricity project viable

  9. Renewable vs. fossil electricity systems. A cost comparison. Power world 2050. Analysis of renewable, coal and gas-based electricity systems; Erneuerbare vs. fossile Stromsysteme. Ein Kostenvergleich. Stromwelten 2050. Analyse von Erneuerbaren, kohle- und gasbasierten Elektrizitaetssystemen

    Energy Technology Data Exchange (ETDEWEB)

    Graichen, Patrick; Kleiner, Mara Martha [Agora Energiewende, Berlin (Germany); Matthes, Felix Christian; Heinemann, Christoph [Oeko-Institut e.V. - Institut fuer Angewandte Oekologie, Berlin (Germany)

    2017-01-15

    The decarbonisation of the energy and, above all, the power system is the core component of any consistent climate protection strategy. For the electricity sector, this means, in the final analysis, the transition from a power supply based on lignite, hard coal, natural gas and other fossil fuels to one (almost) completely based on renewable energies by 2050. The fundamental technical feasibility of such a system, more than 90 percent of which would generate electricity from renewable energies, is no longer disputable today. The explanation for this is the partly rapid technological advances made in recent years, particularly those involving wind (on- and offshore) and solar energy, as well as the foreseeable further developments of central flexibility options (including flexible demand, battery storage and power-to-gas technologies). However, the question of the costs of this new electricity system has not yet been fully resolved. These cost calculations need to take into account, on the one hand, the total costs of an electricity system based on renewable energies and, on the other hand, the comparison to a power system that remains based on fossil fuels. Against this background, the present study provides a numerical analysis of the following questions: What are the technical and cost structures for a power system when 90 percent or more of the electricity is generated from renewable energies in 2050? How do the costs for different storage strategies (batteries vs. power-to-gas) differ? What technical, cost and emission structures result for a hypothetical fossil-based power system in 2050 if the further construction of electricity production plants based on wind and solar energy is immediately abandoned? How do the costs for various fossil-based power systems differ (conventional mix of lignite/hard coal/natural gas power plants vs. an electricity system based purely on natural gas)? For this purpose, a large number of model calculations with different

  10. Sustainability of bioenergy chains. The result is in the details

    Energy Technology Data Exchange (ETDEWEB)

    Van Dam, J.M.C.

    2009-05-13

    soybeans can be produced at a cost of 0.3 to 1.2 USD/liter for local use and at a cost of 0.5 to 1.7 USD/liter for export to the Netherlands. Electricity from switchgrass pellets, produced in the Netherlands, can be produced at a cost of 0.06 to 0.08 USD /kWh. The socio-economic and environmental impacts are assessed ex ante for large-scale bioenergy production in La Pampa province (Argentina), based on a set of defined criteria and indicators. The carbon stock change for switchgrass ranges from 0 to 1.2 ton C/ha per year and for soybean from -1.2 to 0 ton C/ha per year, depending on the scenario. The annual soil loss, compared to the reference land-use system, is 2 to 10 ton/ha for the soybean bioenergy chain and 1 to 2 ton/ha for the switchgrass bioenergy chain. This thesis demonstrates that the feasibility and sustainability of large-scale biomass production on the short and longer term can be assessed ex ante. As the performance of biomass production and supply chains can differ strongly in space and time, embedding an impact analysis in a scenario based approach is a key way to tackle this.

  11. Expected ozone benefits of reducing nitrogen oxide (NOx) emissions from coal-fired electricity generating units in the eastern United States.

    Science.gov (United States)

    Vinciguerra, Timothy; Bull, Emily; Canty, Timothy; He, Hao; Zalewsky, Eric; Woodman, Michael; Aburn, George; Ehrman, Sheryl; Dickerson, Russell R

    2017-03-01

    On hot summer days in the eastern United States, electricity demand rises, mainly because of increased use of air conditioning. Power plants must provide this additional energy, emitting additional pollutants when meteorological conditions are primed for poor air quality. To evaluate the impact of summertime NO x emissions from coal-fired electricity generating units (EGUs) on surface ozone formation, we performed a series of sensitivity modeling forecast scenarios utilizing EPA 2018 version 6.0 emissions (2011 base year) and CMAQ v5.0.2. Coal-fired EGU NO x emissions were adjusted to match the lowest NO x rates observed during the ozone seasons (April 1-October 31) of 2005-2012 (Scenario A), where ozone decreased by 3-4 ppb in affected areas. When compared to the highest emissions rates during the same time period (Scenario B), ozone increased ∼4-7 ppb. NO x emission rates adjusted to match the observed rates from 2011 (Scenario C) increased ozone by ∼4-5 ppb. Finally in Scenario D, the impact of additional NO x reductions was determined by assuming installation of selective catalytic reduction (SCR) controls on all units lacking postcombustion controls; this decreased ozone by an additional 2-4 ppb relative to Scenario A. Following the announcement of a stricter 8-hour ozone standard, this analysis outlines a strategy that would help bring coastal areas in the mid-Atlantic region closer to attainment, and would also provide profound benefits for upwind states where most of the regional EGU NO x originates, even if additional capital investments are not made (Scenario A). With the 8-hr maximum ozone National Ambient Air Quality Standard (NAAQS) decreasing from 75 to 70 ppb, modeling results indicate that use of postcombustion controls on coal-fired power plants in 2018 could help keep regions in attainment. By operating already existing nitrogen oxide (NO x ) removal devices to their full potential, ozone could be significantly curtailed, achieving ozone

  12. The bio-energies development: the role of biofuels and the CO{sub 2} price

    Energy Technology Data Exchange (ETDEWEB)

    Jouvet, Pierre-Andre [Universite Paris Ouest Nanterre La Defense, Climate Economics Chair (France); Lantz, Frederic [IFP Energies nouvelles, 1-4, avenue de Bois-Preau, 92852 Rueil-Malmaison Cedex (France); Le Cadre, Elodie [IFPEN, INRA, Universite Paris Ouest Nanterre La Defense (France)

    2012-07-01

    Reduction in energy dependency and emissions of CO{sub 2} via renewable energies targeted in the European Union energy mix and taxation system, might trigger the production of bio-energy production and competition for biomass utilization. Torrefied biomass could be used to produce second generation biofuels to replace some of the fuels used in transportation and is also suitable as feedstock to produce electricity in large quantities. This paper examines how the CO{sub 2} price affects demand of torrefied biomass in the power sector and its consequences on the profitability of second generation biofuel units (Biomass to Liquid units). Indeed, the profitability of the BtL units which are supplied only by torrefied biomass is related to the competitive demand of the power sector driven by the CO{sub 2} price and feed-in tariffs. We propose a linear dynamic model of supply and demand. On the supply side, a profit-maximizing torrefied biomass sector is modelled. The model aims to represent the transformation of biomass into torrefied biomass which could be sold to the refinery sector and the power sector. A two-sided (demanders and supplier) bidding process led us to arrive at the equilibrium price for torrefied biomass. The French case is used as an example. Our results suggest that the higher the CO{sub 2} price, the more stable and important the power sector demand. It also makes the torrefied biomass production less vulnerable to uncertainty on demand coming from the refining sector. The torrefied biomass co-firing with coal can offer a near-term market for the torrefied biomass for a CO{sub 2} emission price lower than 20 euros/tCO{sub 2}, which can stimulate development of biomass supply systems. Beyond 2020, the demand for torrefied biomass from the power sector could be substituted by the refining sector if the oil price goes up whatever the CO{sub 2} price. (authors)

  13. The bio-energies development: the role of biofuels and the CO2 price

    International Nuclear Information System (INIS)

    Jouvet, Pierre-Andre; Lantz, Frederic; Le Cadre, Elodie

    2012-01-01

    Reduction in energy dependency and emissions of CO 2 via renewable energies targeted in the European Union energy mix and taxation system, might trigger the production of bio-energy production and competition for biomass utilization. Torrefied biomass could be used to produce second generation biofuels to replace some of the fuels used in transportation and is also suitable as feedstock to produce electricity in large quantities. This paper examines how the CO 2 price affects demand of torrefied biomass in the power sector and its consequences on the profitability of second generation biofuel units (Biomass to Liquid units). Indeed, the profitability of the BtL units which are supplied only by torrefied biomass is related to the competitive demand of the power sector driven by the CO 2 price and feed-in tariffs. We propose a linear dynamic model of supply and demand. On the supply side, a profit-maximizing torrefied biomass sector is modelled. The model aims to represent the transformation of biomass into torrefied biomass which could be sold to the refinery sector and the power sector. A two-sided (demanders and supplier) bidding process led us to arrive at the equilibrium price for torrefied biomass. The French case is used as an example. Our results suggest that the higher the CO 2 price, the more stable and important the power sector demand. It also makes the torrefied biomass production less vulnerable to uncertainty on demand coming from the refining sector. The torrefied biomass co-firing with coal can offer a near-term market for the torrefied biomass for a CO 2 emission price lower than 20 euros/tCO 2 , which can stimulate development of biomass supply systems. Beyond 2020, the demand for torrefied biomass from the power sector could be substituted by the refining sector if the oil price goes up whatever the CO 2 price. (authors)

  14. CVFA: Coal vendor financial advisor

    International Nuclear Information System (INIS)

    Goote, W.G.; Andersen, S.

    1992-01-01

    An expert system for determining coal vendor financial viability in fuel purchasing contracts at an electric utility is described. The system blends rules, data objects, and financial knowledge to provide a rational basis for accepting or rejecting coal contracts given the financial capability of the coal vendor. The discussion concludes with a critique of managerial issues in the development of the system and its use in decision making. 3 refs., 1 fig

  15. Agronomic Suitability of Bioenergy Crops in Mississippi

    Energy Technology Data Exchange (ETDEWEB)

    Lemus, Rocky; Baldwin, Brian; Lang, David

    2011-10-01

    ‚€Ã‚¢ How will these crops affect fertilizer use and water quality? • What kind of water management is needed to maintain a productive crop? The answers to these questions will help supporting institutions across the state to improve land assessment and agronomic management practices for biomass production. In the last decade, energy supply has become a worldwide problem. Bioenergy crops could supply energy in the future. Bioenergy crops are plants, usually perennial grasses and trees, that produce a lot of biomass that can be converted into energy. Bioenergy crops can be grown for two energy markets: power generation, such as heat and electricity, or liquid fuel, such as cellulosic ethanol. These resources could reduce petroleum dependency and greenhouse gas production. Woody plants and herbaceous warm-season grasses, such as switchgrass, giant miscanthus,energy cane, and high yielding sorghums, could be major sources of biomass in Mississippi.

  16. A holistic sustainability assessment tool for bioenergy using the Global Bioenergy Partnership (GBEP) sustainability indicators

    NARCIS (Netherlands)

    Hayashi, T.; Ierland, van E.C.; Zhu, X.

    2014-01-01

    In 2011 the Global Bioenergy Partnership (GBEP) released a set of indicators for sustainable bioenergy. However, two important issues still remain unresolved. One of them is the definition of “sustainability”, and the other is the lack of a holistic assessment tool for drawing conclusions from the

  17. Biomass assessment and small scale biomass fired electricity generation in the Green Triangle, Australia

    International Nuclear Information System (INIS)

    Rodriguez, Luis C.; May, Barrie; Herr, Alexander; O'Connell, Deborah

    2011-01-01

    Coal fired electricity is a major factor in Australia's greenhouse gas emissions (GHG) emissions. The country has adopted a mandatory renewable energy target (MRET) to ensure that 20% of electricity comes from renewable sources by 2020. In order to support the MRET, a market scheme of tradable Renewable Energy Certificates (RECs) has been implemented since 2001. Generators using biomass from eligible sources are able to contribute to GHG emission reduction through the substitution of coal for electricity production and are eligible to create and trade RECs. This paper quantifies the potential biomass resources available for energy generation from forestry and agriculture in the Green Triangle, one of the most promising Australian Regions for biomass production. We analyse the cost of electricity generation using direct firing of biomass, and estimate the required REC prices to make it competitive with coal fired electricity generation. Major findings suggest that more than 2.6 million tonnes of biomass are produced every year within 200 km of the regional hub of Mount Gambier and biomass fired electricity is viable using feedstock with a plant gate cost of 46 Australian Dollars (AUD) per tonne under the current REC price of 34 AUD per MWh. These findings are then discussed in the context of regional energy security and existing targets and incentives for renewable energies. -- Highlights: → We assessed the biomass production in the Green Triangle. → 2.6 million tonnes of biomass per year are produced within 200 km from Mt Gambier. → Renewable Energy Certificates makes bioenergy competitive with coal electricity. → At a REC price of 34 AUD, biomass of up to 46 AUD/tonne might be used for bionergy

  18. Optimize awareness of hazards in underground coal mines caused by electrical ignitions and fires through appropriate training guidelines.

    CSIR Research Space (South Africa)

    Page, TPT

    1998-03-01

    Full Text Available technical requirements and suggestions for appropriate training methodologies for each category of staff that could influence the likelihood of electrical ignitions and fires occurring, are contained....

  19. Development of a Hydrogasification Process for Co-Production of Substitute Natural Gas (SNG) and Electric Power from Western Coals

    Energy Technology Data Exchange (ETDEWEB)

    Sun, Xiaolei [Arizona Public Service Company, Pheonix, AZ (United States); Rink, Nancy [Arizona Public Service Company, Pheonix, AZ (United States)

    2011-04-30

    This report presents the results of the research and development conducted on an Advanced Hydrogasification Process (AHP) conceived and developed by Arizona Public Service Company (APS) under U.S. Department of Energy (DOE) contract: DE-FC26-06NT42759 for Substitute Natural Gas (SNG) production from western coal. A double-wall (i.e., a hydrogasification contained within a pressure shell) down-flow hydrogasification reactor was designed, engineered, constructed, commissioned and operated by APS, Phoenix, AZ. The reactor is ASME-certified under Section VIII with a rating of 1150 pounds per square inch gage (psig) maximum allowable working pressure at 1950 degrees Fahrenheit (°F). The reaction zone had a 1.75 inch inner diameter and 13 feet length. The initial testing of a sub-bituminous coal demonstrated ~ 50% carbon conversion and ~10% methane yield in the product gas under 1625°F, 1000 psig pressure, with a 11 seconds (s) residence time, and 0.4 hydrogen-to-coal mass ratio. Liquid by-products mainly contained Benzene, Toluene, Xylene (BTX) and tar. Char collected from the bottom of the reactor had 9000-British thermal units per pound (Btu/lb) heating value. A three-dimensional (3D) computational fluid dynamic model simulation of the hydrodynamics around the reactor head was utilized to design the nozzles for injecting the hydrogen into the gasifier to optimize gas-solid mixing to achieve improved carbon conversion. The report also presents the evaluation of using algae for carbon dioxide (CO2) management and biofuel production. Nannochloropsis, Selenastrum and Scenedesmus were determined to be the best algae strains for the project purpose and were studied in an outdoor system which included a 6-meter (6M) radius cultivator with a total surface area of 113 square meters (m2) and a total culture volume between 10,000 to 15,000 liters (L); a CO2 on-demand feeding system; an on-line data collection system for temperature, p

  20. Development of standardized air-blown coal gasifier/gas turbine concepts for future electric power systems

    Energy Technology Data Exchange (ETDEWEB)

    Sadowski, R.S.; Brown, M.J.; Harriz, J.T.; Ostrowski, E.

    1991-01-01

    The cost estimate provided for the DOE sponsored study of Air Blown Coal Gasification was developed from vendor quotes obtained directly for the equipment needed in the 50 MW, 100 MW, and 200 MW sized plants and from quotes from other jobs that have been referenced to apply to the particular cycle. Quotes were generally obtained for the 100 MW cycle and a scale up/down factor was used to generate the cost estimates for the 200 MW and 50 MW cycles, respectively. Information from GTPro (property of Thermoflow, Inc.) was used to estimate the cost of the 200 MW and 50 MW gas turbine, HRSG, and steam turbines. To available the use of GTPro's estimated values for this equipment, a comparison was made between the quotes obtained for the 100 MW cycle (ABB GT 11N combustion turbine and a HSRG) against the estimated values by GTPro.

  1. Coal-92

    International Nuclear Information System (INIS)

    Hillring, B.; Sparre, C.

    1992-11-01

    Swedish consumption of coal and coke during 1991 and trends in technology, environment and market aspects of coal use are reported. Steam coal use in the heating sector was unchanged from 1991, 1.2 Mtons. Reduced consumption in smaller district heating units (due to conversion to biofuels and gas) was compensated by increased use for power generation in cogeneration plants. Coal consumption in industry fell 0.10 Mton to 0.84 Mton due to lower production in one industry branch. Import of steam coal was 1.1 Mton (down 0.5 Mton from 1990) since new rules for strategic reserves allowed a reduction of stocks. During the last five years stocks have been reduced by 2 Mtons. Import of metallurgical coal was 1.6 Mton, unchanged from 1990. The report also gives statistics for the coal using plants in Sweden, on coal R and D, and on emission laws for coal firing. (9 tabs., 2 figs.)

  2. Development of standardized air-blown coal gasifier/gas turbine concepts for future electric power systems

    Energy Technology Data Exchange (ETDEWEB)

    1990-07-01

    CRS Sirrine (CRSS) is evaluating a novel IGCC process in which gases exiting the gasifier are burned in a gas turbine combustion system. The turbine exhaust gas is used to generate additional power in a conventional steam generator. This results in a significant increase in efficiency. However, the IGCC process requires development of novel approaches to control SO{sub 2} and NO{sub x} emissions and alkali vapors which can damage downstream turbine components. Ammonia is produced from the reaction of coal-bound nitrogen with steam in the reducing zone of any fixed bed coal gasifier. This ammonia can be partially oxidized to NO{sub x} when the product gas is oxidized in a gas turbine combustor. Alkali metals vaporize in the high-temperature combustion zone of the gasifier and laser condense on the surface of small char or ash particles or on cooled metal surfaces. It these alkali-coated materials reach the gas turbine combustor, the alkali will revaporize condense on turbine blades and cause rapid high temperature corrosion. Efficiency reduction will result. PSI Technology Company (PSIT) was contracted by CRSS to evaluate and recommend solutions for NO{sub x} emissions and for alkali metals deposition. Various methods for NO{sub x} emission control and the potential process and economic impacts were evaluated. This included estimates of process performance, heat and mass balances around the combustion and heat transfer units and a preliminary economic evaluation. The potential for alkali metal vaporization and condensation at various points in the system was also estimated. Several control processes and evaluated, including an order of magnitude cost for the control process.

  3. Declining price difference from gas to coal provides for a new situation in the electricity market; Sinkende Preisdifferenz von Gas zu Kohle sorgt fuer neue Lage am Strommarkt

    Energy Technology Data Exchange (ETDEWEB)

    Anon.

    2017-01-15

    The price difference (spread) between power coal and natural gas has increased sharply since 1999. This gap reached its peak in 2013 with 171 Euro/t SKE. In many cases, higher CO{sub 2} prices were required to promote gas use in the electricity sector. However, it has now become clear that falling gas prices lead to a growing competitiveness of natural gas. Interventions in the EU-ETS or at the national level with the aim to promote gas use in the electricity sector do not make sense and would merely reduce the competitive pressure on the gas producers and lead them to become a monopoly rents. [German] Der Preisabstand (Spread) zwischen Kraftwerkskohle und Erdgas stieg seit 1999 stark an. Dieser Gap erreichte in 2013 mit 171 Euro/t SKE seinen Hoechststand. Vielfach wurden hoehere CO{sub 2}-Preise gefordert, um den Gaseinsatz im Stromsektor zu foerdern. Doch inzwischen zeigt sich, dass fallende Gaspreise zu einer wachsenden Wettbewerbsfaehigkeit von Erdgas fuehren. Interventionen in das EU-ETS oder auf nationaler Ebene mit dem Ziel, den Gaseinsatz im Stromsektor zu foerdern, machen daher keinen Sinn und wuerden lediglich den Wettbewerbsdruck auf die Gasproduzenten mindern sowie fuer diese zu einer Monopolrente fuehren.

  4. Marginal cost pricing for coal fired electricity in coastal cities of China: the case of Mawan Electricity Plant in Shenzhen City, China.

    Science.gov (United States)

    Zhang, Shi-Qiu; Duan, Yan-Xin

    2003-05-01

    By developing a GDMOD model to estimate the environmental externalities associated with electricity generation, this project provides a detailed analysis of the damages and costs caused by different pollutants at varying distances from the Mawan Electricity Plant in Shenzhen, China. The major findings of this study can be summarized that (1) environmental damages caused by electricity production are large and are mainly imposed on regions far away from the electricity plant; (2) air pollution is the most significant contributor to the total damages, and SO2, NO(x), and particulate matter are the three major pollutants with highest damages; (3) the damages caused per unit of particulate,NO(x), and SO2 emissions are much higher than pollution treatment and prevention costs. The research results of this project showed that China needs to have a more effective levy system on SO2, and a more manageable electricity tariff mechanism to internalize the environmental externalities. The results have also implications for pollution control strategies, compensation schemes as well an emission trading arrangements.

  5. Geochemistry of vanadium (V) in Chinese coals.

    Science.gov (United States)

    Liu, Yuan; Liu, Guijian; Qu, Qinyuan; Qi, Cuicui; Sun, Ruoyu; Liu, Houqi

    2017-10-01

    Vanadium in coals may have potential environmental and economic impacts. However, comprehensive knowledge of the geochemistry of V in coals is lacking. In this study, abundances, distribution and modes of occurrence of V are reviewed by compiling >2900 reported Chinese coal samples. With coal reserves in individual provinces as the weighting factors, V in Chinese coals is estimated to have an average abundance of 35.81 μg/g. Large variation of V concentration is observed in Chinese coals of different regions, coal-forming periods, and maturation ranks. According to the concentration coefficient of V in coals from individual provinces, three regions are divided across Chinese coal deposits. Vanadium in Chinese coals is probably influenced by sediment source and sedimentary environment, supplemented by late-stage hydrothermal fluids. Specifically, hydrothermal fluids have relatively more significant effect on the enrichment of V in local coal seams. Vanadium in coals is commonly associated with aluminosilicate minerals and organic matter, and the modes of V occurrence in coal depend on coal-forming environment and coal rank. The Chinese V emission inventory during coal combustion is estimated to be 4906 mt in 2014, accounting for 50.55 % of global emission. Vanadium emissions by electric power plants are the largest contributor.

  6. Reconciling food security and bioenergy : Priorities for action

    NARCIS (Netherlands)

    Kline, Keith L.; Msangi, Siwa; Dale, Virginia H.; Woods, Jeremy; Souza, Glaucia m.; Osseweijer, P.; Clancy, Joy S.; Hilbert, Jorge A.; Johnson, Francis X.; Mcdonnell, Patrick C.; Mugera, Harriet K.

    Understanding the complex interactions among food security, bioenergy sustainability, and resource management requires a focus on specific contextual problems and opportunities. The United Nations' 2030 Sustainable Development Goals place a high priority on food and energy security; bioenergy

  7. Second annual clean coal technology conference: Proceedings

    International Nuclear Information System (INIS)

    1993-01-01

    This report contains paper on the following topics: coal combustion/coal processing; advanced electric power generation systems; combined nitrogen oxide/sulfur dioxide control technologies; and emerging clean coal issues and environmental concerns. These paper have been cataloged separately elsewhere

  8. Market survey Austria. Bio-energy

    International Nuclear Information System (INIS)

    2008-01-01

    Austria has a well developed bioenergy infrastructure as regards solid biomass and a strong growth in the biogas and biofuel sector. The results of a SWOT analysis show the major issues for the development in each of these sectors now and in the short to medium-term future. Based on the SWOT analyses the following conclusions are formulated: (1)The development of the wood biomass sector in Austria is successful. This can be seen from the point of view of the end user, biomass for heating in single houses as well in district heating systems is very widely spread. This created opportunities for Austrian firms producing biomass technology, now having a large market and expending abroad. This development creates, however, major challenges for players from other countries like the Netherlands. It may be difficult to enter this market, unless one offers a cheaper product with the same quality or finding a niche market with a new unique product; (2) The growth of the wood biomass application for heat and electricity has led to the occurrence of another problem, a competition for wood as resource between the energy sector and other applications as pulp and paper industry. Wood imports are nowadays increasing but in the longer term Austria cannot rely on that because of the growing biomass use in neighbouring countries. Austria will therefore have to look for ways how to optimise biomass use for the energy sector and increasing the use of other fuels like straw and other forms of agricultural waste: (3) The production of biogas presents a number of new applications, production of renewable electricity, production of biogas for the transport sector as well as the possibility to inject cleaned biogas into the natural gas grid. In the short term, production of renewable electricity is the most promising for investors as feed-in tariffs are available for these projects. The other applications are still in a pilot phase but may become interesting in the coming years; (4) The

  9. Perspectives on bioenergy and biotechnology in Brazil.

    Science.gov (United States)

    Pessoa, Adalberto; Roberto, Inês Conceição; Menossi, Marcelo; dos Santos, Raphael Revert; Filho, Sylvio Ortega; Penna, Thereza Christina Vessoni

    2005-01-01

    Brazil is one of the world's largest producers of alcohol from biomass at low cost and is responsible for more than 1 million direct jobs. In 1973, the Brazilian Program of Alcohol (Proalcool) stimulated the creation of a bioethanol industry that has led to large economic, social, and scientific improvements. In the year 1984, 94.5% of Brazil's cars used bioethanol as fuel. In 2003/2004, 350.3 million of sugarcane produced 24.2 million t of sugar and 14.4 billion L of ethanol for an average 4.3 million cars using ethanol. Since its inception, cumulative investment in Proalcool totals US$11 billion, and Brazil has saved US$27 billion in oil imports. The ethanol production industry from sugarcane gene-rates 152 times more jobs than would have been the case if the same amount of fuel was produced from petroleum, and the use of ethanol as a fuel is advantageous for environmental reasons. In 2003, one of the biggest Brazilian ethanol industries started consuming 50% of the residual sugarcane bagasse to produce electrical energy (60 MW), a new alternative use of bioenergy for the Brazilian market. Other technologies for commercial uses of bagasse are in development, such as in the production of natural fibers, sweeteners (glucose and xylitol), single-cell proteins, lactic acid, microbial enzymes, and many other products based on fermentations (submerged and semisolid). Furthermore, studies aimed at the increase in the biosynthesis of sucrose and, consequently, ethanol productivity are being conducted to understand the genetics of sugarcane. Although, at present, there remain technical obstacles to the economic use of some ethanol industry residues, several research projects have been carried out and useful data generated. Efficient utilization of ethanol industry residues has created new opportunities for new value-added products, especially in Brazil, where they are produced in high quantities.

  10. National Coal Quality Inventory (NACQI)

    Energy Technology Data Exchange (ETDEWEB)

    Robert Finkelman

    2005-09-30

    The U.S. Geological Survey (USGS) conducted the National Coal Quality Inventory (NaCQI) between 1999 and 2005 to address a need for quality information on coals that will be mined during the next 20-30 years. Collaboration between the USGS, State geological surveys, universities, coal burning utilities, and the coal mining industry plus funding support from the Electric Power Research Institute (EPRI) and the U.S. Department of Energy (DOE) permitted collection and submittal of coal samples for analysis. The chemical data (proximate and ultimate analyses; major, minor and trace element concentrations) for 729 samples of raw or prepared coal, coal associated shale, and coal combustion products (fly ash, hopper ash, bottom ash and gypsum) from nine coal producing States are included. In addition, the project identified a new coal reference analytical standard, to be designated CWE-1 (West Elk Mine, Gunnison County, Colorado) that is a high-volatile-B or high-volatile-A bituminous coal with low contents of ash yield and sulfur, and very low, but detectable contents of chlorine, mercury and other trace elements.

  11. Techno-economic analysis of bioenergy systems; Bioenergiasysteemien teknistaloudellinen analyysi. IEA Bioenergy Agreement Techno-economic Analysis

    Energy Technology Data Exchange (ETDEWEB)

    Solantausta, Y.

    1995-12-31

    The objectives of the IEA Bioenergy Technoeconomic Analysis Activity are: To promote development of thermochemical biomass conversion methods by carrying out selected site specific feasibility studies in participating countries. Both agricultural and woody biomasses will be converted either into electricity or boiler fuels. To compare advanced technologies to commercial alternatives based on techno-economic basis to establish future development needs. To facilitate information exchange between participants on relevant basic process issues. Five countries (Finland, Canada, USA, Norway, Austria) are participating to the Activity. Initially two feasibility studies are planned for each country. Each study has three common elements: site specific, technical, and economic data. The site specific cases are described below in short. Products in the cases are electricity, heat and fuel oil. Total of two cases per country are planned

  12. Bioenergy, its present and future competitiveness

    International Nuclear Information System (INIS)

    Ling, Erik

    1999-01-01

    The thesis deals with aspects of the competitiveness of bioenergy. The central aim is to develop a number of concepts that enables an extended analysis. The thesis is composed of four studies. In study 1 and 2 the emphasis is put on two institutional frameworks within the forest company, i.e. the framework around the forest fuel operations and the framework around the industrial timber operations. Depending on which of the two institutional frameworks that makes up the basis for the understanding of forest fuel operations, the forest fuel operations will be given different roles and different priorities. Different goals and the process of integrating the forest fuel operations into the forest company will therefore be carried out with different means, different feelings and different resources. Study 3 examines the conceptions that the actors of the energy system uphold. The study presents the concept of logic, which is an institutionalised conception of the competitiveness of bioenergy. Logics can be seen as the dominating conceptions within the energy system and are decisive in determining the factors and parameters that state the competitiveness of different forms of energy. Study 4 argues that the strategical work concerning the competitiveness of bioenergy in the long-run to a great extent is about understanding, shaping and utilising the conceptions that affect the bioenergy system. The study problematises strategies that are used to develop bioenergy by introducing the uncertainty of the future into the analysis. The uncertainty of the future is captured in different scenarios

  13. The Global Value of Coal

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2012-07-01

    Coal plays an essential role in our global energy mix, particularly for power generation; and through that to the alleviation of energy poverty. The use of coal continues to grow rapidly and will continue, together with other fuels, to support world economic and social development particularly in rapidly developing world economies such as China and India. The purpose of this paper is to highlight for policy makers the value of coal to world economic and social development and so encourage development of a policy environment that will allow the coal and electricity industries to make the necessary investments in production capacity and CO2 emissions reduction technologies.

  14. 76 FR 23768 - National Emission Standards for Hazardous Air Pollutants From Coal- and Oil-Fired Electric...

    Science.gov (United States)

    2011-04-28

    ... Electric Utility, Industrial-Commercial-Institutional, and Small Industrial-Commercial- Institutional Steam...-Institutional, and Small Industrial- Commercial-Institutional Steam Generating Units.'' EPA is announcing three... accommodate all speakers that arrive and register before 8 p.m. A lunch break is scheduled from 12:30 p.m...

  15. 77 FR 45967 - National Emission Standards for Hazardous Air Pollutants From Coal- and Oil-Fired Electric...

    Science.gov (United States)

    2012-08-02

    ..., Industrial-Commercial-Institutional, and Small Industrial-Commercial- Institutional Steam Generating Units... Electric Utility, Industrial- Commercial-Institutional, and Small Industrial-Commercial-Institutional Steam... during * * * reconsideration * * * by the Administrator or the court for a period not to exceed three...

  16. The development of bioenergy in Austria and in the EU

    International Nuclear Information System (INIS)

    Schmidt, A.

    1999-01-01

    Austria is interested in using of biomass for energy because of its energy, environmental, agricultural and social policy. The country imports more than two thirds of the energy (about 350 P J/a). As the energy production using fossils decreases, the dependence of the country on imported energy increases. Compensation of this could be only an increase of hydropower and of bio-energy utilization but about 70% of the domestic hydropower is already used and the use of the remaining 30% is ecologically objected. So this increase relies on bio-energy. It is non exhaustible and very attractive as is neutral to carbon dioxide emissions. With of 46% of its territory wooded and large quantities of by-products, the country has an enormous potential for bio-energy production. Like other European countries there is surplus food and feed production, expressed as about 350 000 ha arable and greenland . The cultivation of new and special crops could reduce the surplus area to 170 000 ha for energy crops. The regional utilization of biomass for energy production would contribute to the creation of new jobs in the undeveloped rural areas. Each MW installed capacity would result to 2-3 new jobs and prevent the migration of 2-3 families from rural to urban regions saving large subsidies. The share of bio-energy is 10.9% of the primary energy consumption or 13.5% of the end energy consumption and is continually increasing. Bio-energy by wood by-product is mainly used for space heating with a total capacity of 2.5 GW: 90% of the furnaces are of less than 100 k W, the rest are of medium capacity (100-1000 k W) and only 364 of a capacity larger than 1MW. Considerable technical progress in decreasing emissions from wood burning was made in recently. About 25% of the bio-fuels are used in industrial installations and about 75% for space heating. The industrial boilers use fluidized-bed technology and co-generation systems using steam. Starting from 2005 3% of the electricity have to be

  17. An Integrated Biomass Production and Conversion Process for Sustainable Bioenergy

    Directory of Open Access Journals (Sweden)

    Weidong Huang

    2015-01-01

    Full Text Available There is not enough land for the current bioenergy production process because of its low annual yield per unit land. In the present paper, an integrated biomass production and conversion process for sustainable bioenergy is proposed and analyzed. The wastes from the biomass conversion process, including waste water, gas and solid are treated or utilized by the biomass production process in the integrated process. Analysis of the integrated process including the production of water hyacinth and digestion for methane in a tropical area demonstrates several major advantages of the integrated process. (1 The net annual yield of methane per unit land can reach 29.0 and 55.6 km3/h for the present and future (2040 respectively, which are mainly due to the high yield of water hyacinth, high biomethane yield and low energy input. The land demand for the proposed process accounts for about 1% of the world’s land to meet the current global automobile fuels or electricity consumption; (2 A closed cycle of nutrients provides the fertilizer for biomass production and waste treatment, and thus reduces the energy input; (3 The proposed process can be applied in agriculturally marginal land, which will not compete with food production. Therefore, it may be a good alternative energy technology for the future.

  18. Prospects for bioenergy use in Ghana using Long-range Energy Alternatives Planning model

    International Nuclear Information System (INIS)

    Kemausuor, Francis; Nygaard, Ivan; Mackenzie, Gordon

    2015-01-01

    As Ghana's economy grows, the choice of future energy paths and policies in the coming years will have a significant influence on its energy security. A Renewable Energy Act approved in 2011 seeks to encourage the influx of renewable energy sources in Ghana's energy mix. The new legal framework combined with increasing demand for energy has created an opportunity for dramatic changes in the way energy is generated in Ghana. However, the impending changes and their implication remain uncertain. This paper examines the extent to which future energy scenarios in Ghana could rely on energy from biomass sources, through the production of biogas, liquid biofuels and electricity. Analysis was based on moderate and high use of bioenergy for transportation, electricity generation and residential fuel using the LEAP (Long-range Energy Alternatives Planning) model. Results obtained indicate that introducing bioenergy to the energy mix could reduce GHG (greenhouse gas) emissions by about 6 million tonnes CO 2 e by 2030, equivalent to a 14% reduction in a business-as-usual scenario. This paper advocates the use of second generation ethanol for transport, to the extent that it is economically exploitable. Resorting to first generation ethanol would require the allocation of over 580,000 ha of agricultural land for ethanol production. - Highlights: • This paper examines modern bioenergy contribution to Ghana's future energy mix. • Three scenarios are developed and analysed. • Opportunities exist for modern bioenergy to replace carbon intensive fuels. • Introducing modern bioenergy to the mix could result in a 14% reduction in GHG.

  19. Global impacts of U.S. bioenergy production and policy: A general equilibrium perspective

    Science.gov (United States)

    Evans, Samuel Garner

    The conversion of biomass to energy represents a promising pathway forward in efforts to reduce fossil fuel use in the transportation and electricity sectors. In addition to potential benefits, such as greenhouse gas reductions and increased energy security, bioenergy production also presents a unique set of challenges. These challenges include tradeoffs between food and fuel production, distortions in energy markets, and terrestrial emissions associated with changing land-use patterns. Each of these challenges arises from market-mediated responses to bioenergy production, and are therefore largely economic in nature. This dissertation directly addresses these opportunities and challenges by evaluating the economic impacts of U.S. bioenergy production and policy, focusing on both existing and future biomass-to-energy pathways. The analysis approaches the issue from a global, economy-wide perspective, reflecting two important facts. First, that large-scale bioenergy production connects multiple sectors of the economy due to the use of agricultural land resources for biomass production, and competition with fossil fuels in energy markets. Second, markets for both agricultural and energy commodities are highly integrated globally, causing domestic policies to have international effects. The reader can think of this work as being comprised of three parts. Part I provides context through an extensive review of the literature on the market-mediated effects of conventional biofuel production (Chapter 2) and develops a general equilibrium modeling framework for assessing the extent to which these phenomenon present a challenge for future bioenergy pathways (Chapter 3). Part II (Chapter 4) explores the economic impacts of the lignocellulosic biofuel production targets set in the U.S. Renewable Fuel Standard on global agricultural and energy commodity markets. Part III (Chapter 5) extends the analysis to consider potential inefficiencies associated with policy

  20. State Bioenergy Primer: Information and Resources for States on Issues, Opportunities, and Options for Advancing Bioenergy

    Energy Technology Data Exchange (ETDEWEB)

    Byrnett, D. S.; Mulholland, D.; Zinsmeister, E.; Doris, E.; Milbrandt, A.; Robichaud. R.; Stanley, R.; Vimmerstedt, L.

    2009-09-01

    One renewable energy option that states frequently consider to meet their clean energy goals is the use of biomass resources to develop bioenergy. Bioenergy includes bioheat, biopower, biofuels, and bioproducts. This document provides an overview of biomass feedstocks, basic information about biomass conversion technologies, and a discussion of benefits and challenges of bioenergy options. The Primer includes a step-wise framework, resources, and tools for determining the availability of feedstocks, assessing potential markets for biomass, and identifying opportunities for action at the state level. Each chapter contains a list of selected resources and tools that states can use to explore topics in further detail.

  1. Brown coal gasification made easy

    International Nuclear Information System (INIS)

    Hamilton, Chris

    2006-01-01

    Few Victorians will be aware that gas derived from coal was first used in 1849 to provide lighting in a baker's shop in Swanston Street, long before electric lighting came to the State. The first commercial 'gas works' came on stream in 1856 and Melbourne then had street lighting run on gas. By 1892 there were 50 such gas works across the State. Virtually all were fed with black coal imported from New South Wales. Brown coal was first discovered west of Melbourne in 1857, and the Latrobe Valley deposits were identified in the early 1870s. Unfortunately, such wet brown coal did not suit the gas works. Various attempts to commercialise Victorian brown coal met with mixed success as it struggled to compete with imported New South Wales black coal. In June 1924 Yallourn A transmitted the first electric power to Melbourne, and thus began the Latrobe Valley's long association with generating electric power from brown coal. Around 1950, the Metropolitan Gas Company applied for financial assistance to build a towns gas plant using imported German gasification technology which had been originally designed for a brown coal briquette feed. The State Government promptly acquired the company and formed the Gas and Fuel Corporation. The Morwell Gasification Plant was opened on 9 December 1956 and began supplying Melbourne with medium heating value towns gas

  2. DEVELOPING STATE POLICIES SUPPORTIVE OF BIOENERGY DEVELOPMENT

    Energy Technology Data Exchange (ETDEWEB)

    Kathryn Baskin

    2004-07-28

    Working within the context of the Southern States Biobased Alliance (SSBA) and with officials in each state, the Southern States Energy Board (SSEB) is identifying bioenergy-related policies and programs within each state to determine their impact on the development, deployment or use of bioenergy. In addition, SSEB will determine which policies have impacted industry's efforts to develop, deploy or use biobased technologies or products. As a result, SSEB will work with the Southern States Biobased Alliance to determine how policy changes might address any negative impacts or enhance positive impacts. In addition to analysis of domestic policies and programs, this project will include the development of a U.S.-Brazil Biodiesel Pilot Project. The purpose of this effort is to promote and facilitate the commercialization of biodiesel and bioenergy production and demand in Brazil.

  3. DEVELOPING STATE POLICIES SUPPORTIVE OF BIOENERGY DEVELOPMENT

    Energy Technology Data Exchange (ETDEWEB)

    Kathryn Baskin

    2005-04-30

    Working within the context of the Southern States Biobased Alliance (SSBA) and with officials in each state, the Southern States Energy Board (SSEB) is identifying bioenergy-related policies and programs within each state to determine their impact on the development, deployment or use of bioenergy. In addition, SSEB will determine which policies have impacted industry's efforts to develop, deploy or use biobased technologies or products. As a result, SSEB will work with the Southern States Biobased Alliance to determine how policy changes might address any negative impacts or enhance positive impacts. In addition to analysis of domestic policies and programs, this project will include the development of a U.S.-Brazil Biodiesel Pilot Project. The purpose of this effort is to promote and facilitate the commercialization of biodiesel and bioenergy production and demand in Brazil.

  4. Bioenergy and climate change mitigation: an assessment

    DEFF Research Database (Denmark)

    Creutzig, Felix; Ravindranath, N. H.; Berndes, Göran

    2015-01-01

    Bioenergy deployment offers significant potential for climate change mitigation, but also carries considerable risks. In this review, we bring together perspectives of various communities involved in the research and regulation of bioenergy deployment in the context of climate change mitigation......: Land-use and energy experts, land-use and integrated assessment modelers, human geographers, ecosystem researchers, climate scientists and two different strands of life-cycle assessment experts. We summarize technological options, outline the state-of-the-art knowledge on various climate effects......-scale deployment (>200 EJ), together with BECCS, could help to keep global warming below 2° degrees of preindustrial levels; but such high deployment of land-intensive bioenergy feedstocks could also lead to detrimental climate effects, negatively impact ecosystems, biodiversity and livelihoods. The integration...

  5. DEVELOPING STATE POLICIES SUPPORTIVE OF BIOENERGY DEVELOPMENT

    Energy Technology Data Exchange (ETDEWEB)

    Kathryn Baskin

    2004-10-31

    Working within the context of the Southern States Biobased Alliance (SSBA) and with officials in each state, the Southern States Energy Board (SSEB) is identifying bioenergy-related policies and programs within each state to determine their impact on the development, deployment or use of bioenergy. In addition, SSEB will determine which policies have impacted industry's efforts to develop, deploy or use biobased technologies or products. As a result, SSEB will work with the Southern States Biobased Alliance to determine how policy changes might address any negative impacts or enhance positive impacts. In addition to analysis of domestic policies and programs, this project will include the development of a U.S.-Brazil Biodiesel Pilot Project. The purpose of this effort is to promote and facilitate the commercialization of biodiesel and bioenergy production and demand in Brazil.

  6. Willow bioenergy plantation research in the Northeast

    Energy Technology Data Exchange (ETDEWEB)

    White, E.H.; Abrahamson, L.P.; Kopp, R.F. [SUNY College of Environmental Science and Forestry, Syracuse, NY (United States); Nowak, C.A. [USDA Forest Service, Warren, PA (United States)

    1993-12-31

    Experiments were established in Central New York in the spring of 1987 to evaluate the potential of Salix for biomass production in bioenergy plantations. Emphasis of the research was on developing and refining establishment, tending and maintenance techniques, with complimentary study of breeding, coppice physiology, pests, nutrient use and bioconversion to energy products. Current yields utilizing salix clones developed in cooperation with the University of Toronto in short-rotation intensive culture bioenergy plantations in the Northeast approximate 8 oven dry tons per acre per year with annual harvesting. Successful clones have been identified and culture techniques refined. The results are now being integrated to establish a 100 acre Salix large-scale bioenergy farm to demonstrate current successful biomass production technology and to provide plantations of sufficient size to test harvesters; adequately assess economics of the systems; and provide large quantities of uniform biomass for pilot-scale conversion facilities.

  7. Coal-fired water pump

    Energy Technology Data Exchange (ETDEWEB)

    Zeilinger, J.E.; Kawa, W.; Lewis, P.S.; Hiteshue, R.W.

    1966-01-01

    The technical feasibility of using energy from explosive ignitions of coal dust to pump water was demonstrated in an exploratory investigation. Ignition of small amounts of pulverized coal that were dispersed in air over columns of water pumped 5.3 gallons of water per cycle when operated against a head of 30.75 feet. Water displacement was accomplished by either manual or automatic operation through a single cycle and by automatic operation through a continuous series of cycles of 1-minute duration. Operating through single cycles, slurries containing up to 3 pounds of coal and 4.6 gallons of water were also pumped. Possible uses of an efficient coal-fired pump would include pumping water for irrigation purposes, removing water from mines, transporting coal from mines in the form of a slurry, and pumping water to elevated reservoirs at electric power-plants so that it could be used to generate electricity during peak periods of demand.

  8. U.S. coal outlook in Asia

    International Nuclear Information System (INIS)

    Johnson, C.J.

    1997-02-01

    Coal exports from the US to Asia are declining over time as a result of (1) increased competition from coal suppliers within the Asia-Pacific region, (2) changing steel making technologies, (3) decreased emphasis on security of coal supplies, and (4) deregulation of the energy industry--particularly electric utilities. There are no major changes on the horizon that are likely to alter the role of the US as a modest coal supplier to the Asia-Pacific region. The downward trend in US coal exports to Asia is expected to continue over the 1997--2010 period. But economic and policy changes underway in Asia are likely to result in periodic coal shortages, lasting a few months to a year, and short term increased export opportunities for US coal. US coal exports to Asia are projected to fluctuate within the following ranges over the 2000--2010 period: 10--17 million tons in total exports, 6--12 million tons in thermal coal exports, and 4--9 million tons in coking coal exports. The most important role for US coal, from the perspective of Asian coal importing countries, is to ensure a major alternative source of coal supplies that can be turned to in the event of unforeseen disruptions in coal supplies from the Asia-Pacific region or South Africa. However, the willingness of consumers to pay a premium to ensure US export capacity is declining, with increased emphasis on obtaining the lowest cost coal supplies

  9. Waste wood as bioenergy feedstock. Climate change impacts and related emission uncertainties from waste wood based energy systems in the UK.

    Science.gov (United States)

    Röder, Mirjam; Thornley, Patricia

    2018-04-01

    Considering the urgent need to shift to low carbon energy carriers, waste wood resources could provide an alternative energy feedstock and at the same time reduce emissions from landfill. This research examines the climate change impacts and related emission uncertainties of waste wood based energy. For this, different grades of waste wood and energy application have been investigated using lifecycle assessment. Sensitivity analysis has then been applied for supply chain processes and feedstock properties for the main emission contributing categories: transport, processing, pelletizing, urea resin fraction and related N 2 O formation. The results show, depending on the waste wood grade, the conversion option, scale and the related reference case, that emission reductions of up to 91% are possible for non-treated wood waste. Compared to this, energy from treated wood waste with low contamination can achieve up to 83% emission savings, similar to untreated waste wood pellets, but in some cases emissions from waste wood based energy can exceed the ones of the fossil fuel reference - in the worst case by 126%. Emission reductions from highly contaminated feedstocks are largest when replacing electricity from large-scale coal and landfill. The highest emission uncertainties are related to the wood's resin fraction and N 2 O formation during combustion and, pelletizing. Comparing wood processing with diesel and electricity powered equipment also generated high variations in the results, while emission variations related to transport are relatively small. Using treated waste wood as a bioenergy feedstock can be a valid option to reduce emissions from energy production but this is only realisable if coal and landfill gas are replaced. To achieve meaningful emission reduction in line with national and international climate change targets, pre-treatment of waste wood would be required to reduce components that form N 2 O during the energy conversion. Copyright © 2017

  10. Spatial Variability of Near-surface Soil Moisture for Bioenergy Crops at the Great Lakes Bioenergy Research Center

    Science.gov (United States)

    van Dam, R. L.; Diker, K.; Bhardwaj, A. K.; Hamilton, S. K.

    2009-12-01

    We used time-lapse electrical resistivity imaging (ERI) to monitor spatial and temporal soil moisture variability below ten different potential bioenergy cropping systems at the Great Lakes Bioenergy Research Center’s sustainability research site in Michigan, U.S.A. These crops range from high-diversity, low-input grasses and poplars to low-diversity, high-input corn-soybean-canola rotations. We equipped the 28x40m vegetation plots with permanent 2D resistivity arrays, each consisting of 40 graphite electrodes at 30cm spacing. Other permanent equipment in each plot includes multi-depth temperature and time domain reflectometry (TDR) based moisture sensors, and two tension soil water samplers. The material at the site consists of coarse sandy glacial tills in which a soil with an approximately 50cm thick A-Bt horizon has developed. ERI data were collected using a dipole-dipole configuration every four weeks since early May 2009. After removal of bad points, the data were inverted and translated into 2D images of water content using lab-derived petrophysical relationships, including corrections for soil temperature and salinity. The results show significant seasonal variation within and between vegetation plots. We compare our results to high-temporal resolution point-based measurements of soil moisture from TDR probes and present statistical analysis of the variability of soil moisture within and between plots.

  11. Ecological assessment of integrated bioenergy systems using the Sustainable Process Index

    International Nuclear Information System (INIS)

    Krotscheck, C.; Konig, F.; Obernberger, I.

    2000-01-01

    Biomass utilisation for energy production presently faces an uphill battle against fossil fuels. The use of biomass must offer additional benefits to compensate for higher prices: on the basis of a life cycle assessment (using BEAM to evaluate a variety of integrated bioenergy systems in connection with the Sustainable Process Index as a highly aggregated environmental pressure index) it is shown that integrated bioenergy systems are superior to fossil fuel systems in terms of environmental compatibility. The implementation of sustainability measures provides additional valuable information that might help in constructing and optimising integrated bioenergy systems. For a set of reference processes, among them fast pyrolysis, atmospheric gasification, integrated gasification combined cycle (IGCC), combustion and steam cycle (CS) and conventional hydrolysis, a detailed impact assessment is shown. Sensitivity analyses of the most important ecological parameters are calculated, giving an overview of the impacts of various stages in the total life cycle and showing 'what really matters'. Much of the ecological impact of integrated bioenergy systems is induced by feedstock production. It is mainly the use of fossil fuels in cultivation, harvesting and transportation as well as the use of fertilisers in short-rotation coppice production that impose considerable ecological pressure. Concerning electricity generation the most problematic pressures are due to gaseous emissions, most notably the release of NO x . Moreover, a rather complicated process (high amount of grey energy) and the use of fossil pilot fuel (co-combustion) leads to a rather weak ecological performance in contrast to other 100% biomass-based systems. (author)

  12. Global warming potential impact of bioenergy systems

    DEFF Research Database (Denmark)

    Tonini, Davide; Hamelin, L.; Wenzel, H.

    environmental consequences related to land use changes. In this study the global warming potential impact associated with six alternative bioenergy systems based on willow and Miscanthus was assessed by means of life-cycle assessment. The results showed that bioenergy production may generate higher global...... warming impacts than the reference fossil fuel system, when the impacts from indirect land use changes are accounted for. In a life-cycle perspective, only highly-efficient co-firing with fossil fuel achieved a (modest) GHG emission reduction....

  13. DEVELOPING STATE POLICIES SUPPORTIVE OF BIOENERGY DEVELOPMENT

    International Nuclear Information System (INIS)

    Kathryn Baskin

    2001-01-01

    Working within the context of the Southern States Biobased Alliance (SSBA) and with officials in each state, the Southern States Energy Board (SSEB) is identifying bioenergy-related policies and programs within each state to determine their impact on the development, deployment or use of bioenergy. In addition, SSEB will determine which policies have impacted industry's efforts to develop, deploy or use biobased technologies or products. As a result, SSEB will work with the Southern States Biobased Alliance to determine how policy changes might address any negative impacts or enhance positive impacts

  14. DEVELOPING STATE POLICIES SUPPORTIVE OF BIOENERGY DEVELOPMENT

    Energy Technology Data Exchange (ETDEWEB)

    Kathryn Baskin

    2001-10-31

    Working within the context of the Southern States Biobased Alliance (SSBA) and with officials in each state, the Southern States Energy Board (SSEB) is identifying bioenergy-related policies and programs within each state to determine their impact on the development, deployment or use of bioenergy. In addition, SSEB will determine which policies have impacted industry's efforts to develop, deploy or use biobased technologies or products. As a result, SSEB will work with the Southern States Biobased Alliance to determine how policy changes might address any negative impacts or enhance positive impacts.

  15. DEVELOPING STATE POLICIES SUPPORTIVE OF BIOENERGY DEVELOPMENT

    Energy Technology Data Exchange (ETDEWEB)

    Kathryn Baskin

    2001-07-31

    Working within the context of the Southern States Biobased Alliance (SSBA) and with officials in each state, the Southern States Energy Board (SSEB) is identifying bioenergy-related policies and programs within each state to determine their impact on the development, deployment or use of bioenergy. In addition, SSEB will determine which policies have impacted industry's efforts to develop, deploy or use biobased technologies or products. As a result, SSEB will work with the Southern States Biobased Alliance to determine how policy changes might address any negative impacts or enhance positive impacts.

  16. DEVELOPING STATE POLICIES SUPPORTIVE OF BIOENERGY DEVELOPMENT

    Energy Technology Data Exchange (ETDEWEB)

    Kathryn Baskin

    2003-10-31

    Working within the context of the Southern States Biobased Alliance (SSBA) and with officials in each state, the Southern States Energy Board (SSEB) is identifying bioenergy-related policies and programs within each state to determine their impact on the development, deployment or use of bioenergy. In addition, SSEB will determine which policies have impacted industry's efforts to develop, deploy or use biobased technologies or products. As a result, SSEB will work with the Southern States Biobased Alliance to determine how policy changes might address any negative impacts or enhance positive impacts.

  17. Stump torrefaction for bioenergy application

    International Nuclear Information System (INIS)

    Tran, Khanh-Quang; Luo, Xun; Seisenbaeva, Gulaim; Jirjis, Raida

    2013-01-01

    Highlights: ► First study on torrefaction of stump for bioenergy application. ► Stump can achieve higher energy densification factors. ► Torrefied stump requires longer grinding time than torrefied wood. - Abstract: A fixed bed reactor has been developed for study of biomass torrefaction, followed by thermogravimetric (TG) analyses. Norway spruce stump was used as feedstock. Two other types of biomass, poplar and fuel chips were also included in the study for comparison. Effects of feedstock types and process parameters such as torrefaction temperature and reaction time on fuel properties of torrefied solid product were investigated. The study has demonstrated that fuel properties, including heating values and grindability of the investigated biomasses were improved by torrefaction. Both torrefaction temperature and reaction time had strong effects on the torrefaction process, but temperature effects are stronger than effects of reaction time. At the same torrefaction temperature, the longer reaction time, the better fuel qualities for the solid product were obtained. However, too long reaction times and/or too higher torrefaction temperatures would decrease the solid product yield. The torrefaction conditions of 300 °C for 35 min resulted in the energy densification factor of 1.219 for the stump, which is higher than that of 1.162 for the poplar wood samples and 1.145 for the fuel chips. It appears that torrefied stump requires much longer time for grinding, while its particle size distribution is only slightly better than the others. In addition, the TG analyses have shown that untreated biomass was more reactive than its torrefaction products. The stump has less hemicelluloses than the two other biomass types. SEM analyses indicated that the wood surface structure was broken and destroyed by torrefaction process

  18. Trends in european bioenergy law: problems, perspectives and risks.

    Directory of Open Access Journals (Sweden)

    Alice Caputo

    2014-10-01

    Full Text Available Research into new forms of energy is a current challenge. This paper aims to inquire into the real advantages of bioenergy and its sustainable development within the European legal framework, while also considering the negative aspects of bioenergy use. The European Union, in fact, is an important supporter of bioenergy and shows that, through good legislative policy, the negative aspects of bioenergy use can be surmounted . In conclusion, bioenergy and sustainable development can still be a plausible solution to feed the planet

  19. 76 FR 62050 - Issuance of a Loan Guarantee to Abengoa Bioenergy Biomass of Kansas, LLC for the Abengoa...

    Science.gov (United States)

    2011-10-06

    ... million loan guarantee under Title XVII of the Energy Policy Act of 2005 (EPAct 2005) to Abengoa Bioenergy... Efficiency and Renewable Energy (EERE) Golden Field Office. DOE published a Record of Decision (ROD) on... Section 1705 projects include renewable energy projects and related manufacturing facilities, electric...

  20. Firing a sub-bituminous coal in pulverized coal boilers configured for bituminous coals

    Energy Technology Data Exchange (ETDEWEB)

    N. Spitz; R. Saveliev; M. Perelman; E. Korytni; B. Chudnovsky; A. Talanker; E. Bar-Ziv [Ben-Gurion University of the Negev, Beer-Sheva (Israel)

    2008-07-15

    It is important to adapt utility boilers to sub-bituminous coals to take advantage of their environmental benefits while limiting operation risks. We discuss the performance impact that Adaro, an Indonesian sub-bituminous coal with high moisture content, has on opposite-wall and tangentially-fired utility boilers which were designed for bituminous coals. Numerical simulations were made with GLACIER, a computational-fluid-dynamic code, to depict combustion behavior. The predictions were verified with full-scale test results. For analysis of the operational parameters for firing Adaro coal in both boilers, we used EXPERT system, an on-line supervision system developed by Israel Electric Corporation. It was concluded that firing Adaro coal, compared to a typical bituminous coal, lowers NOx and SO{sub 2} emissions, lowers LOI content and improves fouling behavior but can cause load limitation which impacts flexible operation. 21 refs., 7 figs., 3 tabs.

  1. Nuclear vs coal: comparing cost trends

    International Nuclear Information System (INIS)

    Harrer, B.; Nieves, L.

    1981-01-01

    The leading competitors in the new-capacity-addition options, from now to 1990, will be nuclear and coal-fired units. As an alternative viewpoint to the coal vs nuclear economic comparison presented in the October 1981 issue of Electrical World, this study represents an analysis of cost data for generating electricity from the two fuel sources. The economic impacts on nuclear and coal units of varying the levels of several key cost parameters are examined and analyzed. 13 figures

  2. Accounting for Human Health and Ecosystems Quality in Developing Sustainable Energy Products: The Implications of Wood Biomass-based Electricity Strategies to Climate Change Mitigation

    Science.gov (United States)

    Weldu, Yemane W.

    fuel. Bioenergy alternatives have higher economic cost than the prevailing scenario of coal-fired generation system. Although coal fuel is the most cost effective way of electricity generation, its combustion results in the loss of 123.5 billion USD per year for Alberta due to societal life cycle cost. This research demonstrated that bioenergy can support the transformation of a fossil-based energy system to a more sustainable power production system; however, respiratory effects is a concern.

  3. 2015 Plan. Project 4: electric power supply, technologies, cost and availability. Sub-project mineral coal: prospection of their use in the thermoelectricity

    International Nuclear Information System (INIS)

    1993-10-01

    This paper determines a concept for analyzing the thermoelectric expansion by mineral coal in Brazil, as an alternative of integrated energy supply for a national strategic. The main issues relating with thermoelectric generation by mineral coal, a historical way of coal in the Brazilian view and the condition of their reserves and potentiality are presented. The political and economical directress of federal government, the environmental subject, the technological options and the investment costs are also discussed. (C.G.C.)

  4. Application of Pulsed Electrical Fields for Advanced Cooling and Water Recovery in Coal-Fired Power Plant

    Energy Technology Data Exchange (ETDEWEB)

    Young Cho; Alexander Fridman

    2009-04-02

    The overall objective of the present work was to develop technologies to reduce freshwater consumption in a cooling tower of coal-based power plant so that one could significantly reduce the need of make-up water. The specific goal was to develop a scale prevention technology based an integrated system of physical water treatment (PWT) and a novel filtration method so that one could reduce the need for the water blowdown, which accounts approximately 30% of water loss in a cooling tower. The present study investigated if a pulsed spark discharge in water could be used to remove deposits from the filter membrane. The test setup included a circulating water loop and a pulsed power system. The present experiments used artificially hardened water with hardness of 1,000 mg/L of CaCO{sub 3} made from a mixture of calcium chloride (CaCl{sub 2}) and sodium carbonate (Na{sub 2}CO{sub 3}) in order to produce calcium carbonate deposits on the filter membrane. Spark discharge in water was found to produce strong shockwaves in water, and the efficiency of the spark discharge in cleaning filter surface was evaluated by measuring the pressure drop across the filter over time. Results showed that the pressure drop could be reduced to the value corresponding to the initial clean state and after that the filter could be maintained at the initial state almost indefinitely, confirming the validity of the present concept of pulsed spark discharge in water to clean dirty filter. The present study also investigated the effect of a plasma-assisted self-cleaning filter on the performance of physical water treatment (PWT) solenoid coil for the mitigation of mineral fouling in a concentric counterflow heat exchanger. The self-cleaning filter utilized shockwaves produced by pulse-spark discharges in water to continuously remove scale deposits from the surface of the filter, thus keeping the pressure drop across the filter at a relatively low value. Artificial hard water was used in the

  5. DOE-INES New Planet Bioenergy Technical Report Final Public Version 7-22-16

    Energy Technology Data Exchange (ETDEWEB)

    Niederschulte, Mark [INEOS New Planet BioEnergy LLC, Vero Beach, FL (United States); Russell, Kelly [INEOS New Planet BioEnergy LLC, Vero Beach, FL (United States); Connors, Keith [INEOS New Planet BioEnergy LLC, Vero Beach, FL (United States)

    2016-07-22

    INEOS Bio and New Planet Energy Florida formed a joint venture company called INEOS New Planet BioEnergy (“INPB”) in 2009. This venture’s intent was to demonstrate at commercial scale INEOS Bio’s third-generation technology (the “Bio Process”) that converts a variety of lignocellulosic feedstocks into bioethanol and renewable electricity. INPB applied for and was awarded a $50,000,000 Department of Energy (“DOE”) grant in 2009 to support the construction of the commercial demonstration plant. The grant was a cost-sharing arrangement requiring at least 50% equity participation by the grantee. INPB completed construction of the Indian River BioEnergy Center in Vero Beach, Florida in June, 2012. The facility is designed to produce 8 million gallons per year of fuel-grade bioethanol and 6MW of electrical power, with upwards of 2MW exported to the electrical grid. Construction of the Indian River BioEnergy Center was completed on-time and within its capital budget of $121 million.

  6. IEA Bioenergy Countries' Report: Bioenergy policies and status of implementation

    Energy Technology Data Exchange (ETDEWEB)

    Bacovsky, Dina [Bioenergy 2020+ GmbH, Graz (Austria); Ludwiczek, Nikolaus [Bioenergy 2020+ GmbH, Graz (Austria); Pointner, Christian [Bioenergy 2020+ GmbH, Graz (Austria); Verma, Vijay Kumar [Bioenergy 2020+ GmbH, Graz (Austria)

    2016-08-05

    This report was prepared from IEA statistical data, information from IRENA, and IEA Bioenergy Tasks’ country reports, combined with data provided by the IEA Bioenergy Executive Committee. All individual country reports were reviewed by the national delegates to the IEA Bioenergy Executive Committee, who have approved the content. In the first section of each country report, national renewable energy targets are presented (first table in each country report), and the main pieces of national legislation are discussed. In the second section of each country report the total primary energy supply (TPES) by resources and the contribution of bioenergy are presented. All data is taken from IEA statistics for the year 2014. Where 2014 data was not available, 2013 data was used. It is worth noting that data reported in national statistics can differ from the IEA data presented, as the reporting categories and definitions are different. In the third section of each country report, the research focus related to bioenergy is discussed. Relevant funding programs, major research institutes and projects are described. In the fourth section, recent major bioenergy developments are described. Finally, in the fifth section, links to sources of information are provided.

  7. Impact of bioenergy on regionalized nitrogen balances

    Science.gov (United States)

    Häußermann, Uwe; Klement, Laura; Bach, Martin

    2017-04-01

    Results of regionalized and overall net-N-balances are used to fulfil different reporting obligations, as well as input data for nitrate leaching modelling (Bach et al. 2014). For Germany, these regionalized net-N-balances are calculated for 402 administrative units on the NUTS-III-level (Landkreise and kreisfreie Städte in Germany), 16 administrative units on the NUTS-I-level (Bundesländer in Germany) and the whole country for every year from 1995 to 2015. The so far existing net-N-balancing method includes nitrogen inputs and outputs of crop production and animal husbandry, however, not the utilization of crops and farmyard manure for energy production (Bach et al. 2014). Due to the introduction of guaranteed feed in tariffs for electricity production from biomass by the German renewable energy law in 2000 and the introduction of more favourable conditions for electricity production from biogas in 2004 (EEG 2000, EEG 2004) in the frame of the German policy of energy transition towards renewable energies („Energiewende"), the electric capacity of biogas plants had a steep increase in the years afterwards, the installed electric capacity increased from 149 MW in 2004 to 5080 MW in 2015 (BMWi and AGEE Stat 2016). The cropping area for the production of energy cops for biogas production increased as well from 0.4 Mio ha in 2007 to 1.393 Mio ha in 2015 (Statista 2017). We introduced a method to calculate the nitrogen input via energy crops, farmyard manure and organic waste, output via biogas digestates and gaseous nitrogen losses via NH3, N2O, NOx and N2 during the anaerobic digestion, digestate storage and spreading on the field, the emission factors for these nitrogen species are obtained from the report on methods and data for the agricultural part of the German national greenhouse gas inventory and informative inventory report (Haenel et al. 2016). To obtain highly resolved information on the distribution and capacity of biogas plants on NUTS-III-level, we

  8. Opportunities and barriers for international bioenergy trade

    NARCIS (Netherlands)

    Junginger, H.M.|info:eu-repo/dai/nl/202130703; van Dam, J.M.C.; Zarrilli, S.; Mohamed, F.A.; Marchal, D.; Faaij, A.P.C.|info:eu-repo/dai/nl/10685903X

    2011-01-01

    Recently, the international trade of various bioenergy commodities has grown rapidly, yet this growth is also hampered by some barriers. The aim of this paper is to obtain an overview of what market actors currently perceive as major opportunities and barriers for the development of international

  9. Water usage in southeastern bioenergy crop production

    Science.gov (United States)

    The southeastern United States with its long growing season and mild winter temperatures has long been able to produce a variety of food, forage, and fiber crops. In addition to these crops, the Southeast is capable of producing a plethora of lignoceullosic-based bioenergy crops for conversion into ...

  10. Utilization of summer legumes as bioenergy feedstocks

    Science.gov (United States)

    Sunn hemp (Crotolaria juncea), is a fast growing, high biomass yielding tropical legume that may be a possible southeastern bioenergy crop. When comparing this legume to a commonly grown summer legume—cowpeas (Vigna unguiculata), sunn hemp was superior in biomass yield and subsequent energy yield. S...

  11. Wood bioenergy and soil productivity research

    Science.gov (United States)

    D. Andrew Scott; Deborah S. Page-Dumroese

    2016-01-01

    Timber harvesting can cause both short- and long-term changes in forest ecosystem functions, and scientists from USDA Forest Service (USDA FS) have been studying these processes for many years. Biomass and bioenergy markets alter the amount, type, and frequency at which material is harvested, which in turn has similar yet specific impacts on sustainable productivity....

  12. Social Aspects of Bioenergy Sustainability Workshop Report

    Energy Technology Data Exchange (ETDEWEB)

    Luchner, Sarah [Energy Efficiency and Renewable Energy (EERE), Washington, DC (United States); Johnson, Kristen [Energy Efficiency and Renewable Energy (EERE), Washington, DC (United States); Lindauer, Alicia [Energy Efficiency and Renewable Energy (EERE), Washington, DC (United States); McKinnon, Taryn [Energy Efficiency and Renewable Energy (EERE), Washington, DC (United States); Broad, Max [Energy Efficiency and Renewable Energy (EERE), Washington, DC (United States)

    2013-05-30

    The Department of Energy (DOE) Office of Energy Efficiency and Renewable Energy Bioenergy Technologies Office held a workshop on “Social Aspects of Bioenergy” on April 24, 2012, in Washington, D.C., and convened a webinar on this topic on May 8, 2012. The findings and recommendations from the workshop and webinar are compiled in this report.

  13. Estimation of electric power generation using coal from the fruit peel of cupuassu in Amazonas State, Brazil; Estimativa de geracao de energia eletrica utilizando o carvao da casca do fruto do cupuacuzeiro no estado do Amazonas

    Energy Technology Data Exchange (ETDEWEB)

    Silva, Antonio Cleuder Lima da [Manaus Energia S/A., Manaus, AM (Brazil); Santos, Eyde Cristiane Saraiva dos [Universidade Federal do Amazonas (FCA/UFAM), Manaus, AM (Brazil). Faculdade de Ciencias Agrarias. Dept. de Engenharia Agricola e Solos], e-mail: eyde_cristianne@yahoo.com.br

    2008-07-01

    The application of the charcoal of agroforestry residue for the generation of electric energy, for being renewable power plant and possessing technology for application, comes being evidenced. In this research the potential of generation of electric energy was estimated, in the main producing cities of the State of Amazonas of the fruit of the cupuacuzeiro (Theobroma grandiflorum Wild. Ex. Spreng. Shum.), using the rind carbonized in technology of gasification, substitution of diesel. The charcoal of the rind of the fruit of the cupuacuzeiro presents to be able calorific next to the one to the deriving coal of the wood. Known the annual production of each one the cities, the amount and the cost of production of the generated electric energy, determined in this research, it justifies the exploitation of this residue, for having economic advantages, when comparative with the tariff of the adopted electric energy in the region for the concessionaire. (author)

  14. Bioenergy futures in Sweden – Modeling integration scenarios for biofuel production

    International Nuclear Information System (INIS)

    Börjesson Hagberg, Martin; Pettersson, Karin; Ahlgren, Erik O.

    2016-01-01

    Use of bioenergy can contribute to greenhouse gas emission reductions and increased energy security. However, even though biomass is a renewable resource, the potential is limited, and efficient use of available biomass resources will become increasingly important. This paper aims to explore system interactions related to future bioenergy utilization and cost-efficient bioenergy technology choices under stringent CO 2 constraints. In particular, the study investigates system effects linked to integration of advanced biofuel production with district heating and industry under different developments in the electricity sector and biomass supply system. The study is based on analysis with the MARKAL-Sweden model, which is a bottom-up, cost-optimization model covering the Swedish energy system. A time horizon to 2050 is applied. The results suggest that system integration of biofuel production has noteworthy effects on the overall system level, improves system cost-efficiency and influences parameters such as biomass price, marginal CO 2 emission reduction costs and cost-efficient biofuel choices in the transport sector. In the long run and under stringent CO 2 constraints, system integration of biofuel production has, however, low impact on total bioenergy use, which is largely decided by supply-related constraints, and on total transport biofuel use, which to large extent is driven by demand. - Highlights: • Long-term bioenergy scenarios for Sweden are modeled. • Efficient use of biomass resources will become increasingly important. • Integration of biofuel production with industry or heating improves efficiency. • Integration can reduce biomass prices and marginal CO 2 reduction costs. • Cost-efficient biofuel choices in the transport sector are affected.

  15. Importance of rural bioenergy for developing countries

    International Nuclear Information System (INIS)

    Demirbas, Ayse Hilal; Demirbas, Imren

    2007-01-01

    Energy resources will play an important role in the world's future. Rural bioenergy is still the predominant form of energy used by people in the less developed countries, and bioenergy from biomass accounts for about 15% of the world's primary energy consumption and about 38% of the primary energy consumption in developing countries. Furthermore, bioenergy often accounts for more than 90% of the total rural energy supplies in some developing countries. Earth life in rural areas of the world has changed dramatically over time. Industrial development in developing countries, coming at a time of low cost plentiful oil supplies, has resulted in greater reliance on the source of rural bioenergy than is true in the developed countries. In developed countries, there is a growing trend towards employing modern technologies and efficient bioenergy conversion using a range of biofuels, which are becoming cost wise competitive with fossil fuels. Currently, much attention has been a major focus on renewable alternatives in the developing countries. Renewable energy can be particularly appropriate for developing countries. In rural areas, particularly in remote locations, transmission and distribution of energy generated from fossil fuels can be difficult and expensive. Producing renewable energy locally can offer a viable alternative. Renewable energy can facilitate economic and social development in communities but only if the projects are intelligently designed and carefully planned with local input and cooperation. Particularly in poor rural areas, the costs of renewable energy projects will absorb a significant part of participants' small incomes. Bio-fuels are important because they replace petroleum fuels. Biomass and biofuels can be used as a substitute for fossil fuels to generate heat, power and/or chemicals. Generally speaking, biofuels are generally considered as offering many benefits, including sustainability, reduction of greenhouse gas emissions, regional

  16. Bioenergy options. Multidisciplinary participatory method for assessing bioenergy options for rural villages in Tanzania

    Energy Technology Data Exchange (ETDEWEB)

    Kauzeni, A.S.; Masao, H.P.; Sawe, E.N.; Shechambo, F.C. [Dar Es Salaam Univ. (Tanzania). Inst. of Resource Assessment; Ellegaard, A. [Stockholm Environment Inst. (Sweden)

    1998-12-31

    In Tanzania, like in many other developing countries in Southern and Eastern Africa, bioenergy planning has received relatively little attention, compared to planning for `modern` energy sources, although it accounts for about 90% of the country`s energy supply. As a result there is less understanding of the complexity and diversity of bioenergy systems. There is a lack of reliable data and information on bio-resources, their consumption and interaction with social, economic, institutional and environmental factors. This is largely due to lack of adequately developed and easily understood methods of data and information development, analysis and methods of evaluating available bioenergy options. In order to address the above constraints a project was initiated where the general objective was to develop and test a multi-disciplinary research method for identifying bioenergy options that can contribute to satisfying the energy needs of the rural household, agricultural and small scale industrial sectors, promote growth and facilitate sustainable development. The decision on the development and testing of a multidisciplinary research method was based on the fact that in Tanzania several bioenergy programmes have been introduced e.g. tree planting, improved cookstoves, biogas, improved charcoal making kilns etc. for various purposes including combating deforestation; promoting economic growth, substitution of imported petroleum fuels, health improvement, and raising standards of living. However efforts made in introducing these programmes or interventions have met with limited success. This situation prevails because developed bioenergy technologies are not being adopted in adequate numbers by the target groups. There are some indications from the study that some of the real barriers to effective bioenergy interventions or adoption of bioenergy technologies lie at the policy level and not at the project level. After the development and testing of the methodology

  17. Clean coal technology: gasification of South African coals - IFSA 2008

    CSIR Research Space (South Africa)

    Engelbrecht, AD

    2008-11-01

    Full Text Available Electricity demand in South Africa is increasing at a rate of 1000 MW per year. Whilst there is increasing pressure to adopt non-fossil fuel electricity generating technologies, the abundant reserves and low cost of coal make it the preferred energy...

  18. Role of community acceptance in sustainable bioenergy projects in India

    International Nuclear Information System (INIS)

    Eswarlal, Vimal Kumar; Vasudevan, Geoffrey; Dey, Prasanta Kumar; Vasudevan, Padma

    2014-01-01

    Community acceptance has been identified as one of the key requirements for a sustainable bioenergy project. However less attention has been paid to this aspect from developing nations and small projects perspective. Therefore this research examines the role of community acceptance for sustainable small scale bioenergy projects in India. While addressing the aim, this work identifies influence of community over bioenergy projects, major concerns of communities regarding bioenergy projects and factors influencing perceptions of communities about bioenergy projects. The empirical research was carried out on four bioenergy companies in India as case studies. It has been identified that communities have significant influence over bioenergy projects in India. Local air pollution, inappropriate storage of by-products and credibility of developer are identified as some of the important concerns. Local energy needs, benefits to community from bioenergy companies, level of trust on company and relationship between company and the community are some of the prime factors which influence community's perception on bioenergy projects. This research sheds light on important aspects related to community acceptance of bioenergy projects, and this information would help practitioners in understanding the community perceptions and take appropriate actions to satisfy them

  19. Risoe energy report 2. New and emerging bioenergy technologies

    Energy Technology Data Exchange (ETDEWEB)

    Larsen, H.; Kossmann, J.; Soenderberg Petersen, L. (eds.)

    2003-11-01

    Three growing concerns - sustainability (particularly in the transport sector), security of energy supply and climate change - have combined to increase interest in bioenergy. The trend towards bioenergy has been further encouraged by technological advances in biomass conversion and significant changes in energy markets. We even have a new term, 'modern bioenergy', to cover those areas of bioenergy technology - traditional as well as emerging - that could expand the role of bioenergy. Besides its potential to be carbon-neutral if produced sustainable, modern bioenergy shows the promise of covering a considerable part of the world's energy needs, increasing the security of energy supply through the use of indigenous resources, and improving local employment and land-use. To make these promises, however, requires further R and D. This report provides a critical examination of modern bioenergy, and describes current trends in both established and emerging bioenergy technologies. As well as examining the implications for the global energy scene, the report draws national conclusions for European and Danish energy supply, industry and energy research. The report presents the status of current R and D in biomass resources, supply systems, end products and conversion methods. A number of traditional and modern bioenergy technologies are assessed to show their current status, future trends and international R and D plans. Recent studies of emerging bioenergy technologies from international organisations and leading research organisations are reviewed. (BA)

  20. Chemical analyses of coal, coal-associated rocks and coal combustion products collected for the National Coal Quality Inventory

    Science.gov (United States)

    Hatch, Joseph R.; Bullock, John H.; Finkelman, Robert B.

    2006-01-01

    In 1999, the USGS initiated the National Coal Quality Inventory (NaCQI) project to address a need for quality information on coals that will be mined during the next 20-30 years. At the time this project was initiated, the publicly available USGS coal quality data was based on samples primarily collected and analyzed between 1973 and 1985. The primary objective of NaCQI was to create a database containing comprehensive, accurate and accessible chemical information on the quality of mined and prepared United States coals and their combustion byproducts. This objective was to be accomplished through maintaining the existing publicly available coal quality database, expanding the database through the acquisition of new samples from priority areas, and analysis of the samples using updated coal analytical chemistry procedures. Priorities for sampling include those areas where future sources of compliance coal are federally owned. This project was a cooperative effort between the U.S. Geological Survey (USGS), State geological surveys, universities, coal burning utilities, and the coal mining industry. Funding support came from the Electric Power Research Institute (EPRI) and the U.S. Department of Energy (DOE).

  1. Electricity

    Indian Academy of Sciences (India)

    AC power generation, its transmission and distribution. The well known observations made by Oersted that an electric current produces a magnetic field led a number of researchers to investigate whether the converse was true i.e. whether electric current can be produced from a magnetic field. Michael Faraday of England ...

  2. Coal - 96

    International Nuclear Information System (INIS)

    Sparre, C.

    1996-09-01

    The report deals mainly with coal consumption, but also gives some information about technology, environmental aspects and markets. Data have been collected by questionnaires or via telephone. The use of steam coal for heating was 0.8 Mtons (down 20% from 1994). Cogeneration plants were the main users. Taxes and environmental reasons cause a reduction of the coal use that will probably continue the next years. Use of steam coal in industry has been constant at a level of 0.7 Mtons. The import of metallurgical coal rests constant at a level of 1.6 Mtons. 1.2 Mtons of coke was produced, and 0.3 Mtons imported. The PFBC-plant at Vaertan, Stockholm used 0.13 Mtons of coal, while some coal fired power plants have been converted to peat and wood fuels. The average price of steam coal imported to Sweden in 1995 was 333 SEK/ton, 6% higher than in 1994. The contract prices for delivery 1996 are about the same as at the end of 1995. All cogeneration plants have some sort of SO 2 removal system, mostly wet-dry. The largest plant, at Vaesteraas, has recently invested in a SCR system for NO x removal. Most other plants are using low NO x burners or SNCR systems, based on ammonia or urea, which reduce the emissions 50 - 70%. Some statistic about the world coal market is also given in the report

  3. Asia's coal and clean coal technology market potential

    International Nuclear Information System (INIS)

    Johnson, C.J.; Binsheng Li

    1992-01-01

    The Asian region is unique in the world in having the highest economic growth rate, the highest share of coal in total primary energy consumption and the highest growth rate in electricity generation capacity. The outlook for the next two decades is for accelerated efforts to control coal related emissions of particulates and SO 2 and to a lessor extent NO x and CO 2 . Only Japan has widespread use of Clean Coal Technologies (CCTs) however a number of economies have plans to install CCTs in future power plants. Only CCTs for electricity generation are discussed, and are defined for the purpose of this paper as technologies that substantially reduce SO 2 and/or NO x emissions from coal-fired power plants. The main theses of this paper are that major increases in coal consumption will occur over the 1990-2010 period, and this will be caccompanied by major increases in coal related pollution in some Asian economies. Coal fired electricity generation is projected to grow at a high rate of about 6.9 percent per year over the 1990-2010 period. CCTs are projected to account for about 150 GW of new coal-fired capacity over the 1990-2010 period of about one-third of all new coal-fired capacity. A speculative conclusion is that China will account for the largest share of CCT additions over the 1990-2010 period. Both the US and Japan have comparative advantages that might be combined through cooperation and joint ventures to gain a larger share of the evolving CCT market in Asia. 5 refs., 7 figs., 4 tabs

  4. Legal framework for a sustainable biomass production for bioenergy on Marginal Lands

    Science.gov (United States)

    Baumgarten, Wibke; Pelikan, Vincent

    2017-04-01

    The EU H2020 funded project SEEMLA is aiming at the sustainable exploitation of biomass for bioenergy from marginal lands in Europe. Partners from Germany, Italy, Ukraine and Greece are involved in this project. Whereas Germany can be considered as well-established and leading country with regard to the production of bioenergy, directly followed by Italy and Greece, Ukraine is doing its first steps in becoming independent from fossil energy resources, also heading for the 2020+ goals. A basic, overarching regulation is the Renewable Energy Directive (RED) which has been amended in 2015; these amendments will be set in force in 2017. A new proposal for the period after 2020, the so called RED II, is under preparation. With cross-compliance and greening, the Common Agricultural Policy (CAP) offers measures for an efficient and ecological concept for a sustainable agriculture in Europe. In country-specific National Renewable Energy Action Plans (NREAP) a concept for 2020 targets is given for practical implementation until 2030 which covers e.g. individual renewable energy targets for electricity, heating and cooling, and transport sectors, the planned mix of different renewables technologies, national policies to develop biomass resources, and measures to ensure that biofuels are used to meet renewable energy targets are in compliance with the EU's sustainability criteria. While most of the NREAP have been submitted in 2010, the Ukrainian NREAP was established in 2014. In addition, the legal framework considering the protection of nature, e.g. Natura 2000, and its compartments soil, water, and atmosphere are presented. The SEEMLA approach will be developed in agreement with this already existing policy framework, following a sustainable principle for growing energy plants on marginal lands (MagL). Secondly, legislation regarding bioenergy and biomass potentials in the EU-28 and partner countries is introduced. For each SEEMLA partner an overview of regulatory

  5. Bioenergy and biodiversity: Key lessons from the Pan American region

    Energy Technology Data Exchange (ETDEWEB)

    Kline, Keith L. [Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States); Martinelli, Fernanda Silva [UFRRJ/Conservation International Brazil, Seropedica (Brazil); Mayer, Audrey L. [Michigan Technological Univ., Houghton, MI (United States); Medeiros, Rodrigo [Federal Rural Univ. of Rio de Janeiro, Rio de Janeiro (Brazil); Oliveira, Camila Ortolan F. [Univ. of Campinas, Campinas (Brazil); Sparovek, Gerd [Univ. of Sao Paulo, Piracicaba (Brazil); Walter, Arnaldo [Univ. of Campinas, Campinas (Brazil); Venier, Lisa A. [Canadian Forest Service, Sault Ste. Marie (Canada). Great Lakes Forestry Centre

    2015-06-24

    Understanding how large-scale bioenergy production can affect biodiversity and ecosystems is important if society is to meet current and future sustainable development goals. A variety of bioenergy production systems have been established within different contexts throughout the Pan American region, with wide-ranging results in terms of documented and projected effects on biodiversity and ecosystems. The Pan American region is home to the majority of commercial bioenergy production and therefore the region offers a broad set of experiences and insights on both conflicts and opportunities for biodiversity and bioenergy. This paper synthesizes lessons learned focusing on experiences in Canada, the United States, and Brazil, regarding the conflicts that can arise between bioenergy production and ecological conservation, and benefits that can be derived when bioenergy policies promote planning and more sustainable land management systems. Lastly, we propose a research agenda to address priority information gaps that are relevant to biodiversity concerns and related policy challenges in the Pan American region.

  6. Bioenergy and Biodiversity: Key Lessons from the Pan American Region.

    Science.gov (United States)

    Kline, Keith L; Martinelli, Fernanda Silva; Mayer, Audrey L; Medeiros, Rodrigo; Oliveira, Camila Ortolan F; Sparovek, Gerd; Walter, Arnaldo; Venier, Lisa A

    2015-12-01

    Understanding how large-scale bioenergy production can affect biodiversity and ecosystems is important if society is to meet current and future sustainable development goals. A variety of bioenergy production systems have been established within different contexts throughout the Pan American region, with wide-ranging results in terms of documented and projected effects on biodiversity and ecosystems. The Pan American region is home to the majority of commercial bioenergy production and therefore the region offers a broad set of experiences and insights on both conflicts and opportunities for biodiversity and bioenergy. This paper synthesizes lessons learned focusing on experiences in Canada, the United States, and Brazil regarding the conflicts that can arise between bioenergy production and ecological conservation, and benefits that can be derived when bioenergy policies promote planning and more sustainable land-management systems. We propose a research agenda to address priority information gaps that are relevant to biodiversity concerns and related policy challenges in the Pan American region.

  7. Bioenergy and Biodiversity: Key Lessons from the Pan American Region

    Science.gov (United States)

    Kline, Keith L.; Martinelli, Fernanda Silva; Mayer, Audrey L.; Medeiros, Rodrigo; Oliveira, Camila Ortolan F.; Sparovek, Gerd; Walter, Arnaldo; Venier, Lisa A.

    2015-12-01

    Understanding how large-scale bioenergy production can affect biodiversity and ecosystems is important if society is to meet current and future sustainable development goals. A variety of bioenergy production systems have been established within different contexts throughout the Pan American region, with wide-ranging results in terms of documented and projected effects on biodiversity and ecosystems. The Pan American region is home to the majority of commercial bioenergy production and therefore the region offers a broad set of experiences and insights on both conflicts and opportunities for biodiversity and bioenergy. This paper synthesizes lessons learned focusing on experiences in Canada, the United States, and Brazil regarding the conflicts that can arise between bioenergy production and ecological conservation, and benefits that can be derived when bioenergy policies promote planning and more sustainable land-management systems. We propose a research agenda to address priority information gaps that are relevant to biodiversity concerns and related policy challenges in the Pan American region.

  8. Coal liquefaction processes

    Energy Technology Data Exchange (ETDEWEB)

    Baker, N.R.; Blazek, C.F.; Tison, R.R.

    1979-07-01

    Coal liquefaction is an emerging technology receiving great attention as a possible liquid fuel source. Currently, four general methods of converting coal to liquid fuel are under active development: direct hydrogenation; pyrolysis/hydrocarbonization; solvent extraction; and indirect liquefaction. This work is being conducted at the pilot plant stage, usually with a coal feed rate of several tons per day. Several conceptual design studies have been published recently for large (measured in tens of thousands of tons per day coal feed rate) commercial liquefaction plants, and these reports form the data base for this evaluation. Products from a liquefaction facility depend on the particular method and plant design selected, and these products range from synthetic crude oils up through the lighter hydrocarbon gases, and, in some cases, electricity. Various processes are evaluated with respect to product compositions, thermal efficiency, environmental effects, operating and maintenance requirements, and cost. Because of the large plant capacities of current conceptual designs, it is not clear as to how, and on what scale, coal liquefaction may be considered appropriate as an energy source for Integrated Community Energy Systems (CES). Development work, both currently under way and planned for the future, should help to clarify and quantify the question of applicability.

  9. A prospective study of bioenergy use in Mexico

    Energy Technology Data Exchange (ETDEWEB)

    Islas, Jorge; Manzini, Fabio [Centro de Investigacion en Energia, Universidad Nacional Autonoma de Mexico (CIE-UNAM), Aptdo. Postal 34, Temixco, 62580 Morelos (Mexico); Masera, Omar [Centro de Investigaciones en Ecosistemas, Universidad Nacional Autonoma de Mexico (CIECO-UNAM), Antigua Carretera a Patzcuaro No. 8701, Morelia 58190, Michoacan (Mexico)

    2007-12-15

    Bioenergy is one of the renewable energy sources that can readily replace fossil fuels, while helping to reduce greenhouse gas emissions and promoting sustainable rural development. This paper analyses the feasibility of future scenarios based on moderate and high use of biofuels in the transportation and electricity generation sectors with the aim of determining their possible impact on the Mexican energy system. Similarly, it evaluates the efficient use of biofuels in the residential sector, particularly in the rural sub-sector. In this context, three scenarios are built within a time frame that goes from 2005 to 2030. In the base scenario, fossil fuels are assumed as the dominant source of energy, whereas in the two alternative scenarios moderate and high biofuel penetration diffusion curves are constructed and discussed on the basis of their technical and economical feasibility. Simulation results indicate that the use of ethanol, biodiesel and electricity obtained from primary biomass may account for 16.17% of the total energy consumed in the high scenario for all selected sectors. CO{sub 2} emissions reduction - including the emissions saved from the reduction in the non-sustainable use of fuelwood in the rural residential sector - is equivalent to 87.44 million tons of CO{sub 2} and would account for 17.84% of the CO{sub 2} emitted by electricity supply and transportation sectors when the base case and the high scenario are compared by 2030. (author)

  10. A prospective study of bioenergy use in Mexico

    International Nuclear Information System (INIS)

    Islas, Jorge; Manzini, Fabio; Masera, Omar

    2007-01-01

    Bioenergy is one of the renewable energy sources that can readily replace fossil fuels, while helping to reduce greenhouse gas emissions and promoting sustainable rural development. This paper analyses the feasibility of future scenarios based on moderate and high use of biofuels in the transportation and electricity generation sectors with the aim of determining their possible impact on the Mexican energy system. Similarly, it evaluates the efficient use of biofuels in the residential sector, particularly in the rural sub-sector. In this context, three scenarios are built within a time frame that goes from 2005 to 2030. In the base scenario, fossil fuels are assumed as the dominant source of energy, whereas in the two alternative scenarios moderate and high biofuel penetration diffusion curves are constructed and discussed on the basis of their technical and economical feasibility. Simulation results indicate that the use of ethanol, biodiesel and electricity obtained from primary biomass may account for 16.17% of the total energy consumed in the high scenario for all selected sectors. CO 2 emissions reduction-including the emissions saved from the reduction in the non-sustainable use of fuelwood in the rural residential sector-is equivalent to 87.44 million tons of CO 2 and would account for 17.84% of the CO 2 emitted by electricity supply and transportation sectors when the base case and the high scenario are compared by 2030

  11. The hazards of coal (other than the greenhouse effect)

    International Nuclear Information System (INIS)

    Durand, Bernard

    2012-01-01

    After an introduction in which he outlines the major role of coal in CO 2 emissions and the health effects associated with coal and, more precisely, with the various hazardous elements it contains, and also evokes the different types of coals and their difference with hydrocarbons, the author proposes an overview of coal production, uses, resources and reserves. He addresses the different environmental and health risks associated with coal: those related to exploitation and transport (direct mortality due to accidents, delayed mortality due to occupational diseases), those related to the use of coal (related to combustion products, to domestic use, to electricity production by coal-fired plants)

  12. Incorporating Bioenergy in Sustainable Landscape Designs Workshop Two: Agricultural Landscapes

    Energy Technology Data Exchange (ETDEWEB)

    None

    2015-08-01

    The Bioenergy Technologies Office hosted two workshops on Incorporating Bioenergy in Sustainable Landscape Designs with Oak Ridge and Argonne National Laboratories in 2014. The second workshop focused on agricultural landscapes and took place in Argonne, IL from June 24—26, 2014. The workshop brought together experts to discuss how landscape design can contribute to the deployment and assessment of sustainable bioenergy. This report summarizes the discussions that occurred at this particular workshop.

  13. Bioenergy from agricultural residues in Ghana

    DEFF Research Database (Denmark)

    Thomsen, Sune Tjalfe

    and biomethane under Ghanaian conditions. Detailed characterisations of thirteen of the most common agricultural residues in Ghana are presented, enabling estimations of theoretical bioenergy potentials and identifying specific residues for future biorefinery applications. When aiming at residue-based ethanol...... to pursue increased implementation of anaerobic digestion in Ghana, as the first bioenergy option, since anaerobic digestion is more flexible than ethanol production with regard to both feedstock and scale of production. If possible, the available manure and municipal liquid waste should be utilised first....... A novel model for estimating BMP from compositional data of lignocellulosic biomasses is derived. The model is based on a statistical method not previously used in this area of research and the best prediction of BMP is: BMP = 347 xC+H+R – 438 xL + 63 DA , where xC+H+R is the combined content of cellulose...

  14. Proceedings of the IEA Bioenergy Task 39 conference : biofuels and bioenergy, a changing climate

    International Nuclear Information System (INIS)

    2009-01-01

    The purpose of this conference was to showcase the advancements that have been made in bioenergy development. The presentations addressed several issues, including biorefinery integration; thermochemical technologies; biochemical technologies; feedstock harvest, pretreatment and logistics; biomass production and management; policy, strategies and trade; and greenhouse gas and life cycle assessment. Discussions focused on recent innovations in bioenergy and the feasibility of biofuels in the commercial marketplace with the aim to advance bioenergy development and reduce fossil fuel dependency. A two-day forest management and supply chain field trip was organized in conjunction with the conference. The conference featured 152 presentations, of which 30 have been catalogued separately for inclusion in this database. refs., tabs., figs.

  15. Rational bioenergy utilisation in energy systems and impacts on CO{sub 2} emissions

    Energy Technology Data Exchange (ETDEWEB)

    Wahlund, Bertil

    2003-04-01

    The increased use of biomass in energy systems is an important strategy to reduce CO{sub 2} emissions. The purpose of this thesis has been to analyse the opportunities for Sweden to further reduce CO{sub 2} emissions in the energy system, by rationally utilising woody biomass energy. The characteristics of current commercially operating biofuel-based CHP plants in Sweden are surveyed and systematically presented. A consistent and transparent comprehensive reference base for system comparisons is given. Furthermore, the fuel effectiveness and contribution to CO{sub 2} reduction is calculated. The governmental subsidies of the CHP plants investment, expressed as cost of specific CO{sub 2} reduction, appears to be low. The competitiveness of biomass-fuelled energy production in relation to fossil-based production with carbon capture is analysed, showing that the biomass-fuelled systems provide a competitive option, in terms of cost of electricity and efficiencies. The remaining Swedish woody biofuel potential of at least 100 PJ/yr is principally available in regions with a biomass surplus. Transportation is therefore required to enable its utilisation in national and international markets. Refining the biofuel feedstock to pellets, or even further refining to motor fuels (DME, methanol or ethanol) or power, could facilitate this transport. Different options for fuel refining are studied and compared. The entire fuel chain, from fuel feedstock to end users, is considered and CO{sub 2} emissions are quantified. Substituting fuel pellets for coal appears to be the most cost effective alternative and shows the largest CO{sub 2} reduction per energy unit biofuel. Motor fuels appear more costly and give about half the CO{sub 2} reduction. Transportation of the upgraded biofuel pellets is highly feasible from CO{sub 2} emissions point of view and does not constitute a hindrance for further utilisation, i.e. the pellets can be transported over long distances efficiently with

  16. Energy Conversion Alternatives Study (ECAS), Westinghouse phase 1. Volume 1: Introduction and summary and general assumptions. [energy conversion systems for electric power plants using coal - feasibility

    Science.gov (United States)

    Beecher, D. T.

    1976-01-01

    Nine advanced energy conversion concepts using coal or coal-derived fuels are summarized. They are; (1) open-cycle gas turbines, (2) combined gas-steam turbine cycles, (3) closed-cycle gas turbines, (4) metal vapor Rankine topping, (5) open-cycle MHD; (6) closed-cycle MHD; (7) liquid-metal MHD; (8) advanced steam; and (9) fuel cell systems. The economics, natural resource requirements, and performance criteria for the nine concepts are discussed.

  17. Coal: Energy for the future

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1995-05-01

    This report was prepared in response to a request by the US Department of energy (DOE). The principal objectives of the study were to assess the current DOE coal program vis-a-vis the provisions of the Energy Policy Act of 1992 (EPACT), and to recommend the emphasis and priorities that DOE should consider in updating its strategic plan for coal. A strategic plan for research, development, demonstration, and commercialization (RDD and C) activities for coal should be based on assumptions regarding the future supply and price of competing energy sources, the demand for products manufactured from these sources, technological opportunities, and the need to control the environmental impact of waste streams. These factors change with time. Accordingly, the committee generated strategic planning scenarios for three time periods: near-term, 1995--2005; mid-term, 2006--2020; and, long-term, 2021--2040. The report is divided into the following chapters: executive summary; introduction and scope of the study; overview of US DOE programs and planning; trends and issues for future coal use; the strategic planning framework; coal preparation, coal liquid mixtures, and coal bed methane recovery; clean fuels and specialty products from coal; electric power generation; technology demonstration and commercialization; advanced research programs; conclusions and recommendations; appendices; and glossary. 174 refs.

  18. Power Generation from Coal 2011

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2011-07-01

    This report focuses mainly on developments to improve the performance of coal-based power generation technologies, which should be a priority -- particularly if carbon capture and storage takes longer to become established than currently projected. A close look is taken of the major ongoing developments in process technology, plant equipment, instrumentation and control. Coal is an important source of energy for the world, particularly for power generation. To meet the growth in demand for energy over the past decade, the contribution from coal has exceeded that of any other energy source. Additionally, coal has contributed almost half of total growth in electricity over the past decade. As a result, CO2 emissions from coal-fired power generation have increased markedly and continue to rise. More than 70% of CO2 emissions that arise from power generation are attributed to coal. To play its role in a sustainable energy future, its environmental footprint must be reduced; using coal more efficiently is an important first step. Beyond efficiency improvement, carbon capture and storage (CCS) must be deployed to make deep cuts in CO2 emissions. The need for energy and the economics of producing and supplying it to the end-user are central considerations in power plant construction and operation. Economic and regulatory conditions must be made consistent with the ambition to achieve higher efficiencies and lower emissions. In essence, clean coal technologies must be more widely deployed.

  19. Prospects For Coal And Clean Coal Technologies In Kazakhstan

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2011-12-15

    The coal sector in Kazakhstan is said to have enough reserves to last over 100 years, but the forecasted reserves are expected to last several hundreds of years. This makes investing in the fuel and energy sector of the country an attractive option for many international and private organisations. The proven on-shore reserves will ensure extraction for over 30 years for oil and 75 years for gas. The future development of the domestic oil sector depends mainly on developing the Kazakh sector of the Caspian Sea. The coal sector, while not a top priority for the Kazakh government, puts the country among the world's top ten coal-rich countries. Kazakhstan contains Central Asia's largest recoverable coal reserves. In future, the development of the raw materials base will be achieved through enriching and improving the quality of the coal and the deep processing of coal to obtain fluid fuel and synthetic substances. Developing shale is also topical. The high concentration of methane in coal layers makes it possible to extract it and utilise it on a large scale. However, today the country's energy sector, which was largely established in the Soviet times, has reached its potential. Kazakhstan has about 18 GW of installed electricity capacity, of which about 80% is coal fired, most of it built before 1990. Being alert to the impending problems, the government is planning to undertake large-scale modernisation of the existing facilities and construct new ones during 2015-30. The project to modernise the national electricity grid aims to upgrade the power substations to ensure energy efficiency and security of operation. The project will result in installation of modern high-voltage equipment, automation and relay protection facilities, a dispatch control system, monitoring and data processing and energy management systems, automated electricity metering system, as well as a digital corporate telecommunication network.

  20. Quality aspects of thermal coal marketing

    International Nuclear Information System (INIS)

    Dunstone, D.

    1998-01-01

    Australia's thermal coal industry is under increasing competition. A successful marketing strategy must distinguish the product from that of Australian competitors, leaving the buyer in no doubt as to its value. The marketing of thermal coal is a very different experience and encompasses an interesting commercial and technical mix. The technical merits of a coal may be effectively used to prepare the way for a sale. However, once the technical hurdle is passed (i.e. the coal is classified as acceptable), the three factors which influence the sale are price, price and price. The other aspect of marketing is that marketing, especially technical market support, must realize that the buyer often has no experience in using the coals purchased. This is particularly true with thermal coals. Virtually no thought is given as to how the coal performs or how much is used. Consequently, it is not uncommon for cheap, low quality coals to be purchased, even though it is not the choice that will result in the lowest power generation cost when all other factors are taken into consideration. The author has developed a model which allows to differentiate between coals for a range of properties relative to the use of the coal, so that a coal company can calculate the break-even price in term of cost per kWh of electricity generated and enable a more valid cost comparison between coals to be made

  1. Review of a Proposed Quarterly Coal Publication

    Energy Technology Data Exchange (ETDEWEB)

    1981-01-01

    This Review of a Proposed Quartery Coal Publication contains findings and recommendations regarding the content of a new summary Energy Information Administration (EIA) coal and coke publication entitled The Quarterly Coal Review (QCR). It is divided into five sections: results of interviews with selected EIA data users; identification of major functions of the coal and coke industries; analysis of coal and coke data collection activities; evaluation of issues conerning data presentation including recommendations for the content of the proposed QCR; and comparison of the proposed QCR with other EIA publications. Major findings and recommendations are as follows: (1) User interviews indicate a definite need for a compehensive publication that would support analyses and examine economic, supply and demand trends in the coal industry; (2) the organization of the publication should reflect the natural order of activities of the coal and coke industries. Based on an analysis of the industries, these functions are: production, stocks, imports, exports, distribution, and consumption; (3) current EIA coal and coke surveys collect sufficient data to provide a summary of the coal and coke industries on a quarterly basis; (4) coal and coke data should be presented separately. Coke data could be presented as an appendix; (5) three geographic aggregations are recommended in the QCR. These are: US total, coal producing districts, and state; (6) coal consumption data should be consolidated into four major consumer categories: electric utilities, coke plants, other industrial, and residential commercial; (7) several EIA publications could be eliminated by the proposed QCR.

  2. Analysis of coal streams with californium-252

    International Nuclear Information System (INIS)

    Worster, B.W.

    1976-01-01

    The sulfur, ash, water, and energy content of coal are increasingly important parameters to various coal users because of their relationship to air pollution, energy conservation, and to the proper operation of coal-burning plants. For example, ash accumulation is critical in electric power plants and suppliers of coal operate under contracts specifying maximum ash and sulfur content of their product. Conventional analysis of streams of coal on the order of 100 to 2000 tons/hour have relief on elaborate mechanical sampling mechanisms to take primary, secondary, and tertiary cuts from the coal stream with pulverizing stages between cuts to reduce it down to a fine powder which is analyzed off-line with wet chemical methods. (X-ray backscatter techniques have been applied to small coal streams for ash analysis.) This technique is too slow for process control in coal cleaning and blending operations, and is unreliable because of the highly heterogeneous nature of coal as it comes from the mine. Analysis of the entire stream of coal for the parameters of interest appears to be feasible only by analyzing the prompt gamma rays produced by capture of thermal neutrons diffusing through the coal. At FMC Corporation, we are performing extensive tests of the analysis of coal on-line for its important parameters using a californium-252 neutron source. In this paper we report the progress of our tests and the outlook for commercial industrial application of the method

  3. Comparative life cycle assessment (LCA) of construction and demolition (C&D) derived biomass and U.S. northeast forest residuals gasification for electricity production.

    Science.gov (United States)

    Nuss, Philip; Gardner, Kevin H; Jambeck, Jenna R

    2013-04-02

    With the goal to move society toward less reliance on fossil fuels and the mitigation of climate change, there is increasing interest and investment in the bioenergy sector. However, current bioenergy growth patterns may, in the long term, only be met through an expansion of global arable land at the expense of natural ecosystems and in competition with the food sector. Increasing thermal energy recovery from solid waste reduces dependence on fossil- and biobased energy production while enhancing landfill diversion. Using inventory data from pilot processes, this work assesses the cradle-to-gate environmental burdens of plasma gasification as a route capable of transforming construction and demolition (C&D) derived biomass (CDDB) and forest residues into electricity. Results indicate that the environmental burdens associated with CDDB and forest residue gasification may be similar to conventional electricity generation. Land occupation is lowest when CDDB is used. Environmental impacts are to a large extent due to coal cogasified, coke used as gasifier bed material, and fuel oil cocombusted in the steam boiler. However, uncertainties associated with preliminary system designs may be large, particularly the heat loss associated with pilot scale data resulting in overall low efficiencies of energy conversion to electricity; a sensitivity analysis assesses these uncertainties in further detail.

  4. Coal marketing in Asia: Opportunities and challenges

    International Nuclear Information System (INIS)

    Klingner, D.

    1996-01-01

    In Asia, coal currently accounts for over 40 percent of the fossil fuel used for commercial energy. This paper briefly surveys the forces that are likely to decide the future role coal will play as a prime source of energy in the vigorous economies of Asia. As Australia is well placed to profit from Asia's growing need for coal, the challenge to Australian coal suppliers is how to maximize its potential contribution. Four-fifths of all new coal fired electrical generating capacity in the world in the next decade will be located in Asia. Three-quarters of Australia's coal exports are to Asian customers and, conversely, 40 percent of Asian imports are from Australia. Australian coal suppliers have established ties and a depth of marketing experience in the region on which to build. However, pricing policies, and the emergence of the private power producers, together with environmental pressures, will present challenges for the future. (author). 1 fig

  5. World coal outlook to the year 2000

    Energy Technology Data Exchange (ETDEWEB)

    1983-01-01

    The 1983 edition of the World Coal Outlook to the Year 2000 examines the worldwide impact of lower oil prices and lower economic activity on the demand, production, and international trade in coal. The report includes detailed regional forecasts of coal demand by end-use application. Regions include the US, Canada, Western Europe, Japan, Other Asia, Latin America, Africa, Australia/New Zealand, Communist Europe, and Communist Asia. In addition, regional coal production forecasts are provided with a detailed analysis of regional coal trade patterns. In all instances, the changes relative to Chase's previous forecasts are shown. Because of the current situation in the oil market, the report includes an analysis of the competitive position of coal relative to oil in the generation of electricity, and in industrial steam applications. The report concludes with an examination of the impact of an oil price collapse on the international markets for coal.

  6. Electricity

    Indian Academy of Sciences (India)

    which removes the heat produced In the core and the colis. I represents an Isolator which is a kind of. 'switch' used to isolate the station from the grid. Note the huge Insulators (marked I) that are used. The steel structures marked S support the conductors through insulators (courtesy: Kirloskar Electric Company, Bangalore).

  7. British coal-down to the line

    International Nuclear Information System (INIS)

    Anon.

    1993-01-01

    The long-running saga of British Coal's decline is in its final stages with virtually no change from last October when the British government announced plants to close 31 of the 50 remaining mines. That announcement produced a political outcry but having privatized the electricity industry in 1990 the government had effectively left itself up the creek without a paddle. It had no powers to force the generators to buy more coal. The status of the British coal industry is discussed

  8. The future of bioenergy in Sweden. Background and summary of outstanding issues

    International Nuclear Information System (INIS)

    Berndes, G.

    2006-01-01

    This report is intended to give a background to discussions about the future of bioenergy in Sweden, to be used by the Swedish Energy Agency in the planning of future efforts in the biofuel supply chain. An overview of the present supply and use of biomass in Sweden is given, and trends and prospects for increased use of bioenergy in Sweden are assessed. Both sources of increased bioenergy demand and possibilities for increased domestic supply are treated. Biomass contributes about 110 TWh, or one fifth of the Swedish energy supply. Biomass is mainly used for energy within the forest industry, in district heating plants, in the residential sector and for electricity production. More than 50% of the heat comes from biomass today. Based on a number of studies it is concluded that there is a potential for a substantial increase in the Swedish biofuel use, by introduction of new forest management practices and a re-orientation of agriculture. Calculations indicate that there is scope for a substantial increase in bioenergy use in Sweden and that the Swedish bioenergy potential is large enough to accommodate such an increase. However, related to the aspirations in the EC biofuel directive and the hopes that Sweden by taking early steps could become a major supplier of liquid biofuels in EU, it is also shown that Sweden to a significant extent would need to rely on imported bioenergy (biomass feedstock at the magnitude 100 TWh) in order to supply a biofuels industry capable of providing for the domestic market and also exporting substantial volumes of liquid biofuels to Europe. The prospects for a large-scale import of biofuels are discussed based on an analysis of the potential global biomass production and use in forestry and agriculture. A number of issues of great importance for increased biomass use are discussed - competitive land uses, availability of water, international trade rules, and international politics. The report also discusses additional and new uses of

  9. The future of bioenergy in Sweden. Background and summary of outstanding issues

    Energy Technology Data Exchange (ETDEWEB)

    Berndes, G. [Chalmers Univ. of Technology, Goeteborg (Sweden). Dept. of Energy and Environment; Magnusson, Leif [EnerGia Konsulterande Ingenjoerer AB, Stockholm (Sweden)

    2006-12-30

    This report is intended to give a background to discussions about the future of bioenergy in Sweden, to be used by the Swedish Energy Agency in the planning of future efforts in the biofuel supply chain. An overview of the present supply and use of biomass in Sweden is given, and trends and prospects for increased use of bioenergy in Sweden are assessed. Both sources of increased bioenergy demand and possibilities for increased domestic supply are treated. Biomass contributes about 110 TWh, or one fifth of the Swedish energy supply. Biomass is mainly used for energy within the forest industry, in district heating plants, in the residential sector and for electricity production. More than 50% of the heat comes from biomass today. Based on a number of studies it is concluded that there is a potential for a substantial increase in the Swedish biofuel use, by introduction of new forest management practices and a re-orientation of agriculture. Calculations indicate that there is scope for a substantial increase in bioenergy use in Sweden and that the Swedish bioenergy potential is large enough to accommodate such an increase. However, related to the aspirations in the EC biofuel directive and the hopes that Sweden by taking early steps could become a major supplier of liquid biofuels in EU, it is also shown that Sweden to a significant extent would need to rely on imported bioenergy (biomass feedstock at the magnitude 100 TWh) in order to supply a biofuels industry capable of providing for the domestic market and also exporting substantial volumes of liquid biofuels to Europe. The prospects for a large-scale import of biofuels are discussed based on an analysis of the potential global biomass production and use in forestry and agriculture. A number of issues of great importance for increased biomass use are discussed - competitive land uses, availability of water, international trade rules, and international politics. The report also discusses additional and new uses of

  10. No more coal-fired units

    International Nuclear Information System (INIS)

    Anon.

    1997-01-01

    According to Minister of the Environment Pekka Haavisto natural gas, bioenergy and renewables are the ways of responding to future base load power need. Greenhouse gas emissions using natural gas are around 60 % of those with coal. Increasing the share of generation accounted for by natural gas in the Nordic region is just as feasible in principle as elsewhere in Europe. A good proportion of new power stations elsewhere in the community are natural gas-fired. Vattenfall is planning a combined cycle station in the 700 - 900 MW range for Imatra, and Imatran Voima a 600 MW gas-fired unit for Inkoo. Replacing coal with natural gas is an essential part of efforts to stabile CO 2 emissions

  11. Quarterly coal report, January--March 1993

    Energy Technology Data Exchange (ETDEWEB)

    1993-08-20

    The United States produced 242 million short tons of coal in the first quarter of 1993, a decrease of 6 percent (14 million short tons) from the amount produced during the first quarter of 1992. The decrease was due to a decline in production east of the Mississippi River. All major coal-producing States in this region had lower coal production levels led by West Virginia, which produced 5 million short tons less coal. The principal reasons for the overall drop in coal output compared to a year earlier were: A decrease in demand for US coal in foreign markets; a slower rate of producer/distributor stock build-up; and a drawn-down of electric utility coal stocks. Distribution of US coal in the first quarter of 1993 was 10 million short tons lower than in the first quarter of 1992, with 5 million short tons less distributed to both electric utilities and overseas markets. The average price of coal delivered to electric utilities during the first quarter of 1993 was $28.65 per short ton, the lowest value since the first quarter of 1980. Coal consumption in the first quarter of 1993 was 230 million short tons, 4 percent higher than in the first quarter of 1992, due primarily to a 5-percent increase in consumption at electric utility plants. Total consumer stocks, at 153 million short tons, and electric utility stocks, at 144 million short tons, were at their lowest quarterly level since the end of 1989. US. coal exports totaled 19 million short tons, 6 million short tons less than in the first quarter of 1992, and the lowest quarterly level since 1988. The decline was primarily due to a 1-million-short-ton drop in exports to each of the following destinations: Italy, France, Belgium and Luxembourg, and Canada.

  12. Quarterly coal report, January--March 1993

    International Nuclear Information System (INIS)

    1993-01-01

    The United States produced 242 million short tons of coal in the first quarter of 1993, a decrease of 6 percent (14 million short tons) from the amount produced during the first quarter of 1992. The decrease was due to a decline in production east of the Mississippi River. All major coal-producing States in this region had lower coal production levels led by West Virginia, which produced 5 million short tons less coal. The principal reasons for the overall drop in coal output compared to a year earlier were: A decrease in demand for US coal in foreign markets; a slower rate of producer/distributor stock build-up; and a drawn-down of electric utility coal stocks. Distribution of US coal in the first quarter of 1993 was 10 million short tons lower than in the first quarter of 1992, with 5 million short tons less distributed to both electric utilities and overseas markets. The average price of coal delivered to electric utilities during the first quarter of 1993 was $28.65 per short ton, the lowest value since the first quarter of 1980. Coal consumption in the first quarter of 1993 was 230 million short tons, 4 percent higher than in the first quarter of 1992, due primarily to a 5-percent increase in consumption at electric utility plants. Total consumer stocks, at 153 million short tons, and electric utility stocks, at 144 million short tons, were at their lowest quarterly level since the end of 1989. US. coal exports totaled 19 million short tons, 6 million short tons less than in the first quarter of 1992, and the lowest quarterly level since 1988. The decline was primarily due to a 1-million-short-ton drop in exports to each of the following destinations: Italy, France, Belgium and Luxembourg, and Canada

  13. Environmental control implications of generating electric power from coal. Appendix C. Gasification/combined-cycle power generation: comparison of alternative systems. 1977 technology status report. [246 references w. abstracts

    Energy Technology Data Exchange (ETDEWEB)

    None

    1977-12-01

    The technical, economic, and environmental aspects of low-Btu gasification/combined-cycle power-generation (LBG/CCPG) plants are assessed, using available published data. Six base-case plants, based on three different gasifiers and two different coals, are investigated. A representative combined power cycle is selected for analysis, and material and energy balances for the six systems are developed. Emissions of various air pollutants, including sulfur dioxide and nitrogen oxides, and discharge rates of aqueous effluents are also calculated. The costs of electricity produced are derived for the six systems, using estimated plant-investment and operating costs. These costs and the emissions of various pollutants are compared with those for a conventional 500-MWe coal-based power plant using flue-gas cleaning and in compliance with the federal New Source Performance Standards. Finally, the commercialization potential of coal-based combined-cycle plants, based on the technical feasibility of building a first plant in the 1985 period and on economic viability, is evaluated. This evaluation is based on the current status of research and development programs for various components of the combined-cycle plant, such as gas turbines and fuel-gas-cleaning systems, and on the status of the demonstration plant.

  14. Quarterly coal report, April--June 1993

    Energy Technology Data Exchange (ETDEWEB)

    1993-11-26

    In the second quarter of 1993, the United States produced 235 million short tons of coal. This brought the total for the first half of 1993 to 477 million short tons, a decrease of 4 percent (21 million short tons) from the amount produced during the first half of 1992. The decrease was due to a 26-million-short-ton decline in production east of the Mississippi River, which was partially offset by a 5-million-short-ton increase in coal production west of the Mississippi River. Compared with the first 6 months of 1992, all States east of the Mississippi River had lower coal production levels, led by West Virginia and Illinois, which produced 9 million short tons and 7 million short tons less coal, respectively. The principal reasons for the drop in coal output for the first 6 months of 1993 compared to a year earlier were: a decrease in demand for US coal in foreign markets, particularly the steam coal markets; a draw-down of electric utility coal stocks to meet the increase in demand for coal-fired electricity generation; and a lower producer/distributor stock build-up. Distribution of US coal in the first half of 1993 was 15 million short tons lower than in the first half of 1992, with 13 million short tons less distributed to overseas markets and 2 million short tons less distributed to domestic markets.

  15. Analysis of growth dynamics of Mediterranean bioenergy crops

    NARCIS (Netherlands)

    Archontoulis, S.V.

    2011-01-01

    In spite of the rapidly growing bioenergy production worldwide, there is lack of field experience and experimental data on the cultivation of bioenergy crops. This study aims to advance crop management operations and modelling studies by providing essential information on phenology, agronomy and

  16. 75 FR 11836 - Bioenergy Program for Advanced Biofuels

    Science.gov (United States)

    2010-03-12

    ... Biofuels AGENCY: Rural Business-Cooperative Service (RBS), USDA. ACTION: Notice of Contract for Proposal... Year 2009 for the Bioenergy Program for Advanced Biofuels under criteria established in the prior NOCP... Bioenergy Program for Advanced Biofuels. In response to the previously published NOCP, approximately $14.5...

  17. Medium and long-term perspectives of international bioenergy trade

    NARCIS (Netherlands)

    Kranzl, Lukas; Daioglou, Vasileios; Faaij, Andre; Junginger, Martin; Keramidas, Kimon; Matzenberger, Julian; Tromborg, Erik

    2014-01-01

    In the coming decades, huge challenges in the global energy system are expected. Scenarios indicate that bioenergy will play a substantial role in this process. However, up to now there is very limited insight regarding the implication this may have on bioenergy trade in the long term. The

  18. Developments in international bio-energy markets and trade

    NARCIS (Netherlands)

    Faaij, A.P.C.

    2008-01-01

    A reliable and sustainable supply of biomass is vital to any market activity aimed at bioenergy production. Given the high expectations for bioenergy on a global scale and of many nations, the pressure on available biomass resources is increasing rapidly. Due to high prices for fossil fuels

  19. IEA Bioenergy Task 40 country report for the Netherlands 2011

    NARCIS (Netherlands)

    Goh, C.S.; Junginger, H.M.; Jonker, J.G.G.; Faaij, A.P.C.

    2011-01-01

    This country report was written within the frame of IEA Bioenergy Task 40. In summary, the aims of this country report are: (1) To provide a concise overview of biomass policy, domestic resources, biomass users, biomass prices and biomass trade, and (2) To analyse bioenergy trends, and reasons for

  20. Potential Bioenergy Options in Developed and Developing Countries

    African Journals Online (AJOL)

    Plant –based energy production (energy crops, forest growth) and residue and waste based fuels can substitute fossil fuels in a sustainable and environmental friendly way. In this study, bioenergy includes bio-resources that can be potentially used for modern energy production. Modern bioenergy options offer significant, ...

  1. Possibilities and limitations for sustainable bioenergy production systems

    NARCIS (Netherlands)

    Smeets, E.M.W.|info:eu-repo/dai/nl/311445217

    2008-01-01

    The focus of this thesis is on the possibilities and limitations of sustainable bioenergy production systems. First, the potential contribution of bioenergy to the energy supply in different world regions in the year 2050 from different biomass sources (dedicated woody energy crops, residues and

  2. Harmonising bioenergy resource potentials - Methodological lessons from review of state of the art bioenergy potential asessments

    NARCIS (Netherlands)

    Batidzirai, B.; Smeets, E.M.W.; Faaij, A.P.C.

    2012-01-01

    Published estimates of the potential of bioenergy vary widely, mainly due to the heterogeneity of methodologies, assumptions and datasets employed. These discrepancies are confusing for policy and it is thus important to have scientific clarity on the basis of the assessment outcomes. Such clear

  3. Bio-energy. Innovators talking; Bio-energie. Innovators aan het woord

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2013-02-15

    Qualitative studies have been conducted of the results of completed projects focused on energy innovation, spread over the seven themes of the top sector Energy: Energy saving in industry, Energy conservation in the built environment, Gas, Bio-energy, Smart grids, Offshore Wind, Solar PV. This provides insight into the follow-up activities and lessons of some EOS (Energy Research Subsidy) completed projects with the aim to inspire, connect and strengthen the TKIs (Topconsortia for Knowledge and Innovation) and individual companies and researchers working on energy innovation. This report concerns the research on bio-energy [Dutch] Er is een kwalitatief onderzoek uitgevoerd naar de resultaten van afgeronde projecten gericht op energie-innovatie, verdeeld over de zeven thema's van de topsector Energie: Energiebesparing in de industrie; Energiebesparing in de gebouwde omgeving; Gas; Bio-energie; Smart grids; Wind op zee; Zon-pv. Daarmee wordt inzicht gegeven in de vervolgactiviteiten en lessen van een aantal afgesloten EOS-projecten (Energie Onderzoek Subsidie) met het oog op het inspireren, verbinden en versterken van de TKI's (Topconsortia voor Kennis en Innovatie) en individuele bedrijven en onderzoekers die werken aan energie-innovatie. Dit rapport betreft het onderzoek naar bio-energie.

  4. Coal producers can smile, says NERA

    Energy Technology Data Exchange (ETDEWEB)

    1983-03-01

    Coal is expected to continue to displace gas and oil and to gain a substantial fraction of the new electric-generation market from nuclear during the rest of this century. Canadian hydropower is expected to be in competition with coal in Wisconsin, Minnesota and Michigan.

  5. Clean coal technology: coal's link to the future

    International Nuclear Information System (INIS)

    Siegel, J.S.

    1992-01-01

    Coal, the world's most abundant fossil fuel, is very important to the world's economy. It represents about 70% of the world's fossil energy reserves. It produces about 27% of the world's primary energy, 33% of the world's electricity, and it is responsible for about $21 billion in coal trade - in 1990, 424 million tons were traded on the international market. And, most importantly, because of its wide and even distribution throughout the world, and because of its availability, coal is not subject to the monopolistic practices of other energy options. How coal can meet future fuel demand in an economical, efficient and environmentally responsive fashion, with particular reference to the new technologies and their US applications is discussed. (author). 6 figs

  6. Impact evaluation of integrated food-bioenergy systems: A comparative LCA of peach nectar

    International Nuclear Information System (INIS)

    De Menna, Fabio; Vittuari, Matteo; Molari, Giovanni

    2015-01-01

    Processed food products present high energy intensity, along with a large amount of food losses and waste. The recovery of residual biomass as integrated renewable energy source could represent an interesting option for the substitution of fossil energy, contributing to the transition of agro-food sector towards a low-carbon economy. Two scenarios were compared, in order to evaluate the impacts of a fossil fuel-based food chain and the potential benefits of the integration of bioenergy production, using peach nectar as case study. In the first scenario, peach nectar is produced, distributed and consumed using fossil energy, while residuals are wasted. In the second scenario, byproducts from the nectar chain are used to produce bioenergy from combustion or anaerobic digestion, which is then consumed to substitute electricity and heat. A comparative life cycle assessment (LCA) based on the same functional unit was performed. Main results show that, in the conventional scenario, most of the damage derives from land use, especially for sugar and glucose production, from the fossil energy consumption of about 15 MJ l −1 , and the related greenhouse gas (GHG) emissions of 0.91 kg CO 2  eq l −1 . Food waste leads to a loss of about 20 kcal l −1 . Bioenergy integration would allow a 13–15% damage reduction, mainly due to the substitution of indirect energy consumption. The effects on human health and ecosystem quality are limited. - Highlights: • Up to 15 MJ l −1 of fossil energy are needed to produce 2.7 MJ of peach nectar. • About 20 out of 648 kcal l −1 of peach and nectar are wasted along the supply chain. • Added ingredients (sugar and glucose) cause a large share of land use impact. • Bioenergy from waste reduces up to 37% of non-renewable energy consumption

  7. Power Generation from Coal 2010

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2010-07-01

    Coal is the biggest single source of energy for electricity production and its share is growing. The efficiency of converting coal into electricity matters: more efficient power plants use less fuel and emit less climate-damaging carbon dioxide. This book explores how efficiency is measured and reported at coal-fired power plants. With many different methods used to express efficiency performance, it is often difficult to compare plants, even before accounting for any fixed constraints such as coal quality and cooling-water temperature. Practical guidelines are presented that allow the efficiency and emissions of any plant to be reported on a common basis and compared against best practice. A global database of plant performance is proposed that would allow under-performing plants to be identified for improvement. Armed with this information, policy makers would be in a better position to monitor and, if necessary, regulate how coal is used for power generation. The tools and techniques described will be of value to anyone with an interest in the more sustainable use of coal.

  8. The feasibility of co-firing biomass for electricity in Missouri

    International Nuclear Information System (INIS)

    Liu, Zuoming; Altman, Ira; Johnson, Thomas G.

    2014-01-01

    Bioenergy is one of the most significant energy resources with potential to serve as a partial replacement for fossil. As an agricultural state, Missouri has great potential to use biomass for energy production. In 2008, Missouri adopted a renewable portfolio standard (RPS) yet about 80% of its power supply still comes from coal. This paper describes a feasibility study of co-firing biomass in existing coal-powered plants in Missouri. Specifically, this study developed a linear programming model and simulated six scenarios to assess the economic feasibility and greenhouse gas impacts of co-firing biomass in existing qualified coal power plants in Missouri. The results of this study indicate that although co-firing can reduce the emissions of GHG and environmental pollutants, it is still not an economically feasible option for power generation without additional economic or policy incentives or regulations which could take environmental costs into account. Based on these results, strategies and policies to promote the utilization of biomass and to increase its competitiveness with fossil fuels are identified and discussed. - Highlights: • This paper reports on a study of the economic feasibility and environmental effects of co-firing biomass for electricity. • The feasibility of co-firing biomass varies by location depending on local availability of biomass and size of facility. • We apply a linear optimization model that generates economic and environmental indicators for each of several locations. • This paper will appeal to power generators, academic researchers and consultants interested in the feasibility of biopower

  9. International bioenergy trade in the Netherlands

    International Nuclear Information System (INIS)

    Junginger, Martin; Wit, Marc de; Sikkema, Richard; Faaij, Andre

    2008-01-01

    The international biomass trade in the Netherlands has been growing strongly over the last few years, but information on the corresponding volumes, origins and prices is barely available. The objectives of this paper are to quantify imported and exported biomass volumes and origins, and identify drivers and barriers behind the trade flows. Data collection was based on existing statistics and information obtained from biomass traders and end-users. Net import of biomass for energy purposes has been increasing from 2.5 PJ in 2003 to above 20 PJ in 2005-2006, consisting mainly of vegetable oils, agricultural residues and wood and wood-derived fuels, used to almost 100% in Dutch coal- and gas-fired power plants. Biomass exports (mainly of waste wood and construction wood) were high in 2004 (an estimated 13.2 PJ) but have probably strongly declined by the end of 2006, while (re)-export of wood pellets has been increasing in recent years, estimated at 5-7 PJ in 2005-2006. The main driver for biomass imports were the Dutch MEP feed-in tariff for electricity from biomass, while difficulties to obtain permits to co-fire (contaminated) waste wood were a main driver for the export of biomass. Rapidly changing feed-in tariff levels and support systems were seen as one of the largest barriers for the development of a stable biomass trade. Other major issues include concerns regarding the sustainability of biomass production, competition with biomass applications for food and fodder and import restrictions. Major additional imports of liquid transportation fuels are expected until 2010, which could possibly increase the import of biomass to over 50 PJ. (author)

  10. Comparing the life cycle costs of using harvest residue as feedstock for small- and large-scale bioenergy systems (part II)

    International Nuclear Information System (INIS)

    Cleary, Julian; Wolf, Derek P.; Caspersen, John P.

    2015-01-01

    In part II of our two-part study, we estimate the nominal electricity generation and GHG (greenhouse gas) mitigation costs of using harvest residue from a hardwood forest in Ontario, Canada to fuel (1) a small-scale (250 kW e ) combined heat and power wood chip gasification unit and (2) a large-scale (211 MW e ) coal-fired generating station retrofitted to combust wood pellets. Under favorable operational and regulatory conditions, generation costs are similar: 14.1 and 14.9 cents per kWh (c/kWh) for the small- and large-scale facilities, respectively. However, GHG mitigation costs are considerably higher for the large-scale system: $159/tonne of CO 2 eq., compared to $111 for the small-scale counterpart. Generation costs increase substantially under existing conditions, reaching: (1) 25.5 c/kWh for the small-scale system, due to a regulation mandating the continual presence of an operating engineer; and (2) 22.5 c/kWh for the large-scale system due to insufficient biomass supply, which reduces plant capacity factor from 34% to 8%. Limited inflation adjustment (50%) of feed-in tariff rates boosts these costs by 7% to 11%. Results indicate that policy generalizations based on scale require careful consideration of the range of operational/regulatory conditions in the jurisdiction of interest. Further, if GHG mitigation is prioritized, small-scale systems may be more cost-effective. - Highlights: • Generation costs for two forest bioenergy systems of different scales are estimated. • Nominal electricity costs are 14.1–28.3 cents/kWh for the small-scale plant. • Nominal electricity costs are 14.9–24.2 cents/kWh for the large-scale plant. • GHG mitigation costs from displacing coal and LPG are $111-$281/tonne of CO 2 eq. • High sensitivity to cap. factor (large-scale) and labor requirements (small-scale)

  11. Investigation on characterization of Ereen coal deposit

    Directory of Open Access Journals (Sweden)

    S. Jargalmaa

    2016-03-01

    Full Text Available The Ereen coal deposit is located 360 km west from Ulaanbaatar and 95 km from Bulgan town. The coal reserve of this deposit is approximately 345.2 million tons. The Ereen coal is used directly for the Erdenet power plant for producing of electricity and heat. The utilization of this coal for gas and liquid product using gasification and pyrolysis is now being considered. The proximate and ultimate analysis show that the Ereen coal is low rank D mark hard coal, which corresponds to subbituminous coal. The SEM images of initial coal sample have compact solid pieces. The SEM image of carbonized and activated carbon samples are hard material with high developed macro porosity structure. The SEM images of hard residue after thermal dissolution in autoclave characterizes hard pieces with micro porous structure in comparison with activated carbon sample. The results of the thermal dissolution of Ereen coal in tetralin with constant weight ratio between coal and tetralin (1:1.8 at the 450ºC show that 38% of liquid product can be obtained by thermal decomposition of the COM (coal organic matter.Mongolian Journal of Chemistry 16 (42, 2015, 18-21

  12. Clean Coal Initiatives in India

    Directory of Open Access Journals (Sweden)

    Sribas Goswami

    2014-08-01

    Full Text Available Availability of, and access to, coal is a crucial element of modern economies and it helps pave the way for human development. Accordingly, the thermal power sector and steel industries have been given a high priority in the national planning processes in India and a concerted focus on enhancing these sectors have resulted in significant gain in generation and availability of electricity and steel in the years since independence. To meet the need of huge demand of power coal is excavated. The process of excavation to the use of coal is potential enough to degrade the environment. Coal Mining is a development activity, which is bound to damage the natural ecosystem by all its activities directly and ancillary, starting from land acquisition to coal beneficiation and use of the products. Huge areas in the Raniganj and Jharia coal field in India have become derelict due to abandoned and active opencast and underground mines. The study is pursued to illustrate the facts which show the urgent need to clean coal mining in India.

  13. CoalVal-A coal resource valuation program

    Science.gov (United States)

    Rohrbacher, Timothy J.; McIntosh, Gary E.

    2010-01-01

    ; operating cost per ton; and discounted cash flow cost per ton to mine and process the resources. Costs are calculated as loaded in a unit train, free-on-board the tipple, at a rate of return prescribed by the evaluator. The recoverable resources (in short tons) may be grouped by incremental cost over any range chosen by the user. For example, in the Gillette coalfield evaluation, the discounted cash flow mining cost (at an 8 percent rate of return) and its associated tonnage may be grouped by any applicable increment (for example, $0.10 per ton, $0.20 per ton, and so on) and using any dollar per ton range that is desired (for example, from $4.00 per ton to $15.00 per ton). This grouping ability allows the user to separate the coal reserves from the nonreserve resources and to construct cost curves to determine the effects of coal market fluctuations on the availability of coal for fuel whether for the generation of electricity or for coal-to-liquids processes. Coking coals are not addressed in this report.

  14. Research on use of bioenergy; Bioenergian kaeyttoe. Tutkimusalueen katsaus

    Energy Technology Data Exchange (ETDEWEB)

    Helynen, S. [VTT Energy, Jyvaeskylae (Finland)

    1997-12-01

    The aims of Bioenergy Research Programme have been achieved in the field of fuel handling technologies and small scale combustion concepts but 3 - 4 large scale demonstration projects (0,2 - 0,3 million toe/year per utilization concept) before the year 2000 seems to be a very challenging aim. Ignition and explosion properties of wood and agro biomasses and biomass-coal mixtures are determined in atmospheric and pressurized conditions by VTT Energy with Spanish, French, Dutch and German partners in JOULE-project. Explosion suppression systems have also been tested successfully in pressurized conditions up to 10 bar with British partners. Feasibility of reed canary grass for chemical pulp and fuel is evaluated in a large FAIR project. VTT Energy is responsible for pelletising of fuel fraction, combustion of pellets, gasification and combustion of pulverized fuel fraction. Development of a system for receiving, crushing and screening recycled fuel material was concentrated on a heavy-duty two-rotor crusher and a crushing screen by BMH Wood Technology. Primary and secondary crushing are needed for optimum particle size distribution. The system will be demonstrated in Sweden. Dry gas-cleaning methods for gasification-diesel power plants and for other atmospheric-pressure applications of biomass gasification are developed by VTT Energy. Catalytic gas-cleaning methods are tested for engine applications in PDU-scale. Removal of trace metals, chlorine and other harmful contaminants of CFB gasification is studied with regard to co-combustion of the product gas in PC boilers

  15. Potential Environmental Benefits from Increased Use of Bioenergy in China

    Science.gov (United States)

    Fan, Shuyang; Freedman, Bill; Gao, Jixi

    2007-09-01

    Because of its large population and rapidly growing economy, China is confronting a serious energy shortage and daunting environmental problems. An increased use of fuels derived from biomass could relieve some demand for nonrenewable sources of energy while providing environmental benefits in terms of cleaner air and reduced emissions of greenhouse gases. In 2003, China generated about 25.9 × 108 metric tons of industrial waste (liquid + solid), 14.7 × 108 metric tons/year (t/y) of manure (livestock + human), 7.1 × 108 t/y of crop residues and food-processing byproducts, 2 × 108 t/y of fuelwood and wood manufacturing residues, and 1.5 × 108 t/y of municipal waste. Biofuels derived from these materials could potentially displace the use of about 4.12 × 108 t/y of coal and 3.75 × 106 t/y of petroleum. An increased bioenergy use of this magnitude would help to reduce the emissions of key air pollutants: SO2 by 11.6 × 106 t/y, NOX by 1.48 × 106 t/y, CO2 by 1.07 × 109 t/y, and CH4 by 50 × 106 t/y. The reduced SO2 emissions would be equivalent to 54% of the national emissions in 2003, whereas those for CO2 are 30%. It is important to recognize, however, that large increases in the use of biomass fuels also could result in socioeconomic and environmental problems such as less production of food and damage caused to natural habitats.

  16. Australia's coal industry bottoms out

    International Nuclear Information System (INIS)

    Edwards, G.E.

    2000-01-01

    The last decade has been a tough period for the Australian coal industry, despite increases in production, productivity and exports. Profitability has fallen, mines have closed and ownerships have changed hands. The start of the new millennium seems to be heralding in a welcome change of fortune for the Australian coal industry, with signs that a recovery is finally arriving. Coal provides around 26% of global primary energy needs (compared with oil at 40%, gas at 24%, nuclear at 7% and renewables at 3%) and generates about 37% of the world's electricity (compared with renewables at 21%, nuclear at 17%, gas at 16% and oil at 9%). This is in spite of the adverse publicity that coal has been receiving regarding its contribution to the Greenhouse Effect, even relative to other fossil fuels, principally natural gas

  17. Prospects for Hybrid Breeding in Bioenergy Grasses

    DEFF Research Database (Denmark)

    Aguirre, Andrea Arias; Studer, Bruno; Frei, Ursula

    2012-01-01

    , we address crucial topics to implement hybrid breeding, such as the availability and development of heterotic groups, as well as biological mechanisms for hybridization control such as self-incompatibility (SI) and male sterility (MS). Finally, we present potential hybrid breeding schemes based on SI...... of different hybrid breeding schemes to optimally exploit heterosis for biomass yield in perennial ryegrass (Lolium perenne L.) and switchgrass (Panicum virgatum), two perennial model grass species for bioenergy production. Starting with a careful evaluation of current population and synthetic breeding methods...

  18. Market survey Czech Republic. Bio-energy

    International Nuclear Information System (INIS)

    2008-01-01

    Basic characteristics of the market for bioenergy (biomass, biogas and biofuels) in the Czech Republic and consequences for business environment are summarized, based on a SWOT analysis. The Czech biomass market is still developing and is segmented and disintegrated to many regional or sector markets where also prices of biomass differ significantly and could be affected by dominant players. There were several attempts to establish a kind of biomass exchange, but were unsuccessful. The biomass trade is done usually on bilateral basis but without clear long-term agreements on contracts which would secure stable supply and prices

  19. The ''Jahrhundertvertrag'' (contract guaranteeing enhanced use of inland coal for electricity generation up to the end of the century) examined in the light of German and EC cartel law

    International Nuclear Information System (INIS)

    Maertens, M.

    1995-01-01

    The horizontal agreements concluded between the various electric utilities within the framework of the ''Jahrhundertvertrag'', (JHV), are a violation both of section 1 GWB (act against restraints on competition) and Art. 85 of the EC Treaty, and thus are void. The same applies to the horizontal agreements concluded between the coal mining companies in Germany, representing a violation of Art. 65, section 1 of the ECSC Treaty. As a result, the various vertical contracts concluded by the electical utilities and the coal mining companies are likewise affected by the decisions declaring the above agreements to be void. None of the applicable cartel law regimes permits exemptions from prohibition of restrictive practices beyond those provided for by cartel law. The electric utilities might receive permission from the German Federal Minister of Economics under section 8, sub-sec. 2 GWB, legalizing their agreements, but this permission would give legal effect to the cartel agreements in terms of civil law only if the EC Commission would decide to exempt this cartel from prohibition of restrictive practices of the EC Treaty by a decision in compliance with Art. 85, section 3 of the EC Treaty. The horizontal agreements of the mining companies are subject to Art. 65, section 2 of the ECSC treaty, and these stringent provisions do not leave room for an exemption in this case [de

  20. 30 CFR 75.509 - Electric power circuit and electric equipment; deenergization.

    Science.gov (United States)

    2010-07-01

    ... 30 Mineral Resources 1 2010-07-01 2010-07-01 false Electric power circuit and electric equipment... LABOR COAL MINE SAFETY AND HEALTH MANDATORY SAFETY STANDARDS-UNDERGROUND COAL MINES Electrical Equipment-General § 75.509 Electric power circuit and electric equipment; deenergization. [Statutory Provisions] All...

  1. Energy strategy would slow coal's growth, says DOE

    International Nuclear Information System (INIS)

    Anon.

    1991-01-01

    The National Energy Strategy (NES) recently announced by the Bush Administration would slow the growth in use of coal by hundreds of millions of tons of coal by hundreds of millions of tons after 2000, according to the Department of Energy's (DOE) own figures. If today's policies are continued, coal consumption will nearly triple by 2030. Current annual consumption of more than 900 million tons (19 quadrillion Btus) would rise to 1,550 million tons in 2010 and to nearly 2,600 million tons by 2030. Coal's share of electricity generation, now about 55%, would grow to 75% by 2030 under the current policy base assumptions of the DOE. The NES, however, projects that surge of nuclear power plant construction will stem the growth of coal use. The strategy would still increase coal use, from 19 quadrillion Btus today to about 28 quads in 2010, but to only 32 quads by 2030. By 2030, coal would account for less than 50% of electricity generation under the NES. Total clean coal technologies capacity is substantially lower under the NES scenario case than under the clean coal actions alone. The strategy also contains good news for the coal industry in the short run. It holds out two main goals for coal policy: maintaining coal's competitiveness while meeting environmental, health and safety requirements; and creating a favorable export climate for US coal and coal technology

  2. MHD power station with coal gasification

    International Nuclear Information System (INIS)

    Brzozowski, W.S.; Dul, J.; Pudlik, W.

    1976-01-01

    A description is given of the proposed operating method of a MHD-power station including a complete coal gasification into lean gas with a simultaneous partial gas production for the use of outside consumers. A comparison with coal gasification methods actually being used and full capabilities of power stations heated with coal-derived gas shows distinct advantages resulting from applying the method of coal gasification with waste heat from MHD generators working within the boundaries of the thermal-electric power station. (author)

  3. Life Cycle Assessment of Coal-fired Power Production

    Energy Technology Data Exchange (ETDEWEB)

    Spath, P. L.; Mann, M. K.; Kerr, D. R.

    1999-09-01

    Coal has the largest share of utility power generation in the US, accounting for approximately 56% of all utility-produced electricity (US DOE, 1998). Therefore, understanding the environmental implications of producing electricity from coal is an important component of any plan to reduce total emissions and resource consumption. A life cycle assessment (LCA) on the production of electricity from coal was performed in order to examine the environmental aspects of current and future pulverized coal boiler systems. Three systems were examined: (1) a plant that represents the average emissions and efficiency of currently operating coal-fired power plants in the US (this tells us about the status quo), (2) a new coal-fired power plant that meets the New Source Performance Standards (NSPS), and (3) a highly advanced coal-fired power plant utilizing a low emission boiler system (LEBS).

  4. The two faces of coal : uncertainty the common prospect for metallurgical and thermal coal

    International Nuclear Information System (INIS)

    Zlotnikov, D.

    2010-01-01

    Although the methods of producing thermal and metallurgical coal are the same, metallurgical coal is destined to cross the world for steel manufacturing and thermal coal is destined for power plants close to where it was mined. This article discussed the factors influencing the price of these 2 coals. The production of thermal coal can remain steady during an economic crisis because coal-fired power plants generally provide low-cost-base-load electricity that remains stable during economic cycles. However, the demand for metallurgical coal is more volatile during an economic crisis because it is directly related to the demand for steel products in the construction and automotive industry, which are very sensitive to the state of the economy. There have been recent indications that Canada's export market for thermal coal is on the rise. In 2008, China became a net importer of coking coal. China's need for more coal to fuel its growing economy despite the global economic slowdown has meant that producers are diverting excess supply from European markets to China. Higher-end thermal coal offers low sulphur content and higher energy content, both desirable traits for power utilities facing strict emissions control. In addition to having huge reserves of very high-quality coal that is becoming increasingly important to China, Canada has the advantage of having the available transportation capacity in its west coast terminals and on its rail network. 3 figs.

  5. Perennial Forages as Second Generation Bioenergy Crops

    Directory of Open Access Journals (Sweden)

    Paul R. Adler

    2008-05-01

    Full Text Available The lignocellulose in forage crops represents a second generation of biomass feedstock for conversion into energy-related end products. Some of the most extensively studied species for cellulosic feedstock production include forages such as switchgrass (Panicum virgatum L., reed canarygrass (Phalaris arundinacea L., and alfalfa (Medicago sativa L.. An advantage of using forages as bioenergy crops is that farmers are familiar with their management and already have the capacity to grow, harvest, store, and transport them. Forage crops offer additional flexibility in management because they can be used for biomass or forage and the land can be returned to other uses or put into crop rotation. Estimates indicate about 22.3 million ha of cropland, idle cropland, and cropland pasture will be needed for biomass production in 2030. Converting these lands to large scale cellulosic energy farming could push the traditional forage-livestock industry to ever more marginal lands. Furthermore, encouraging bioenergy production from marginal lands could directly compete with forage-livestock production.

  6. Global warming potential impact of bioenergy systems

    Directory of Open Access Journals (Sweden)

    Wenzel H.

    2012-10-01

    Full Text Available Reducing dependence on fossil fuels and mitigation of GHG emissions is a main focus in the energy strategy of many Countries. In the case of Demark, for instance, the long-term target of the energy policy is to reach 100% renewable energy system. This can be achieved by drastic reduction of the energy demand, optimization of production/distribution and substitution of fossil fuels with biomasses. However, a large increase in biomass consumption will finally induce conversion of arable and currently cultivated land into fields dedicated to energy crops production determining significant environmental consequences related to land use changes. In this study the global warming potential impact associated with six alternative bioenergy systems based on willow and Miscanthus was assessed by means of life-cycle assessment. The results showed that bioenergy production may generate higher global warming impacts than the reference fossil fuel system, when the impacts from indirect land use changes are accounted for. In a life-cycle perspective, only highly-efficient co-firing with fossil fuel achieved a (modest GHG emission reduction.

  7. Cadmium in the bioenergy system - a synthesis

    International Nuclear Information System (INIS)

    Ahlfont, K.

    1997-12-01

    Cadmium is a toxic metal without any known positive biological effects. Both emissions and atmospheric deposition of cadmium have decreased radically in Sweden during recent years. In Sweden, about 150 tonnes of cadmium was supplied to the technosphere in 1990, mostly originating from NiCd batteries. More than 100 tonnes of cadmium accumulated in the technosphere. Mankind takes up cadmium from water, food and particulate atmospheric pollution. Even small amounts may be injurious in the long-term since the half-life in the kidneys is 30 years. Cadmium in biofuel and ashes are generally a cause of discussion. Ashes from biofuel constitute a nutrient resource that should be returned to the soil. A possible risk with spreading ashes is the spreading of heavy metals, and then foremost cadmium, which is among the heavy metals that forest soils are considered to tolerate the least. Several studies on cadmium in the bioenergy system have been made, both within the Research Programme for Recycling of Wood-ash, and within Vattenfall's Bioenergy Project. The present report is intended to provide a picture of the current state of knowledge and to review plans for the future With a 3 page summary in English. 51 refs, 1 fig, 3 tabs

  8. Bioenergy in the new Finnish energy strategy

    International Nuclear Information System (INIS)

    Vilkamo, S.

    1997-01-01

    As discussed in this conference paper, the goal of Finnish energy strategy is to bring the growth of the total energy consumption to a halt in the next 10-15 years and to speed up the restructuring of the energy economy without hampering economic growth. By 2010 the emission of greenhouse gases should be down to the 1990 level. To reach the goals, various means are available: taxation, subsidies, energy efficiency measures, replacing fossil sources with renewable and low-emission energy sources. By 1999 Finland should be connected to the European gas network. The use of bioenergy, wood fuels and wind power is encouraged. Peat is a competitive fuel in areas where it is locally available. To cut down on CO 2 emission it is necessary to increase the use of bioenergy, and by 2025 the use of wood will have increased considerably from the present level. At present, the wood reserves increase by one percent per year. Public funds will be set aside for energy wood research, for product development and marketing. Peat is an important indigenous energy resource, accounting for about 5% of all energy use. The Government is committed to closely follow up the implementation of its energy strategy. 1 ref., 3 figs

  9. Perennial Forages as Second Generation Bioenergy Crops

    Science.gov (United States)

    Sanderson, Matt A.; Adler, Paul R.

    2008-01-01

    The lignocellulose in forage crops represents a second generation of biomass feedstock for conversion into energy-related end products. Some of the most extensively studied species for cellulosic feedstock production include forages such as switchgrass (Panicum virgatum L.), reed canarygrass (Phalaris arundinacea L.), and alfalfa (Medicago sativa L.). An advantage of using forages as bioenergy crops is that farmers are familiar with their management and already have the capacity to grow, harvest, store, and transport them. Forage crops offer additional flexibility in management because they can be used for biomass or forage and the land can be returned to other uses or put into crop rotation. Estimates indicate about 22.3 million ha of cropland, idle cropland, and cropland pasture will be needed for biomass production in 2030. Converting these lands to large scale cellulosic energy farming could push the traditional forage-livestock industry to ever more marginal lands. Furthermore, encouraging bioenergy production from marginal lands could directly compete with forage-livestock production. PMID:19325783

  10. ACMECS Bioenergy Network: Implementing a transnational science-based policy network on bioenergy

    Science.gov (United States)

    Bruckman, Viktor J.; Haruthaithanasan, Maliwan; Kraxner, Florian; Brenner, Anna

    2017-04-01

    Despite the currently low prices for fossil energy resulting from a number of geopolitical reasons, intergovernmental efforts are being made towards a transition to a sustainable bio-economy. The main reasons for this include climate change mitigation, decreasing dependencies fossil fuel imports and hence external market fluctuations, diversification of energy generation and feedstock production for industrial processes. Since 2012, the ACMECS bioenergy network initiative leads negotiations and organizes workshops to set up a regional bioenergy network in Indochina, with the aim to promote biomass and -energy markets, technology transfer, rural development and income generation. Policy development is guided by the International Union of Forest Research Institutions (IUFRO) Task Force "Sustainable Forest Bioenergy Network". In this paper, we highlight the achievements so far and present results of a multi-stakeholder questionnaire in combination with a quantitative analysis of the National Bioenergy Development Plans (NBDP's). We found that traditional fuelwood is still the most important resource for generating thermal energy in the region, especially in rural settings, and it will remain an important resource even in 25 years. However, less fuelwood will be sourced from natural forests as compared to today. NBDP's have a focus on market development, technology transfer and funding possibilities of a regional bioenergy strategy, while the responses of the questionnaire favored more altruistic goals, i.e. sustainable resource management, environmental protection and climate change mitigation, generation of rural income and community involvement etc. This is surprising, since a sub-population of the (anonymous) questionnaire respondents was actually responsible drafting the NBDP's. We therefore suggest the following measures to ensure regulations that represent the original aims of the network (climate change mitigation, poverty alleviation, sustainable resource use

  11. Environmental control implications of generating electric power from coal. 1977 technology status report. Appendix D. Assessment of NO/sub x/ control technology for coal fired utility boilers. [Low-excess-air, staged combustion, flu gas recirculation and burner design

    Energy Technology Data Exchange (ETDEWEB)

    1977-12-01

    An NOx control technology assessment study was conducted to examine the effectiveness of low-excess-air firing, staged combustion, flue gas recirculation, and current burner/boiler designs as applied to coal-fired utility boilers. Significant variations in NOx emissions exist with boiler type, firing method, and coal type, but a relative comparison of emissions control performance, cost, and operational considerations is presented for each method. The study emphasized the numerous operational factors that are of major importance to the user in selecting and implementing a combustion modification technique. Staged combustion and low-excess-air operation were identified as the most cost-effective methods for existing units. Close control of local air/fuel ratios and rigorous combustion equipment maintenance are essential to the success of both methods. Flue gas recirculation is relatively ineffective and has the added concern of tube erosion. More research is needed to resolve potential corrosion concerns with low-NOx operating modes. Low-NOx burners in conjunction with a compartmentalized windbox are capable of meeting a 0.6-lb/million Btu emission level on new units. Advanced burner designs are being developed to meet research emission goals of approximately 0.25 lb/MBtu.

  12. Coal catalysts

    Energy Technology Data Exchange (ETDEWEB)

    Kroenig, W.

    1944-02-11

    Some considerations in the selection of a catalyst for the liquid phase of coal hydrogenation are discussed. Some of the previous history of such selections is mentioned. At one stage of the development, the principal catalyst had been iron sulfate (FeSO/sub 4/.7H/sub 2/O). Later, for reasons of cost and availability of large supplies, selections had turned to mixtures of iron sulfate and one or another of some iron oxide- and aluminum oxide-containing byproducts of aluminum manufacture, namely Bayermasse, Luxamsse, or Lautamasse. Much of the discussion centered on optimal proportions for such mixtures, particularly as related to pH values of resulting coal pastes. Upper Silesian coal was more alkaline than Ruhr coal, and Bayermasse, etc., were quite alkaline. Thus, since the iron sulfate served as a partial neutralizer for the coal as well as a catalyst, it seemed necessary to increase the proportions of iron sulfate in the catalyst mixture when processing coal of greater alkalinity. A further reason for a greater proportion of iron sulfate seemed to be that most of the catalytic activity of the iron came from the ferrous iron of iron sulfate rather than from the ferric iron of the other materials. Ferrous-ferric ratios also seemed to indicate that Luxmasse or Lautamasse might be better catalyst components than Bayermasse but their water content sometimes caused handling problems, so Bayermasse had been more widely used. Formation of deposits in the preheater was more likely due to the Bayermasse than to the iron sulfate; sodium sulfide could help to prevent them.

  13. Possibilities and limitations for sustainable bioenergy production systems

    International Nuclear Information System (INIS)

    Smeets, Edward Martinus Wilhelmus Utrecht University

    2008-05-01

    The main objective of this thesis is to investigate the possibilities and limitations of sustainable bioenergy production. To this end, the following research questions have been formulated: (1). What is the potential of different world regions to produce biomass for energy generation in the year 2050, taking account of biological and climatological limitations, the use of biomass to produce food, materials and traditional bioenergy, as well as the need to maintain existing forests and thus protect biodiversity?; (2) What are the main bottlenecks to formulating and implementing sustainability criteria for bioenergy production?; (3) To what extent does complying with sustainability criteria have impacts on the costs and potential of bioenergy production?; (4) To what extent do fertilizer- and manure-induced nitrous oxide (N2O) emissions due to energy crop production have an impact on the reduction of greenhouse gas (GHG) emissions when conventional transportation fuels are replaced by first-generation biofuels?; (5) In terms of economic and environmental performance, how does Europe's production, storage and transport of miscanthus and switchgrass in 2004 compare to that in 2030? Throughout this thesis, specific attention is paid to knowledge gaps and their potential impact on results, the aim being to identify priorities for future research and development. Another key element of our research is that we evaluate the possibilities and limitations of strategies that are designed to improve the performance of bioenergy production systems and that may be incorporated in bioenergy certification schemes and bioenergy promoting policies

  14. Large or small? Rethinking China’s forest bioenergy policies

    International Nuclear Information System (INIS)

    Kahrl, Fredrich; Su, Yufang; Tennigkeit, Timm; Yang, Yongping; Xu, Jianchu

    2013-01-01

    China’s forest bioenergy policies are evolving against the backdrop of pressing national energy challenges similar to those faced by OECD countries, and chronic rural energy challenges more characteristic of developing countries. Modern forest bioenergy could contribute to solutions to both of these challenges. However, because of limitations in current technologies and institutions, significant policy and resource commitments would be required to make breakthroughs in either commercializing forest bioenergy or modernizing rural energy systems in China. Given the potential attention, funding, and resource trade-offs between these two goals, we provide an argument for why the focus of China’s forest bioenergy policy should initially be on addressing rural energy challenges. The paper concludes with a discussion on strategies for laying the groundwork for a modern, biomass-based energy infrastructure in rural China. -- Highlights: ► China’s bioenergy policy is at a crossroads. ► Trade-offs exist between forest bioenergy policy for urban and rural users in China. ► There are strong arguments for focusing forest bioenergy policy on rural areas. ► China’s rural energy policy should increasingly support modern energy carriers

  15. Bird communities and biomass yields in potential bioenergy grasslands.

    Science.gov (United States)

    Blank, Peter J; Sample, David W; Williams, Carol L; Turner, Monica G

    2014-01-01

    Demand for bioenergy is increasing, but the ecological consequences of bioenergy crop production on working lands remain unresolved. Corn is currently a dominant bioenergy crop, but perennial grasslands could produce renewable bioenergy resources and enhance biodiversity. Grassland bird populations have declined in recent decades and may particularly benefit from perennial grasslands grown for bioenergy. We asked how breeding bird community assemblages, vegetation characteristics, and biomass yields varied among three types of potential bioenergy grassland fields (grass monocultures, grass-dominated fields, and forb-dominated fields), and assessed tradeoffs between grassland biomass production and bird habitat. We also compared the bird communities in grassland fields to nearby cornfields. Cornfields had few birds compared to perennial grassland fields. Ten bird Species of Greatest Conservation Need (SGCN) were observed in perennial grassland fields. Bird species richness and total bird density increased with forb cover and were greater in forb-dominated fields than grass monocultures. SGCN density declined with increasing vertical vegetation density, indicating that tall, dense grassland fields managed for maximum biomass yield would be of lesser value to imperiled grassland bird species. The proportion of grassland habitat within 1 km of study sites was positively associated with bird species richness and the density of total birds and SGCNs, suggesting that grassland bioenergy fields may be more beneficial for grassland birds if they are established near other grassland parcels. Predicted total bird density peaked below maximum biomass yields and predicted SGCN density was negatively related to biomass yields. Our results indicate that perennial grassland fields could produce bioenergy feedstocks while providing bird habitat. Bioenergy grasslands promote agricultural multifunctionality and conservation of biodiversity in working landscapes.

  16. Investigating afforestation and bioenergy CCS as climate change mitigation strategies

    Science.gov (United States)

    Humpenöder, Florian; Popp, Alexander; Dietrich, Jan Philip; Klein, David; Lotze-Campen, Hermann; Bonsch, Markus; Bodirsky, Benjamin Leon; Weindl, Isabelle; Stevanovic, Miodrag; Müller, Christoph

    2014-05-01

    The land-use sector can contribute to climate change mitigation not only by reducing greenhouse gas (GHG) emissions, but also by increasing carbon uptake from the atmosphere and thereby creating negative CO2 emissions. In this paper, we investigate two land-based climate change mitigation strategies for carbon removal: (1) afforestation and (2) bioenergy in combination with carbon capture and storage technology (bioenergy CCS). In our approach, a global tax on GHG emissions aimed at ambitious climate change mitigation incentivizes land-based mitigation by penalizing positive and rewarding negative CO2 emissions from the land-use system. We analyze afforestation and bioenergy CCS as standalone and combined mitigation strategies. We find that afforestation is a cost-efficient strategy for carbon removal at relatively low carbon prices, while bioenergy CCS becomes competitive only at higher prices. According to our results, cumulative carbon removal due to afforestation and bioenergy CCS is similar at the end of 21st century (600-700 GtCO2), while land-demand for afforestation is much higher compared to bioenergy CCS. In the combined setting, we identify competition for land, but the impact on the mitigation potential (1000 GtCO2) is partially alleviated by productivity increases in the agricultural sector. Moreover, our results indicate that early-century afforestation presumably will not negatively impact carbon removal due to bioenergy CCS in the second half of the 21st century. A sensitivity analysis shows that land-based mitigation is very sensitive to different levels of GHG taxes. Besides that, the mitigation potential of bioenergy CCS highly depends on the development of future bioenergy yields and the availability of geological carbon storage, while for afforestation projects the length of the crediting period is crucial.

  17. How can land-use modelling tools inform bioenergy policies?

    Science.gov (United States)

    Davis, Sarah C.; House, Joanna I.; Diaz-Chavez, Rocio A.; Molnar, Andras; Valin, Hugo; DeLucia, Evan H.

    2011-01-01

    Targets for bioenergy have been set worldwide to mitigate climate change. Although feedstock sources are often ambiguous, pledges in European nations, the United States and Brazil amount to more than 100 Mtoe of biorenewable fuel production by 2020. As a consequence, the biofuel sector is developing rapidly, and it is increasingly important to distinguish bioenergy options that can address energy security and greenhouse gas mitigation from those that cannot. This paper evaluates how bioenergy production affects land-use change (LUC), and to what extent land-use modelling can inform sound decision-making. We identified local and global internalities and externalities of biofuel development scenarios, reviewed relevant data sources and modelling approaches, identified sources of controversy about indirect LUC (iLUC) and then suggested a framework for comprehensive assessments of bioenergy. Ultimately, plant biomass must be managed to produce energy in a way that is consistent with the management of food, feed, fibre, timber and environmental services. Bioenergy production provides opportunities for improved energy security, climate mitigation and rural development, but the environmental and social consequences depend on feedstock choices and geographical location. The most desirable solutions for bioenergy production will include policies that incentivize regionally integrated management of diverse resources with low inputs, high yields, co-products, multiple benefits and minimal risks of iLUC. Many integrated assessment models include energy resources, trade, technological development and regional environmental conditions, but do not account for biodiversity and lack detailed data on the location of degraded and underproductive lands that would be ideal for bioenergy production. Specific practices that would maximize the benefits of bioenergy production regionally need to be identified before a global analysis of bioenergy-related LUC can be accomplished. PMID

  18. BioenergyKDF: Enabling Spatiotemporal Data Synthesis and Research Collaboration

    Energy Technology Data Exchange (ETDEWEB)

    Myers, Aaron T [ORNL; Movva, Sunil [ORNL; Karthik, Rajasekar [ORNL; Bhaduri, Budhendra L [ORNL; White, Devin A [ORNL; Thomas, Neil [ORNL; Chase, Adrian S Z [ORNL

    2014-01-01

    The Bioenergy Knowledge Discovery Framework (BioenergyKDF) is a scalable, web-based collaborative environment for scientists working on bioenergy related research in which the connections between data, literature, and models can be explored and more clearly understood. The fully-operational and deployed system, built on multiple open source libraries and architectures, stores contributions from the community of practice and makes them easy to find, but that is just its base functionality. The BioenergyKDF provides a national spatiotemporal decision support capability that enables data sharing, analysis, modeling, and visualization as well as fosters the development and management of the U.S. bioenergy infrastructure, which is an essential component of the national energy infrastructure. The BioenergyKDF is built on a flexible, customizable platform that can be extended to support the requirements of any user community especially those that work with spatiotemporal data. While there are several community data-sharing software platforms available, some developed and distributed by national governments, none of them have the full suite of capabilities available in BioenergyKDF. For example, this component-based platform and database independent architecture allows it to be quickly deployed to existing infrastructure and to connect to existing data repositories (spatial or otherwise). As new data, analysis, and features are added; the BioenergyKDF will help lead research and support decisions concerning bioenergy into the future, but will also enable the development and growth of additional communities of practice both inside and outside of the Department of Energy. These communities will be able to leverage the substantial investment the agency has made in the KDF platform to quickly stand up systems that are customized to their data and research needs.

  19. Bird communities and biomass yields in potential bioenergy grasslands.

    Directory of Open Access Journals (Sweden)

    Peter J Blank

    Full Text Available Demand for bioenergy is increasing, but the ecological consequences of bioenergy crop production on working lands remain unresolved. Corn is currently a dominant bioenergy crop, but perennial grasslands could produce renewable bioenergy resources and enhance biodiversity. Grassland bird populations have declined in recent decades and may particularly benefit from perennial grasslands grown for bioenergy. We asked how breeding bird community assemblages, vegetation characteristics, and biomass yields varied among three types of potential bioenergy grassland fields (grass monocultures, grass-dominated fields, and forb-dominated fields, and assessed tradeoffs between grassland biomass production and bird habitat. We also compared the bird communities in grassland fields to nearby cornfields. Cornfields had few birds compared to perennial grassland fields. Ten bird Species of Greatest Conservation Need (SGCN were observed in perennial grassland fields. Bird species richness and total bird density increased with forb cover and were greater in forb-dominated fields than grass monocultures. SGCN density declined with increasing vertical vegetation density, indicating that tall, dense grassland fields managed for maximum biomass yield would be of lesser value to imperiled grassland bird species. The proportion of grassland habitat within 1 km of study sites was positively associated with bird species richness and the density of total birds and SGCNs, suggesting that grassland bioenergy fields may be more beneficial for grassland birds if they are established near other grassland parcels. Predicted total bird density peaked below maximum biomass yields and predicted SGCN density was negatively related to biomass yields. Our results indicate that perennial grassland fields could produce bioenergy feedstocks while providing bird habitat. Bioenergy grasslands promote agricultural multifunctionality and conservation of biodiversity in working landscapes.

  20. Novel Fuel Cells for Coal Based Systems

    Energy Technology Data Exchange (ETDEWEB)

    Thomas Tao

    2011-12-31

    The goal of this project was to acquire experimental data required to assess the feasibility of a Direct Coal power plant based upon an Electrochemical Looping (ECL) of Liquid Tin Anode Solid Oxide Fuel Cell (LTA-SOFC). The objective of Phase 1 was to experimentally characterize the interaction between the tin anode, coal fuel and cell component electrolyte, the fate of coal contaminants in a molten tin reactor (via chemistry) and their impact upon the YSZ electrolyte (via electrochemistry). The results of this work will provided the basis for further study in Phase 2. The objective of Phase 2 was to extend the study of coal impurities impact on fuel cell components other than electrolyte, more specifically to the anode current collector which is made of an electrically conducting ceramic jacket and broad based coal tin reduction. This work provided a basic proof-of-concept feasibility demonstration of the direct coal concept.

  1. Power from Coal. A Student Handbook Recommended for Upper Elementary and Middle Grades.

    Science.gov (United States)

    National Coal Association, Washington, DC.

    The contributions of coal as an important energy source are reviewed in this booklet for teachers. It provides background information on coal, activities for classroom use, and an answer key for all the exercises. The introductory section includes information on: (1) coal and electricity; (2) reasons for using coal; (3) methods for extracting…

  2. The European Coal Market: Will Coal Survive the EC's Energy and Climate Policies?

    International Nuclear Information System (INIS)

    Cornot-Gandolphe, Sylvie

    2012-01-01

    The European coal industry is at a crossroads. The European Commission (EC) Energy Policy by 2020, the 20/20/20 targets, is not favourable to coal: a 20% decrease in CO 2 emissions does not favour coal compared with natural gas, its main competitor in electricity generation; a 20% increase in energy efficiency will lead to a decrease in energy/coal consumption; a 20% increase in renewables will displace other energy sources, including coal. The recent EC Energy road-map to 2050 targets a cut in GHG emissions by 80-95%. Under such a tough emissions reduction target, the future use of coal is tied with CCS technologies for which public acceptance and an adequate CO 2 price are crucial. The Large Combustion Plants Directive has already had a huge impact on EU coal-fired electricity generation. In UK, a third of coal-fired power capacity will be closed by the end of 2015 at the latest. Phase III of the EU Emissions Trading Scheme requires CO 2 allowances to be auctioned from January 2013, adding a new burden on fossil fuel power plants. The end of state aid to European hard coal production by 2018, in line with EC Council Decision 2010/787/EU, means that domestic production is going to decrease. Does this mean the end of coal in Europe? Maybe not, and certainly not by 2020, although its future after that date is quite uncertain. Coal provides 17% of the EU s primary energy supply, and represents 25% of electricity generation. With the phasing out of nuclear energy in some countries (mainly Germany), coal has gained a period of grace before the transition to a less-carbonised economy. Its consumption by European power utilities increased by 7% in the first half of 2012, boosted by low CO 2 prices and relatively high gas prices. European production still accounts for 60% of the total coal supply in the EU. Coal therefore gives the EU a certain degree of independence and contributes to its security of supply. Hard coal and lignite represent approximately 80% of EU

  3. 11. Rostock bioenergy forum. Proceedings; 11. Rostocker Bioenergieforum. Tagungsband

    Energy Technology Data Exchange (ETDEWEB)

    Nelles, Michael (ed.)

    2017-08-01

    The seven main focus of the bioenergy forum were: 1. Political regulation and its consequences; 2. Flexible energy supply; 3. Biorefineries for the use of residues from bioenergy production; 4. Process optimization biogas; 5. Alternative substrates for biogas production; 6. Cross-sectoral bioenergy concept; 7. Transport sector (biofuels). Five lectures are separately analyzed for this database. [German] Die sieben Themenschwerpunkte des Bioenergieforums waren: 1. Politische Regulierung und deren Folgen; 2. Flexible Energiebereitstellung; 3. Bioraffinerie zur Nutzung von Reststoffen der Bioenergiegewinnung; 4. Prozessoptimierung Biogas; 5. Alternative Substrate zur Biogasgewinnung; 6. Sektoruebergreifende regionale Bioenergiekonzept; und 7. Transportsektor (Biokraftstoffe). Fuenf Vortraege wurden fuer diese Datenbank separat aufgenommen.

  4. Bioenergy. A sustainable option for Germany?; Bioenergie. Eine nachhaltige Option fuer Deutschland

    Energy Technology Data Exchange (ETDEWEB)

    Schink, Bernhard [Konstanz Univ. (Germany)

    2012-12-15

    Biogas, biodiesel and bioethanol have experienced a major boom over the past years. However, a critical look at the climate impact, surface area efficiency and ecosystem impact of these energy resources shows them to be in need of reassessment, along with the policies in place for their promotion. This is the conclusion to which the German Academy of Sciences Leopoldina comes in an opinion entitled ''Bioenergy - possibilities and limits''.

  5. Selecting Metrics for Sustainable Bioenergy Feedstocks

    Energy Technology Data Exchange (ETDEWEB)

    Dale, Virginia H [ORNL; Kline, Keith L [ORNL; Mulholland, Patrick J [ORNL; Downing, Mark [ORNL; Graham, Robin Lambert [ORNL; Wright, Lynn L [ORNL

    2009-01-01

    Key decisions about land-use practices and dynamics in biofuel systems affect the long-term sustainability of biofuels. Choices about what crops are grown and how are they planted, fertilized, and harvested determine the effects of biofuels on native plant diversity, competition with food crops, and water and air quality. Those decisions also affect economic viability since the distance that biofuels must be transported has a large effect on the market cost of biofuels. The components of a landscape approach include environmental and socioeconomic conditions and the bioenergy features [type of fuel, plants species, management practices (e.g., fertilizer and pesticide applications), type and location of production facilities] and ecological and biogeochemical feedbacks. Significantly, while water (availability and quality) emerges as one of the most limiting factors to sustainability of bioenergy feedstocks, the linkage between water and bioenergy choices for land use and management on medium and large scales is poorly quantified. Metrics that quantify environmental and socioeconomic changes in land use and landscape dynamics provide a way to measure and communicate the influence of alternative bioenergy choices on water quality and other components of the environment. Cultivation of switchgrass could have both positive and negative environmental effects, depending on where it is planted and what vegetation it replaces. Among the most important environmental effects are changes in the flow regimes of streams (peak storm flows, base flows during the growing season) and changes in stream water quality (sediment, nutrients, and pesticides). Unfortunately, there have been few controlled studies that provide sufficient data to evaluate the hydrological and water quality impacts of conversion to switchgrass. In particular, there is a need for experimental studies that use the small watershed approach to evaluate the effects of growing a perennial plant as a biomass crop

  6. MSU-Northern Bio-Energy Center of Excellence

    Energy Technology Data Exchange (ETDEWEB)

    Kegel, Greg [Montana State Univ. Northern, Havre, MT (United States); Windy Boy, Jessica [Montana State Univ. Northern, Havre, MT (United States). Bio-Energy Center of Excellence; Maglinao, Randy Latayan [Montana State Univ. Northern, Havre, MT (United States). Bio-Energy Center of Excellence; Abedin, Md. Joynal [Montana State Univ. Northern, Havre, MT (United States). Bio-Energy Center of Excellence

    2017-03-02

    The goal of this project was to establish the Bio-Energy Center (the Center) of Montana State University Northern (MSUN) as a Regional Research Center of Excellence in research, product development, and commercialization of non-food biomass for the bio-energy industry. A three-step approach, namely, (1) enhance the Center’s research and testing capabilities, (2) develop advanced biofuels from locally grown agricultural crops, and (3) educate the community through outreach programs for public understanding and acceptance of new technologies was identified to achieve this goal. The research activities aimed to address the obstacles concerning the production of biofuels and other bio-based fuel additives considering feedstock quality, conversion process, economic viability, and public awareness. First and foremost in enhancing the capabilities of the Center is the improvement of its laboratories and other physical facilities for investigating new biomass conversion technologies and the development of its manpower complement with expertise in chemistry, engineering, biology, and energy. MSUN renovated its Auto Diagnostics building and updated its mechanical and electrical systems necessary to house the state-of-the-art 525kW (704 hp) A/C Dynamometer. The newly renovated building was designated as the Advanced Fuels Building. Two laboratories, namely Biomass Conversion lab and Wet Chemistry lab were also added to the Center’s facilities. The Biomass Conversion lab was for research on the production of advanced biofuels including bio-jet fuel and bio-based fuel additives while the Wet Chemistry lab was used to conduct catalyst research. Necessary equipment and machines, such as gas chromatograph-mass spectrometry, were purchased and installed to help in research and testing. With the enhanced capabilities of the Center, research and testing activities were very much facilitated and more precise. New biofuels derived from Camelina sativa (camelina), a locally

  7. Coal at the crossroads

    International Nuclear Information System (INIS)

    Scaroni, A.W.; Davis, A.; Schobert, H.; Gordon, R.L.; Ramani, R.V.; Frantz, R.L.

    1992-01-01

    Worldwide coal reserves are very large but coal suffers from an image of being an environmentally unfriendly and inconvenient fuel. Aspects discussed in the article include: coal's poor image; techniques for coal analysis, in particular instrumented techniques; developments in clean coal technology e.g. coal liquefaction, fluidized bed combustion, co-generation and fuel slurries; the environmental impact of mining and land reclamation; and health aspects. It is considered that coal's future depends on overcoming its poor image. 6 photos

  8. Biogas - Bioenergy potential in East Africa

    International Nuclear Information System (INIS)

    1997-01-01

    The workshop is part of the project: 'Energy production from Sisal Waste in East Africa' sponsored by the Danish Energy Agency, an agency under the Danish Ministry of Environment and Energy. This project has been carried out in close cooperation between the Danish Technological Institute and University of Dar es Salaam, Applied Microbiology Unit, who has also taken care of the practical arrangement. The main objectives of the workshop was: To present the ongoing research in East Africa on biogas production from organic residues; To get an overview of political and administrative issues related to promotion and implementation of renewable energy facilities in East Africa; To discuss appropriate set-ups for bioenergy facilities in East Africa. (au)

  9. Integrated Model of Bioenergy and Agriculture System

    DEFF Research Database (Denmark)

    Sigurjonsson, Hafthor Ægir; Elmegaard, Brian; Clausen, Lasse Røngaard

    2015-01-01

    approach that builds on Life Cycle Inventory and carries out Life Cycle Impact Assessment for a con- sequential Life Cycle Assessment on integrated bioenergy and agriculture systems. The model framework is built in Python which connects various freely available soft- ware that handle different aspects......Due to increased burden on the environment caused by human activities, focus on industrial ecology designs are gaining more attention. In that perspective an environ- mentally effective integration of bionergy and agriculture systems has significant potential. This work introduces a modeling...... of the overall model. C- TOOL and Yasso07 are used in the carbon balance of agri- culture, Dynamic Network Analysis is used for the energy simulation and Brightway2 is used to build a Life Cycle Inventory compatible database and processes it for vari- ous impacts assessment methods. The model is success- fully...

  10. Biogas - Bioenergy potential in East Africa

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1997-12-31

    The workshop is part of the project: `Energy production from Sisal Waste in East Africa` sponsored by the Danish Energy Agency, an agency under the Danish Ministry of Environment and Energy. This project has been carried out in close cooperation between the Danish Technological Institute and University of Dar es Salaam, Applied Microbiology Unit, who has also taken care of the practical arrangement. The main objectives of the workshop was: To present the ongoing research in East Africa on biogas production from organic residues; To get an overview of political and administrative issues related to promotion and implementation of renewable energy facilities in East Africa; To discuss appropriate set-ups for bioenergy facilities in East Africa. (au)

  11. Bioenergy in the national forestry programme

    International Nuclear Information System (INIS)

    Heikurainen, M.

    1998-01-01

    The objective of the national forestry programme is to develop the treatment, utilization and protection of forests in order to increase the employment level in the forestry sector as well as enhance the utilization of the forests for recreation purposes. Increment of the utilization of wood energy is one of the means for meeting the objective of the programme. In addition to the silvicultural reasons, one of the main reasons for increasing of the utilization of energy wood is the possibilities of energywood-related small and medium-sized entrepreneurship to employ people. The emission reduction requirements of the Kyoto summit offer also a reason for the increment of the utilization of wood energy, because the carbon dioxide emissions of biofuels are not included in the emission share of the country. The techno-economically viable unutilized wood energy potential of clearcuts has been estimated to 3.7 million m 3 and that of the integrated harvesting of first thinnings 2.3 million m 3 . On the basis of these figures the latest objective of the programme has been set to increase the energy wood harvesting and utilization to 5.0 million m 3 /a up to the year 2010. The main means listed in the programme are: Development of integrated harvesting methods, by which it is possible to produce energy wood economically (price less than 45 FIM/MWh) as a byproduct of commercial timber; The environmental support paid to the forest chips purchasers; Bioenergy capacity developed in the forest industry; Social support for product development and entrepreneurhip in the field of bioenergy; Reduction of the value added taxes of the end users of split firewood and wood briquettes

  12. Securing a bioenergy future without imports

    International Nuclear Information System (INIS)

    Welfle, Andrew; Gilbert, Paul; Thornley, Patricia

    2014-01-01

    The UK has legally binding renewable energy and greenhouse gas targets. Energy from biomass is anticipated to make major contributions to these. However there are concerns about the availability and sustainability of biomass for the bioenergy sector. A Biomass Resource Model has been developed that reflects the key biomass supply-chain dynamics and interactions determining resource availability, taking into account climate, food, land and other constraints. The model has been applied to the UK, developing four biomass resource scenarios to analyse resource availability and energy generation potential within different contexts. The model shows that indigenous biomass resources and energy crops could service up to 44% of UK energy demand by 2050 without impacting food systems. The scenarios show, residues from agriculture, forestry and industry provide the most robust resource, potentially providing up to 6.5% of primary energy demand by 2050. Waste resources are found to potentially provide up to 15.4% and specifically grown biomass and energy crops up to 22% of demand. The UK is therefore projected to have significant indigenous biomass resources to meet its targets. However the dominant biomass resource opportunities identified in the paper are not consistent with current UK bioenergy strategies, risking biomass deficit despite resource abundance. - Highlights: • Biomass Resource Model and Scenarios reflect biomass supply-chain dynamics to 2050. • High potential availability of biomass and energy crops without food systems impacts. • UK Indigenous biomass resource could service up to 44% of UK energy demand by 2050. • Robust residue resource from ongoing activities and large potential waste resource. • Indigenous resource abundance and the UK’s path towards increased resource deficit

  13. Sustainable Use of Biotechnology for Bioenergy Feedstocks

    Science.gov (United States)

    Moon, Hong S.; Abercrombie, Jason M.; Kausch, Albert P.; Stewart, C. Neal

    2010-10-01

    Done correctly, cellulosic bioenergy should be both environmentally and economically beneficial. Carbon sequestration and decreased fossil fuel use are both worthy goals in developing next-generation biofuels. We believe that biotechnology will be needed to significantly improve yield and digestibility of dedicated perennial herbaceous biomass feedstocks, such as switchgrass and Miscanthus, which are native to the US and China, respectively. This Forum discusses the sustainability of herbaceous feedstocks relative to the regulation of biotechnology with regards to likely genetically engineered traits. The Forum focuses on two prominent countries wishing to develop their bioeconomies: the US and China. These two countries also share a political desire and regulatory frameworks to enable the commercialization and wide release of transgenic feedstocks with appropriate and safe new genetics. In recent years, regulators in both countries perform regular inspections of transgenic field releases and seriously consider compliance issues, even though the US framework is considered to be more mature and stringent. Transgene flow continues to be a pertinent environmental and regulatory issue with regards to transgenic plants. This concern is largely driven by consumer issues and ecological uncertainties. Regulators are concerned about large-scale releases of transgenic crops that have sexually compatible crops or wild relatives that can stably harbor transgenes via hybridization and introgression. Therefore, prior to the commercialization or extensive field testing of transgenic bioenergy feedstocks, we recommend that mechanisms that ensure biocontainment of transgenes be instituted, especially for perennial grasses. A cautionary case study will be presented in which a plant’s biology and ecology conspired against regulatory constraints in a non-biomass crop perennial grass (creeping bentgrass, Agrostis stolonifera), in which biocontainment was not attained. Appropriate

  14. Optimal use of coal for power generation in India

    International Nuclear Information System (INIS)

    Mathur, Ritu; Chand, Sharat; Tezuka, Tetsuo

    2003-01-01

    There is growing consensus among energy planners that electricity requirements in India would increase rapidly in the next couple of decades, and that coal would continue to dominate the generating capacity mix. Comparatively high levels of ash in Indian coal causes concern both in terms of the high costs of coal movement and the associated environmental impacts. As per the notification of September 1997, all power plants located in sensitive areas, metropolitan cities and in areas distant from the coalfields, must use coal with <34% ash. However, little progress has been made towards coal beneficiation and some consumers have already started to import non-coking coal for blending in order to comply with environmental requirements. The importance of planning for optimal utilization and transportation of thermal coal cannot be underestimated, especially at a juncture where the Indian coal industry is already facing competition from rising imports of non-coking coal. This paper assesses the optimality of the current patterns of coal movement and examines the economics of beneficiating thermal coals. A linear programming model has been developed based on the framework of the general transportation problem. The authors conclude that the washery is not economically attractive given the current costs, beneficiation technique and quality of Indian non-coking coal. Model simulations have been attempted to assess the possibility of coal beneficiation based on techno-economic considerations rather than political or other considerations. The paper also stresses the possibility of overall gains to the economy by modifying the current patterns of coal movement

  15. Coal: a human history

    Energy Technology Data Exchange (ETDEWEB)

    Freese, B.

    2002-12-01

    Prized as 'the best stone in Britain' by Roman invaders who carved jewellery out of it, coal has transformed societies, powered navies, fueled economies, and expanded frontiers. It made China a twelfth-century superpower, inspired the writing of the Communist Manifesto, and helped the northern states win the American Civil War. Yet the mundane mineral that built our global economy - and even today powers our electrical plants - has also caused death, disease, and environmental destruction. As early as 1306, King Edward I tried to ban coal (unsuccessfully) because its smoke became so obnoxious. Its recent identification as a primary cause of global warming has made it a cause celebre of a new kind. In this book, Barbara Freese takes us on an historical journey that begins three hundred million years ago and spans the globe. From the 'Great Stinking Fogs' of London to the rat-infested coal mines of Pennsylvania, from the impoverished slums of Manchester to the toxic city streets of Beijing, this book describes an ordinary substance that has done extraordinary things.

  16. Forest Carbon Accounting Considerations in US Bioenergy Policy

    Science.gov (United States)

    Reid A. Miner; Robert C. Abt; Jim L. Bowyer; Marilyn A. Buford; Robert W. Malmsheimer; Jay O' Laughlin; Elaine E. Oneil; Roger A. Sedjo; Kenneth E. Skog

    2014-01-01

    Four research-based insights are essential to understanding forest bioenergy and “carbon debts.” (1) As long as wood-producing land remains in forest, long-lived wood products and forest bioenergy reduce fossil fuel use and long-term carbon emission impacts. (2) Increased demand for wood can trigger investments that increase forest area and forest productivity and...

  17. IEA Bioenergy Task 40 country report for the Netherlands 2011

    OpenAIRE

    Goh, C.S.; Junginger, H.M.; Jonker, J.G.G.; Faaij, A.P.C.

    2011-01-01

    This country report was written within the frame of IEA Bioenergy Task 40. In summary, the aims of this country report are: (1) To provide a concise overview of biomass policy, domestic resources, biomass users, biomass prices and biomass trade, and (2) To analyse bioenergy trends, and reasons for change in the Netherlands and point out barriers & opportunities for trade in detail, and Current biomass user (energy use) Table ES-1 shows the energy use of biomass in the Netherlands in 2010. The...

  18. Coal industry annual 1997

    International Nuclear Information System (INIS)

    1998-12-01

    Coal Industry Annual 1997 provides comprehensive information about US coal production, number of mines, prices, productivity, employment, productive capacity, and recoverable reserves. US Coal production for 1997 and previous years is based on the annual survey EIA-7A, Coal Production Report. This report presents data on coal consumption, coal distribution, coal stocks, coal prices, and coal quality for Congress, Federal and State agencies, the coal industry, and the general public. Appendix A contains a compilation of coal statistics for the major coal-producing States. This report includes a national total coal consumption for nonutility power producers that are not in the manufacturing, agriculture, mining, construction, or commercial sectors. 14 figs., 145 tabs

  19. Coal industry annual 1997

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1998-12-01

    Coal Industry Annual 1997 provides comprehensive information about US coal production, number of mines, prices, productivity, employment, productive capacity, and recoverable reserves. US Coal production for 1997 and previous years is based on the annual survey EIA-7A, Coal Production Report. This report presents data on coal consumption, coal distribution, coal stocks, coal prices, and coal quality for Congress, Federal and State agencies, the coal industry, and the general public. Appendix A contains a compilation of coal statistics for the major coal-producing States. This report includes a national total coal consumption for nonutility power producers that are not in the manufacturing, agriculture, mining, construction, or commercial sectors. 14 figs., 145 tabs.

  20. Coal Industry Annual 1995

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1996-10-01

    This report presents data on coal consumption, coal distribution, coal stocks, coal prices, coal quality, and emissions for Congress, Federal and State agencies, the coal industry, and the general public. Appendix A contains a compilation of coal statistics for the major coal-producing States. This report does not include coal consumption data for nonutility power producers that are not in the manufacturing, agriculture, mining, construction, or commercial sectors. Consumption for nonutility power producers not included in this report is estimated to be 21 million short tons for 1995.

  1. Coal industry annual 1996

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1997-11-01

    This report presents data on coal consumption, coal distribution, coal stocks, coal prices, and coal quality, and emissions for Congress, Federal and State agencies, the coal industry, and the general public. Appendix A contains a compilation of coal statistics for the major coal-producing States.This report does not include coal consumption data for nonutility power producers that are not in the manufacturing, agriculture, mining, construction, or commercial sectors. Consumption for nonutility power producers not included in this report is estimated to be 24 million short tons for 1996. 14 figs., 145 tabs.

  2. Coal Industry Annual 1995

    International Nuclear Information System (INIS)

    1996-10-01

    This report presents data on coal consumption, coal distribution, coal stocks, coal prices, coal quality, and emissions for Congress, Federal and State agencies, the coal industry, and the general public. Appendix A contains a compilation of coal statistics for the major coal-producing States. This report does not include coal consumption data for nonutility power producers that are not in the manufacturing, agriculture, mining, construction, or commercial sectors. Consumption for nonutility power producers not included in this report is estimated to be 21 million short tons for 1995

  3. Coal industry annual 1996

    International Nuclear Information System (INIS)

    1997-11-01

    This report presents data on coal consumption, coal distribution, coal stocks, coal prices, and coal quality, and emissions for Congress, Federal and State agencies, the coal industry, and the general public. Appendix A contains a compilation of coal statistics for the major coal-producing States.This report does not include coal consumption data for nonutility power producers that are not in the manufacturing, agriculture, mining, construction, or commercial sectors. Consumption for nonutility power producers not included in this report is estimated to be 24 million short tons for 1996. 14 figs., 145 tabs

  4. Current and future financial competitiveness of electricity and heat from energy crops: A case study from Ireland

    International Nuclear Information System (INIS)

    Styles, David; Jones, Michael B.

    2007-01-01

    It has been demonstrated that Miscanthus and willow energy-crop cultivation could be economically competitive with current agricultural land uses at a farm-gate biomass price ranging from Euro 70 to Euro 130 t -1 dry matter [Styles, D., Thorne, F., Jones, M.B., in review. Energy crops in Ireland: An economic comparison of willow and Miscanthus production with conventional farming systems. Biomass and Bioenergy, May 2006]. This paper uses the same farm-gate prices to calculate the economic competitiveness of energy crop electricity and heat production, using a net-present-value (NPV) approach (20-year period, 5% discount rate). Direct and gasified co-firing of willow wood with coal would result in electricity generation 30% or 37% more expensive than coal generation, at current coal and CO 2 allowance prices and a farm-gate biomass cost of Euro 100 t -1 . 'Break-even' CO 2 allowance prices are Euro 33 and Euro 37 t -1 , respectively. However, co-firing of Miscanthus with peat is close to economic competitiveness, and would require a CO 2 allowance price of Euro 16 t -1 to break-even (against a current price of Euro 12 t -1 ). NPV analyses indicate that wood heat is significantly cheaper than oil, gas or electric heat, excluding existing wood-boiler installation subsidies. Discounted annual savings range from Euro 143 compared with gas to Euro 722 compared with electric heating at the domestic scale and from Euro 3454 to Euro 11,222 at the commercial scale. Inclusion of available subsidies improves the comparative economics of domestic wood heat substantially. The economic advantage of wood heat is robust to variation in fuel prices, discount rates and heat loads. The greatest obstacles to energy-crop utilisation include: (i) a reluctance to consider long-term economics; (ii) possible competition from cheaper sources of biomass; (iii) the need for a spatially coordinated supply and utilisation network

  5. Clean Coal and Gasification Technology: How it Works?

    Directory of Open Access Journals (Sweden)

    Marina Sidorová

    2006-10-01

    Full Text Available Gasification of coal is the oldest method for the production of hydrogen. Coal gasification is a process that converts coal from a solid to a gaseous state. The gas that is created is very similar to natural gas and can be used to produce chemicals, fertilizers, and/or the electric power [1]. Cleanest of all coal-based electric power technologies, gasification has significantly lower levels of air emissions (including volatile mercury, solid wastes, and wastewater.Due to its high efficiencies, gasification also uses less coal to produce the same amount of energy, resulting in lower carbon dioxide (CO2 emissions. Some scientists believe that CO2 in the atmosphere contributes to a "greenhouse effect" that will lead to the global warming. Coal gasification has a proven technology for capturing CO2 at a fraction of the cost required for coal combustion technologies.

  6. Future bio-energy potential under various natural constraints

    International Nuclear Information System (INIS)

    Vuuren, Detlef P. van; Vliet, Jasper van; Stehfest, Elke

    2009-01-01

    Potentials for bio-energy have been estimated earlier on the basis of estimates of potentially available land, excluding certain types of land use or land cover (land required for food production and forests). In this paper, we explore how such estimates may be influenced by other factors such as land degradation, water scarcity and biodiversity concerns. Our analysis indicates that of the original bio-energy potential estimate of 150, 80 EJ occurs in areas classified as from mild to severe land degradation, water stress, or with high biodiversity value. Yield estimates were also found to have a significant impact on potential estimates. A further 12.5% increase in global yields would lead to an increase in bio-energy potential of about 50%. Changes in bio-energy potential are shown to have a direct impact on bio-energy use in the energy model TIMER, although the relevant factor is the bio-energy potential at different cost levels and not the overall potential.

  7. LCA Study of Oleaginous Bioenergy Chains in a Mediterranean Environment

    Directory of Open Access Journals (Sweden)

    Daniele Cocco

    2014-09-01

    Full Text Available This paper reports outcomes of life cycle assessments (LCAs of three different oleaginous bioenergy chains (oilseed rape, Ethiopian mustard and cardoon under Southern Europe conditions. Accurate data on field practices previously collected during a three-year study at two sites were used. The vegetable oil produced by oleaginous seeds was used for power generation in medium-speed diesel engines while the crop residues were used in steam power plants. For each bioenergy chain, the environmental impact related to cultivation, transportation of agricultural products and industrial conversion for power generation was evaluated by calculating cumulative energy demand, acidification potential and global warming potential. For all three bioenergy chains, the results of the LCA study show a considerable saving of primary energy (from 70 to 86 GJ·ha−1 and greenhouse gas emissions (from 4.1 to 5.2 t CO2·ha−1 in comparison to power generation from fossil fuels, although the acidification potential of these bioenergy chains may be twice that of conventional power generation. In addition, the study highlights that land use changes due to the cultivation of the abovementioned crops reduce soil organic content and therefore worsen and increase greenhouse gas emissions for all three bioenergy chains. The study also demonstrates that the exploitation of crop residues for energy production greatly contributes to managing environmental impact of the three bioenergy chains.

  8. Functional Genomics of Drought Tolerance in Bioenergy Crops

    Energy Technology Data Exchange (ETDEWEB)

    Yin, Hengfu [ORNL; Chen, Rick [ORNL; Yang, Jun [ORNL; Weston, David [ORNL; Chen, Jay [ORNL; Muchero, Wellington [ORNL; Ye, Ning [ORNL; Tschaplinski, Timothy J [ORNL; Wullschleger, Stan D [ORNL; Cheng, Zong-Ming [ORNL; Tuskan, Gerald A [ORNL; Yang, Xiaohan [ORNL

    2014-01-01

    With the predicted trends in climate change, drought will increasingly impose a grand challenge to biomass production. Most of the bioenergy crops have some degree of drought susceptibility with low water-use efficiency (WUE). It is imperative to improve drought tolerance and WUE in bioenergy crops for sustainable biomass production in arid and semi-arid regions with minimal water input. Genetics and functional genomics can play a critical role in generating knowledge to inform and aid genetic improvement of drought tolerance in bioenergy crops. The molecular aspect of drought response has been extensively investigated in model plants like Arabidopsis, yet our understanding of the molecular mechanisms underlying drought tolerance in bioenergy crops are limited. Crops exhibit various responses to drought stress depending on species and genotype. A rational strategy for studying drought tolerance in bioenergy crops is to translate the knowledge from model plants and pinpoint the unique features associated with individual species and genotypes. In this review, we summarize the general knowledge about drought responsive pathways in plants, with a focus on the identification of commonality and specialty in drought responsive mechanisms among different species and/or genotypes. We describe the genomic resources developed for bioenergy crops and discuss genetic and epigenetic regulation of drought responses. We also examine comparative and evolutionary genomics to leverage the ever-increasing genomics resources and provide new insights beyond what has been known from studies on individual species. Finally, we outline future exploration of drought tolerance using the emerging new technologies.

  9. Importancy of Reflection Seismic Method at Coal Exploration in Turkey

    International Nuclear Information System (INIS)

    Kilic, O.

    2007-01-01

    Coal has a major role in human life, and as a raw material of Energy production. Coal is the primary raw material for 42% of world electrical energy production. Energy and raw materials of energy production has a great importance in Turkey, as well as in other countries. Considering that 75% of coal is used in coal based power plants, and 30% of electrical energy production of Turkey is provided from coal based power plants; the indispensability of coal can be understood. Energy has a strategic importance, so that the usage of national resources is necessary. There is sufficient potential in Turkey to meet its Energy needs from country's natural resources, in the case of the usage of domestic natural resources, except petroleum. However, in last two decades, sufficient coal exploration studies were not conducted in Turkey; since the investment rates are diminished and sufficient importance is not paid to the natural resources. The funds dedicated for coal explorations were not enough to conduct surveys. In order to operate coal resources efficiently; the more economical results will be obtained in case of conducting geophysical studies (seismic reflection method and electrical methods) in addition to drilling activities, to identify the geometry of coal zones. Detailed 3D information of subsurface areal distribution and thicKess of coal zones can be gathered by seismic reflection method

  10. Bioenergy, protein and fibres from grass - biogas process monitoring; Bioenergie, Protein und Fasern aus Gras - Monitoring des Biogasprozesses

    Energy Technology Data Exchange (ETDEWEB)

    Baier, U.; Delavy, P.

    2003-07-01

    Starting in Summer 2001 the first full scale Swiss Bio-refinery for grass processing took up operation in Schaffhausen. Grass processing covers the production of technical fibres and protein concentrate as well as anaerobic digestion of residual slops for the production of biogas and 'green' electricity. The refinery is operated by the company Bioenergie Schaffhausen as a P+D (pilot + demonstration) project of the Swiss Federal Office of Energy. Under full load it will deliver 2,000 MWh of 'green' electricity (10% own needs) and 3,000 MWh heat (50% own needs). Prior to start up the Swiss technology holder 2B Biorefineries AG mandated the University of Applied Sciences HSW with lab scale testing of the mesophilic biogas potential and anaerobic degradability of residual grass processing slops. Nutrient limitations and possible inhibition risks were evaluated. During the initial 8 months of full scale operation of the refinery in Schaffhausen an intensive monitoring of the anaerobic digester's performance was carried out. Carbon and nitrogen mass balances have been set up and the development of the granular EGSB sludge was characterised. From operational data a set of performance values was elaborated. The first year of operation was characterised by only partial exploitation of the refinery's grass processing capacity. Furthermore the protein separation and production unit has not yet been incorporated. Consequently, the EGSB biogas reactor showed a significant hydraulic underload when compared to dimensioning basics. Raw residuals were characterised by a higher particulate protein fraction. Operational conditions for the EGSB reactor were worked out to allow stable operation at elevated load conditions and with protein separation in operation. (author)

  11. Bioenergy systems sustainability assessment & management (BIOSSAM) guidance portal for policy, decision and development support of integrated bioenergy supply interventions

    CSIR Research Space (South Africa)

    Stafford, WHL

    2010-08-01

    Full Text Available . There are several new bioenergy interventions (policies, projects, or programmes) that are being considered and these developments must be assessed in terms of their sustainability. Both public and private sector policy makers, decision makers, and technology...

  12. Bioenergy from crops and biomass residues: a consequential life-cycle assessment including land-use changes

    DEFF Research Database (Denmark)

    Tonini, Davide; Astrup, Thomas Fruergaard

    demonstrated that algae represent an interesting alternative to terrestrial energy crops. This study provides GHG emission factors for a wide number of bioenergy scenarios. The aim is to inform decision/policy makers on the environmental consequences of producing biofuels from different sources...... generation biofuels produced from residual biomass promise important environmental savings. However, since these residues are today in-use for specific purposes (e.g., feeding), a detailed modelling of the consequences (e.g., on the feed-market) induced by their diversion to energy should be performed...... at identifying all the consequences associated with the establishment of bioenergy systems compared with the reference (current use of fossil and biomass resource). The modelling was facilitated with the LCA-model EASETECH. The functional unit was 1 unit-energy produced (i.e., 1 kWh electricity, 1 MJ heat or 1...

  13. Bioenergy in Brazil and Europe: a comparative analysis; Bioenergia no Brasil e na Europa: uma analise comparativa

    Energy Technology Data Exchange (ETDEWEB)

    Castro, Nivalde Jose de [Universidade Federal do Rio de Janeiro (IE/UFRJ), RJ (Brazil). Inst. de Economia], e-mail: nivalde@ie.ufrj.br; Dantas, Guilherme de Azevedo [Universidade Federal do Rio de Janeiro (GESEL/UFRJ), RJ (Brazil). Grupo de Estudos do Setor Eletrico], e-mail: guilhermecrvg@yahoo.com.br

    2008-07-01

    A higher application of bioenergy is one of the existing ways to adequate the necessity of an expansion in the energy supply with the mitigation of global warming. The consumption of biofuel in the transport sector is the most usual and important use of biomass, however, bioenergy may also have a relevant contribution to the world electrical matrix. A comparative analysis shows that Brazil has consolidate the usage of biofuel while Europe is having problems to accomplish the biofuels levels established in the European Union guidelines. However, some european countries are developing their bioelectrical generation potential in a much more efficient way than Brazil. Therefore , brazilian policies to support bioelectricity should observe the successful instruments applied in Europe. (author)

  14. Climate effect of an integrated wheat production and bioenergy system with Low Temperature Circulating Fluidized Bed gasifier

    DEFF Research Database (Denmark)

    Sigurjonsson, Hafthor Ægir; Elmegaard, Brian; Clausen, Lasse Røngaard

    2015-01-01

    When removing biomass residues from the agriculture for bioenergy utilization, the nutrients and carbon stored within these "residual resources" are removed as-well. To mitigate these issues the energy industry must try to conserve and not destroy the nutrients. The paper analyses a novel integra...... efficiency for biochar production can be beneficial in terms of climate change effect of an integrated wheat production and bioenergy system....... are assessed along with the effects of recycling the nutrients and carbon back to the agricultural system. The methods used to assess the integration was Life Cycle Assessment (LCA) with IPCC's 2013 100 year global warming potential (GWP) as impact assessment method. The boundary was set from cradle to gate...... based on carbon conversion to two references, no straw removal and straw combustion. The results show that the climate effect of removing the straws are mitigated by the carbon soil sequestration with biochar, and electricity and district heat substitution. Maximum biochar production outperforms maximum...

  15. Energy Policy Act transportation rate study: Interim report on coal transportation

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1995-10-01

    The primary purpose of this report is to examine changes in domestic coal distribution and railroad coal transportation rates since enactment of the Clean Air Act Amendments of 1990 (CAAA90). From 1988 through 1993, the demand for low-sulfur coal increased, as a the 1995 deadline for compliance with Phase 1 of CAAA90 approached. The shift toward low-sulfur coal came sooner than had been generally expected because many electric utilities switched early from high-sulfur coal to ``compliance`` (very low-sulfur) coal. They did so to accumulate emissions allowances that could be used to meet the stricter Phase 2 requirements. Thus, the demand for compliance coal increased the most. The report describes coal distribution and sulfur content, railroad coal transportation and transportation rates, and electric utility contract coal transportation trends from 1979 to 1993 including national trends, regional comparisons, distribution patterns and regional profiles. 14 figs., 76 tabs.

  16. Coal Quality Expert: Status and software specifications

    International Nuclear Information System (INIS)

    Harrison, C.D.

    1992-01-01

    Under the Clean Coal Technology Program (Clean Coal Round 1), the US Department of Energy (DOE) and the Electric Power Research Institute (EPRI) are funding the development and demonstration of a computer program called the Coal Quality Expert (CQE trademark). When finished, the CQE will be a comprehensive PC-based program which can be used to evaluate several potential coal cleaning, blending, and switching options to reduce power plant emissions while minimizing generation costs. The CQE will be flxible in nature and capable of evaluating various qualities of coal, available transportation options, performance issues, and alternative emissions control strategies. This allows the CQE to determine the most cost-effective coal and the least expensive emissions control strategy for a given plant. To accomplish this, the CQE will be composed of technical models to evaluate performance issues; environmental models to evaluate environmental and regulatory issues; and cost estimating models to predict costs for installations of new and retrofit coal cleaning processes, power production equipment, and emissions control systems as well as other production costs such as consumables (fuel, scrubber additive, etc.), waste disposal, operating and maintenance, and replacement energy costs. These technical, environmental, and economic models as well as a graphical user interface will be developed for the CQE. And, in addition, to take advantage of already existing capability, the CQE will rely on seamless integration of already proven and extensively used computer programs such as the EPRI Coal Quality Information Systems, Coal Quality Impact Model (CQIM trademark), and NO x Pert. 2 figs

  17. Coal marketability: Effects of deregulation and regulation

    International Nuclear Information System (INIS)

    Attanasi, E.

    2000-01-01

    Electrical utility deregulation will force power plants to compete for sales because they will not longer have captive markets. Market uncertainty and uncertainty about future environmental regulations have encouraged power plants to shift to low sulfur coal and/or to use emissions allowances to comply with Phase 2 of the 1990 Clean Air Act Amendments. Mines in Northern and Central Appalachia and the Illinois Basin shipped 240 million tons of non-compliance coal to power plants without scrubbers in 1997. Under Phase 2, this coal will be replaced by low sulfur coal and/or be used with emission permits. It is possible that Powder River Basin coal production will have to increase by over 200 million tons/year to meet new demand. The prices of emissions permits will impose penalties on non-compliance coal that will probably drive out marginal coal producers. For example, if the cost of an emission permit is $200, coal from the Pittsburgh bed could bear a sulfur penalty of $6.55 per ton and similarly, coal from the Herrinbed could bear a penalty of $8.64 per ton

  18. Bio-energy trade. Possibilities and constraints on short and longer term

    International Nuclear Information System (INIS)

    Agterberg, A.E.; Faaij, A.P.C.

    1998-12-01

    In order to get more in-depth insight in matters concerning trading biomass, the so called Biotrade project was initiated in 1996 when the Netherlands began to consider biomass import as a serious CO2 mitigation option after initial and relatively promising studies had been carried out. Sweden on the other side, with a well developed infrastructure for both biomass supply and utilisation, showed interest to supply biomass to the Dutch energy system. This resulted into a Dutch-Swedish project team financed by the ALTENER programme of DG-12 of the European Commission and co-financed by Novem (Netherlands Organisation for Energy and Environment) and NUTEK (Swedish National board for Industrial and Technical Development). The main objectives of the Biotrade project were: (a) to provide insight m the various possibilities for trade in bio-energy by evaluation of the (micro- and macro) economics and energy balances of various options by a standardised methodology; (b) working out bio-energy trade between Sweden and The Netherlands and for comparison export from the Baltic region and one of the FACE countries (FACE is the foundation of the Dutch electric power generation board Sep, involved in forestation projects for CO2 mitigation); (c) Comparison of the bio-energy trade options to domestic use of the biomass in the exporting country and to afforestation; and (d) Provide policy recommendations. Countries considered for export of energy from biomass to the Netherlands are Sweden, Estonia, and Ecuador. The following import options were considered: (a) Import of woody biomass and conversion to electricity of this biomass in the Netherlands; (b) Conversion to electricity of biomass in the exporting country and import of this electricity by the Netherlands; and (c) Use of the biomass as feedstock for methanol production in the exporting country and import of this methanol by the Netherlands. The following aspects are included in the analysis: (1) Costs of electricity or

  19. Coal industry annual 1993

    Energy Technology Data Exchange (ETDEWEB)

    1994-12-06

    Coal Industry Annual 1993 replaces the publication Coal Production (DOE/FIA-0125). This report presents additional tables and expanded versions of tables previously presented in Coal Production, including production, number of mines, Productivity, employment, productive capacity, and recoverable reserves. This report also presents data on coal consumption, coal distribution, coal stocks, coal prices, coal quality, and emissions for a wide audience including the Congress, Federal and State agencies, the coal industry, and the general public. In addition, Appendix A contains a compilation of coal statistics for the major coal-producing States. This report does not include coal consumption data for nonutility Power Producers who are not in the manufacturing, agriculture, mining, construction, or commercial sectors. This consumption is estimated to be 5 million short tons in 1993.

  20. Coal industry annual 1993

    International Nuclear Information System (INIS)

    1994-01-01

    Coal Industry Annual 1993 replaces the publication Coal Production (DOE/FIA-0125). This report presents additional tables and expanded versions of tables previously presented in Coal Production, including production, number of mines, Productivity, employment, productive capacity, and recoverable reserves. This report also presents data on coal consumption, coal distribution, coal stocks, coal prices, coal quality, and emissions for a wide audience including the Congress, Federal and State agencies, the coal industry, and the general public. In addition, Appendix A contains a compilation of coal statistics for the major coal-producing States. This report does not include coal consumption data for nonutility Power Producers who are not in the manufacturing, agriculture, mining, construction, or commercial sectors. This consumption is estimated to be 5 million short tons in 1993