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Sample records for czechoslovak nuclear programme

  1. Training of engineers for Czechoslovak nuclear programme at Czech Technical University in Prague

    International Nuclear Information System (INIS)

    Klik, F.; Stoll, I.

    1983-01-01

    Between the year 1959 and the 1970's specialists for the Czechoslovak nuclear programme were only educated at the Faculty of Nuclar and Physics Engineering. In the early 1970's instruction and research related to nuclear power generation was introduced at the mechanical engineering and electrical engineering faculties. The specialization ''Nuclear power facilities'' was introduced within the study field ''Thermal and nuclear machines and equipment'' at the mechanical engineering faculty, and the electrical engineering faculty opened the study course ''Nuclear power plants'' in the study year 1975/1976. Most specialists for the nuclear programme are educated at the Faculty of Nuclear and Physics Engineering in the field ''Nuclear chemical engineering'' and in specializations ''Theory and technology of nuclear reactors'', ''Dosimetry and application of ionizing radiation'' in the study field ''Nuclear engineering''. The Faculty of Nuclear and Physics Engineering also trains specialists in the field ''Structure and materials properties'', the study courses ''Measuring technology'' and ''Control technology'' are run at the electrical engineering faculty and at the mechanical engineering faculty were introduced study courses of ''Applied mechanics'' and ''Mechanical engineering technology''. Graduates of all said study courses may be employed in the nuclear programme. (E.S.)

  2. The Czechoslovak nuclear forum

    International Nuclear Information System (INIS)

    Kadlec, J.

    1992-01-01

    The Czechoslovak Nuclear Forum is a civic initiative that is involved with the safe, economically efficient and generally acceptable development of nuclear power. Its efforts are aimed at incorporation into a broader European context. The Forum is a FORATOM member organization. Its activities are intended to contribute to the establishment of a favorable climate for a further progress of nuclear power in elected bodies (Parliament, municipal and district authorities), in mass media and among the public. (M.D.)

  3. Development of Czechoslovak nuclear power engineering

    International Nuclear Information System (INIS)

    Keher, J.

    1985-01-01

    The output of Czechoslovak nuclear power plants is envisaged at 2200 MW by 1985, 4400 MW by 1990 and 10,280 MW by the year 2000. The operation so far is assessed of Bohunice V-1 and Bohunice V-2 power plants as is the construction of the Dukovany nuclear power plant. International cooperation in the fulfilment of the nuclear power programme is based on the General Agreement on Cooperation in the Prospective Development and Interlinkage of CMEA Power Systems to the year 1990, the Agreement on Multilateral International Specialization and Cooperation of Production and on Mutual Deliveries of Nuclear Power Plant Equipment. The most important factor in international cooperation is the Programme of Cooperation between the CSSR and the USSR. The primary target in the coming period is the Temelin nuclear power plant project and the establishment of unified control of the nuclear power complex. (M.D.)

  4. Role of higher education in training of university and college graduates for Czechoslovak nuclear programme

    International Nuclear Information System (INIS)

    Urbanek, J.; Nemec, J.

    1983-01-01

    The mechanical engineering faculty of the College of Mechanical and Electrical Engineering in Plzen trains students in the field ''Thermal and nuclear power machines and equipment''. The study field is subdivided into two specializations: ''Nuclear power facilities'' and ''Thermal power facilities''. The former specialization provides students with knowledge in the foundations of calculations and design of nuclear reactors and accessories, of heat transfer with application to nuclear reactors, the foundations of nuclear physics, reactor physics, calculations of shielding and reactor control. The specialization ''Thermal power facilities'' acquaints the students with the foundations of computations and the design of steam and gas turbines and turbocompressors, production technology, assembly and operation, defects and their removal, the foundations of nuclear power facilities and the design of thermal power plants. At the electrical engineering faculty of the College the study field ''Electrical power engineering'' includes the specialization ''Nuclear power plants''. New study fields have been suggested following consultations with the SKODA production enterprise. It has been found that the immediate increased demand for nuclear power specialists, namely for the assembly, commissioning and operation of nuclear power plants, will have to be met by the redeployment of engineers inside the respective enterprises. (E.S.)

  5. Czechoslovak experience from large public debates on nuclear programme after political changes in 1989

    International Nuclear Information System (INIS)

    Novak, M.

    1993-01-01

    The communistic political system did not need any real public participation in the decision making process not only in nuclear field. Even decision attached directly the people interest was made without public participation. With the come back of freedom in Czechoslovakia, came a period of Greenpeace success but, however short lived because of their methods which were vehement and arrogant as did the communists for the defence of their interests. New public relations section was created in Czech Power Company headquarters in Prague. The goal was to create an atmosphere of confidence, opening and competence of information. Information centres were built, by visiting them, people can see nuclear power plant in operation. In the same time it is necessary to take into account the right of the public to participate in public issues decisions including big constructions. Among them nuclear power plants and other power industry investments are counted. 5 figs

  6. Development of Czechoslovak nuclear power complex

    International Nuclear Information System (INIS)

    Rajci, T.

    1986-01-01

    The research project ''Development of the Czechoslovak nuclear power complex'' was undertaken by several Czechoslovak institutions and was coordinated by the Research Institute of the Fuel and Power Complex in Bratislava. Involved in the project was a staff of 170 people. 274 reports were pulished and the cost approached 70 mill. Czechoslovak crowns. The results are characterized of all six partial tasks. Basic information was prepared for the forecast of the solution of fuel and power problems in Czechoslovakia up to the year 2000 and their prospects up to the year 2020. Program MORNAP was written for the development of nuclear power, which models the operation of a power generation and transmission system with a selectable number of nuclear power plants. Another partial task related to the fuel cycle of nuclear power plants with respect to long-term provision and management of nuclear fuel. Nuclear safety was split into three problem groups, viz.: system safety of nuclear power plant operation; radiation problems of nuclear power plant safety; quality assurance of nuclear power plant components. The two remaining tasks were devoted to nuclear power engineering and to civil engineering. (Z.M.). 3 tabs., 1 refs

  7. Czechoslovak nuclear medicine, development and present state

    Energy Technology Data Exchange (ETDEWEB)

    Hupka, S [Ustav Klinickej Onkologie, Bratislava (Czechoslovakia)

    1981-01-01

    The growth is described of nuclear medicine departments and units in Czechoslovakia in the past 25 years of the existence of the Czechoslovak Society for Nuclear Medicine and Radiation Hygiene, the numbers of personnel and their qualifications. While only three nuclear medicine units were involved in the use of radioisotopes for diagnostic and therapeutic purposes in the 1950's, 29 specialized departments and 15 laboratories are now in existence with a staff of 299 medical doctors and other university graduates and 365 technicians and nurses. They operate all possible instruments, from simple detector devices via gamma cameras to computer tomographs. Briefly, the involvement of the Society is described in coordinated research programs, both with institutions in the country and with the other CMEA countries and IAEA.

  8. CSAEC tutor board its necessity and use for technical and economic promotion of the Czechoslovak nuclear programme

    International Nuclear Information System (INIS)

    Kriz, Z.

    1985-01-01

    The article informs of scientific, technical and economic publicity on the peaceful uses of nuclear power. A board of tutors has been established whose activity is divided into seven subject areas. (E.S.)

  9. From the idea to the power plant. First steps of Czech(oslovak) nuclear power

    International Nuclear Information System (INIS)

    Stolár, Jan; Pavlis, David; Říha, Josef

    2016-01-01

    The 60 years' history of the Czechoslovak nuclear machinery company SKODA JS is described with stress on its key role in the construction of the first Czechoslovak nuclear power plant, A-1 at Jaslovske Bohunice.

  10. Twenty years from the start-up of A-1, the first Czechoslovak nuclear power plant

    International Nuclear Information System (INIS)

    Komarek, A.

    1992-01-01

    On the occasion of the 20th anniversary of the start-up of A-1, the first Czechoslovak nuclear power plant, some less widely known data concerning the background of its development and construction, its importance for Czechoslovak engineering, and some conclusions for the future development of the Czechoslovak power industry are presented. (author) 3 figs

  11. Services of the Czechoslovak Nuclear Information Centre, based on IAEA information sources

    International Nuclear Information System (INIS)

    Dufkova, M.

    1987-01-01

    Information services provided by the Nuclear Information Centre (NIC) as the sector information centre for the Czechoslovak nuclear programme proceed primarily from its membership of INIS. From INIS Atomindex tapes are computer-processed SDI searches, their price for one query is 3,948 Czechoslovak crowns per year. The user can at any time put forward a request for tuning or for a change of the initially requested query formulation. A copy of SDI searches is provided for 1,200 Czechoslovak crowns per annum to other interested persons or institutions who cannot, however, influence the query formulation. Since 1979, the NIC has been processing retrospective searches by direct online access to the INIS data base. The price of these searches ranges between 1,000 and 1,500 Czechoslovak crowns. Under the same conditions the NIC also provides retrospective searches from AGRIS. Since 1986, the NIC has extended its services by providing data from the UVTEI-UTZ data base centre in Prague. Retrospective searches can since 1985 be processed directly at the workplace of those interested, this through mobile terminals. All said services are followed up by services provided by the NIC library which contains more than 215,000 microfiches with full texts of nonconventional documents incorporated in INIS. (Z.M.)

  12. Standardization of computer programs - basis of the Czechoslovak library of nuclear codes

    International Nuclear Information System (INIS)

    Gregor, M.

    1987-01-01

    A standardized form of computer code documentation has been established in the CSSR in the field of reactor safety. Structure and content of the documentation are described and codes already subject to this process are mentioned. The formation of a Czechoslovak nuclear code library and facilitated discussion of safety reports containing results of standardized codes are aimed at

  13. Decree of the Czechoslovak Atomic Energy Commission concerning the security protection of nuclear installations and nuclear materials

    International Nuclear Information System (INIS)

    1989-01-01

    In compliance with the Czechoslovak State Surveillance over Nuclear Safety of Nuclear Installations Act No. 28/1984, the Decree specifies requirements for assuring security protection of nuclear installations (and their parts) and of nuclear materials with the aim to prevent their abuse for jeopardizing the environment and the health and lives of people. (P.A.)

  14. GERB viscous dampers in applications for pipelines and other components in Czechoslovak nuclear power plants

    International Nuclear Information System (INIS)

    Masopust, R.; Podrouzek, J.

    1992-01-01

    VISCODAMPERS from GERB, Germany, are now widely used as reliable shock restraints against earthquake and other shock effects for the most important safety-related pipelines and components in several Czechoslovak nuclear power plants. Having many technical advantages they are, at the same time, relatively inexpensive in comparison with conventional snubbers. Their properties are briefly described and several practical applications are explained. (author) 3 tabs., 9 figs., 8 refs

  15. Checking the special professional qualification of selected personnel of Czechoslovak nuclear power facilities

    International Nuclear Information System (INIS)

    Kovar, P.; Bahnova, V.

    1990-01-01

    The system of examinations of selected staff members of Czechoslovak nuclear power plants for their special professional quanlification is described in detail. This selected personnel includes secondary circuit operators, primary circuit operators, graduate shift leaders as well as reactor unit managers. Attention is paid to the structure, methodology, contents and criteria of evaluation of the written, oral and practical parts of the examination, which is sat for before the State Examination Commission. Based on the results of the examinations, the Czechoslovak Atomic Energy Commission grants, prolongs or cancels licenses for the particular functions. Over the period from 1985 to March 1989, 394 new licenses were issued, 93 licenses were prolonged and 4 were withdrawn. (Z.M.). 7 figs., 3 tabs., 3 refs

  16. Nuclear facility safeguards as specified by the Czechoslovak administrative law

    International Nuclear Information System (INIS)

    Elias, J.; Svab, J.

    1978-01-01

    A study is presented of the legal aspects of nuclear safeguards for the operation of nuclear power facilities evaluating the development of the legal arrangement over the past five years, i.e., encoding nuclear safeguards for nuclear facilities in the new building regulations (Act No. 50/1976 Coll. of Laws on Urban Planning and Building Regulations and implementing provisions). It also discusses the juridical position of State surveillance over the nuclear safety of nuclear facilities and its relation to surveillance carried out by specialized bodies of the State work safety inspection and to surveillance carried out by hygiene inspection bodies. (J.S.)

  17. Comparison of development trends of Czechoslovak and European nuclear power

    International Nuclear Information System (INIS)

    Cibula, M.

    1988-01-01

    Statistical and prognostic data were compared characterizing the development of the power industry, electric power generation and nuclear power in the CSSR and in other European countries. The penetration of nuclear power into the power industry of the individual countries is affected especially by the economic necessity of changing the level and structure of the respective country's national economy with primary power resources and electric power. The analysis shows among others that nuclear energy has become most widely introduced in countries where electric power makes up a high proportion of the power balance and where the country only has an average amount of primary power resources. By the year 2000 nuclear power is envisaged to make up 27.5 to 32.2% of total power output which corresponds to an annual increase of 5.6% in the power output of nuclear power plants. The dependence of Czechoslovakia's increase of power output on nuclear power is greater than that of both the European capitalist and socialist countries. (Z.M.). 1 fig., 4 tabs., 5 refs

  18. Hypothetical requirements on number of personnel in Czechoslovak nuclear power plants

    International Nuclear Information System (INIS)

    Halik, J.

    1990-01-01

    The structural changes of Czechoslovak power prevent prediction of labor force development by extrapolating the existing development trends. Nuclear power demands a different qualification and occupation structure of the labor force than conventional power generation. The prediction of the number of personnel is based on data on the expected installed capacity and on its commissioning. The following organizational structures are envisaged for a nuclear power plant: the divisions of the Director, of production, maintenance, radiation safety and quality control, technology and investment, economics and personnel. A total of 15,654 personnel are envisaged for nuclear power plants in 2005. A brief comparison is submitted of labor demands in nuclear power plants in Czechoslovakia and in the world. (M.D.). 1 fig., 4 tabs., 3 refs

  19. Radiation protection in the Czechoslovak nuclear power plants

    International Nuclear Information System (INIS)

    Singer, J.; Koc, J.; Hynek, J.; Trousil, J.

    1987-01-01

    The radiation monitoring by means of the central information system and of autonomous, portable and laboratory devices as well as a brief characteristic of the nuclear power plant radiation fields are described. The new personal dosimetric film and thermoluminescent badges and the method (including the block diagram) for personal dose evaluation are also introduced. Internal contamination monitoring is performed by means of a whole-body counter and excreta sample analysis. Monitoring the influence of effluents from nuclear power plants on environment in Czechoslovakia is based on significant radionuclide measurements in ventilation stacks and in the environment, also by means of the telemetric system, all in connection with mathematical models. (author)

  20. Heat extraction from turbines of Czechoslovak nuclear power plants for district heating

    International Nuclear Information System (INIS)

    Drahy, J.

    1985-01-01

    Two design are described of SKODA extraction turbines for Czechoslovak nuclear power plants with WWER-440 and WWER-1000 reactors. 220 MW steam turbines were originally designed as pure condensation turbines with uncontrolled steam extraction. Optimal ways are now being sought for their use for heating hot water for district heating. For district heating of the town of Trnava, the nuclear power plant at Jaslovske Bohunice will provide a two-step heating of water from 70 to 120 degC with a heat supply of 60 MW th from one turbine unit. The ratio of obtained heat power to lost electric power is 5.08. Investigations showed the possibility of extracting 85 MW th of heat from uncontrolled steam extraction, this at three-step water heating from 60 to 145 degC, the ratio of gained and lost power being 7.14. Information is presented on the SKODA 220 MW turbine with steam extraction for heat supply purposes and on the 1000 MW turbine with 893 MW th heat extraction. The specifications of both types are given. (Pu)

  1. Czechoslovak uranium

    International Nuclear Information System (INIS)

    Pluskal, O.

    1992-01-01

    Data and knowledge related to the prospecting, mining, processing and export of uranium ores in Czechoslovakia are presented. In the years between 1945 and January 1, 1991, 98,461.1 t of uranium were extracted. In the period 1965-1990 the uranium industry was subsidized from the state budget to a total of 38.5 billion CSK. The subsidies were put into extraction, investments and geologic prospecting; the latter was at first, ie. till 1960 financed by the former USSR, later on the two parties shared costs on a 1:1 basis. Since 1981 the prospecting has been entirely financed from the Czechoslovak state budget. On Czechoslovak territory uranium has been extracted from deposits which may be classified as vein-type deposits, deposits in uranium-bearing sandstones and deposits connected with weathering processes. The future of mining, however, is almost exclusively being connected with deposits in uranium-bearing sandstones. A brief description and characteristic is given of all uranium deposits on Czechoslovak territory, and the organization of uranium mining in Czechoslovakia is described as is the approach used in the world to evaluate uranium deposits; uranium prices and actual resources are also given. (Z.S.) 3 figs

  2. 12. national conference of Czechoslovak power specialists

    International Nuclear Information System (INIS)

    1983-01-01

    The XIIth national conference of Czechoslovak power specialists was held in Bratislava from October 5 to 7, 1983. Of the total number of 32 papers 12 were incorporated in the INIS system, i.e., such which dealt with the development of the nuclear power complex and the rationalization of sources and the use of heat in the Czechoslovak energy balance. (E.S.)

  3. Ghana's nuclear programme

    International Nuclear Information System (INIS)

    Ahafia, Albert K.

    1988-01-01

    The Paper gives the purpose of Ghana's Nuclear Programme and describes some specific research activities and peaceful applications of atomic energy in agriculture, medicine and industry. A discussion of some of the problem facing the programme concludes the Paper. (author)

  4. Quality assurance programme of Temelin nuclear power plant

    International Nuclear Information System (INIS)

    Eybl, J.; Nowak, O.

    1988-01-01

    The fundamental principle of the system of quality assurance in Czechoslovak nuclear power is quality assurance at all stages of the construction and operation of nuclear power plants and the grading fo measures taken, this in dependence on the impact on nuclear safety of the respective nuclear installation or its part. The system has been made fully operational during the construction of nuclear power plants in Temelin and Mochovce. State surveillance is executed by the Czechoslovak Atomic Energy Commission, and the Czech and Slovak Offices for Work Safety. Briefly discussed are the tasks of the building subcontractor of the Temelin nuclear power plant with regard to the programme of quality assurance as well as the results of the solution of the respective research tasks. The programme of quality assurance classifies the selected sections of the structure of a nuclear power plant into three safety categories. No part of the structure is classified into the first category, the second category includes, e.g., the reactor building, cooling tanks and diesel generator units, the third includes the reactor building and the building of auxiliary workshops. Attention is also paid to the problems of the qualification of personnel and to inspection activity. (Z.M.). 12 refs

  5. The Problems of Controlling Defects in the Materials Used for the First Czechoslovak Nuclear-Power Station

    International Nuclear Information System (INIS)

    Radislav, Filipp

    1965-01-01

    The paper briefly describes the reactor vessel of the first Czechoslovak nuclear power station. In order to meet the stringent design and structural requirements involved in fabricating the reactor vessel, which consists of low-alloy, non-aging steel of considerable thickness (650 mm), it was necessary to devise a ''control'' method for non-destructive testing of the basic material and welded joints. The ultrasonic pulse method, using one probe, is used extensively in testing the quality of the basic material and welded joints. The paper describes the methods used for carrying out tests and interpreting the results during the investigation of the basic material, and the methods for testing the quality of molten-slag arcless electric welds, carbon-dioxide welds, and manual arc welds. An automatic flaw-detection apparatus made in Czechoslovakia is used to test flat forgings and rolled products. The apparatus consists of two parts: a travelling mechanism and a UID-A2 ultrasonic flaw-detector made in Czechoslovakia. The apparatus incorporates a number of new features. The effect of distance on the height of the defect signal pulse is compensated and the height remains constant. The effect of irregularity of the acoustic link is also compensated since the data-unit conveys pulses to the remote recording device. An attenuator is used to determine the size of the flaw. An automatic apparatus is now being developed for testing on a vertical cylindrical surface. Assembly welds on circumferences must be tested at a high temperature. In the V.I. Lenin Plant at Pilsen a special data-unit has been developed for this purpose which makes it possible to carry out tests at elevated temperatures with a high degree of accuracy. Non-destructive tests of welded structures are also carried out using radiography. The testing of thin longitudinal seam welds and their roots at a high temperature is carried out with an X-ray unit with circular radiation characteristics, using special

  6. The French nuclear programme

    International Nuclear Information System (INIS)

    Bacher, Pierre

    1987-01-01

    France has a civil nuclear power generation programme second only to the USA with 49 nuclear units in operation and 13 under construction. The units in service are described. These include 33 PWR 900 MW and 9 PWR 1300 MW units. The electricity consumption and generation in France is illustrated. The absence of a powerful anti-nuclear lobby and two main technical options have contributed to the success of the French nuclear programme. These are the PWR design and the plant standardization policy which allows the setting up of an effective industrial complex (eg for analysis of operating conditions and of safety and reliability information). The programme and the reasons for its success are reviewed. Research programmes and future plans are also discussed. (UK)

  7. Agreements Provided for in the Treaty on the Non-Proliferation of Nuclear Weapons. Declarations Received from Bulgaria, the Czechoslovak Socialist Republic, Hungary and Poland

    International Nuclear Information System (INIS)

    1970-01-01

    The Director General has received from the Governments of Bulgaria, the Czechoslovak Socialist Republic, Hungary and Poland declarations in which they express their readiness, in conformity with the obligations they have assumed under Article III of the Treaty on the Non- Proliferation of Nuclear Weapons, to begin negotiation of safeguards agreements with the Agency. The texts of these declarations are reproduced below for the information of all Members

  8. Agreements Provided for in the Treaty on the Non-Proliferation of Nuclear Weapons. Declarations Received from Bulgaria, the Czechoslovak Socialist Republic, Hungary and Poland

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1970-06-11

    The Director General has received from the Governments of Bulgaria, the Czechoslovak Socialist Republic, Hungary and Poland declarations in which they express their readiness, in conformity with the obligations they have assumed under Article III of the Treaty on the Non- Proliferation of Nuclear Weapons, to begin negotiation of safeguards agreements with the Agency. The texts of these declarations are reproduced below for the information of all Members.

  9. The French nuclear programme

    International Nuclear Information System (INIS)

    Feger, M.

    1990-01-01

    EDF has long been interested in the use of nuclear energy for thermal power generation. After a period of apprenticeship and experiments, EDF launched a major PWR plant programme so as to reduce France's energy dependence and master generation costs. This programme, based on standardization, has achieved the desired results. It must now be adapted to suit the needs of the 21st century. For this programme, all those involved (Governmental authorities, EDF, manufacturers) were mobilized to an unprecedented extent and rigorous working methods were imposed. Experience feedback has been used to make improvements both to the installations themselves and to procedures. Results have proved satisfactory as regards nuclear safety but vigilance must be maintained. Public opinion on nuclear power is reserved we are sentenced to achieving a 'fault-free' track record, all the while mastering costs, so as to ensure the continuing use of nuclear energy. (author)

  10. The French nuclear programme

    Energy Technology Data Exchange (ETDEWEB)

    Feger, M [Ecole Nationale Superieure d' Electrotechnique de Grenoble, Institute National des Sciences et Techniques Nucleaires (Saclay), Gif-sur-Yvette, Electricite de France (France)

    1990-06-01

    EDF has long been interested in the use of nuclear energy for thermal power generation. After a period of apprenticeship and experiments, EDF launched a major PWR plant programme so as to reduce France's energy dependence and master generation costs. This programme, based on standardization, has achieved the desired results. It must now be adapted to suit the needs of the 21st century. For this programme, all those involved (Governmental authorities, EDF, manufacturers) were mobilized to an unprecedented extent and rigorous working methods were imposed. Experience feedback has been used to make improvements both to the installations themselves and to procedures. Results have proved satisfactory as regards nuclear safety but vigilance must be maintained. Public opinion on nuclear power is reserved we are sentenced to achieving a 'fault-free' track record, all the while mastering costs, so as to ensure the continuing use of nuclear energy. (author)

  11. Decree of the Czechoslovak Atomic Energy Commission No. 191/1989 on procedures, terms and conditions for examining special professional qualification and competence of selected nuclear facility personnel

    International Nuclear Information System (INIS)

    1995-01-01

    The procedures, terms and conditions for examining special professional competence of selected nuclear facility personnel are specified, including conditions for professional training and for issuing licenses qualifying the personnel for their work. Nuclear safety-related jobs at nuclear facilities are listed. Professional licenses with a two-year term of validity are granted by the Czechoslovak Atomic Energy Agency (CSAEC) to candidates who have passed examination before the State Examination Commission. Personnel training may only be performed by bodies authorized for that by the CSAEC. The Decree entered into force on 1 January 1990. (J.B.)

  12. 20 th anniversary of the Nuclear Research Institute (UJV)

    International Nuclear Information System (INIS)

    Havel, S.

    1975-01-01

    The importance of NRI founded twenty years ago, its original mission and tasks in the period of its establishement and the growth of its experimental base made possible by Soviet assistance are shown. A new mission of NRI after its reorganization and its incorporation in the Czechoslovak Atomic Commision is discussed. The survey of main research efforts aimed at the implementation of the programme of the Czechoslovak nuclear power and at meeting the needs of the Czechoslovak national economy is given. (author)

  13. Nuclear programme in Indonesia

    International Nuclear Information System (INIS)

    Ahimsa, Djali

    1994-01-01

    Implementation of the energy policy covers several aspects such as issuance of regulations, standards, energy pricing incentives and disincentives, and the application of appropriate technologies. The policies and implementation of the technologies can fully be supported by the use of nuclear technology, especially toward the now popular issue concerning the environment. In view of these policies and the need to implement these policies. i.e. for the diversification of energy and environmental concern, the Department of Mines and Energy has established an Indonesian Energy Coordination Board (BAKOREN). This board has realised the importance of considering nuclear as a source of energy, which has led to a decision in September 1989, for The National Atomic Energy Agency (BATAN) to conduct a feasibility study to introduce nuclear power plants in Indonesia. The establishment of an authority for the construction and operation of Nuclear Power Plants in Indonesia, which is primarily related to the safe and efficient operation of nuclear power plants, must also be prepared. This authority is still under considerations by the Indonesian Government. In implementing the Indonesia Nuclear Programme, it is important that cooperation exists among countries of the world, Korea, in this respect, as learning from experiences of other countries are very necessary to plan for a successful Nuclear Programme

  14. Nuclear safety. Improvement programme

    International Nuclear Information System (INIS)

    2000-01-01

    In this brochure the improvement programme of nuclear safety of the Mochovce NPP is presented in detail. In 1996, a 'Mochovce NPP Nuclear Safety Improvement Programme' was developed in the frame of unit 1 and 2 completion project. The programme has been compiled as a continuous one, with the aim to reach the highest possible safety level at the time of commissioning and to establish good preconditions for permanent safety improvement in future. Such an approach is in compliance with the world's trends of safety improvement, life-time extension, modernisation and nuclear station power increase. The basic document for development of the 'Programme' is the one titled 'Safety Issues and their Ranking for WWER 440/213 NPP' developed by a group of IAEA experts. The following organisations were selected for solution of the safety measures: EUCOM (Consortium of FRAMATOME, France, and SIEMENS, Germany); SKODA Prague, a.s.; ENERGOPROJEKT Prague, a.s. (EGP); Russian organisations associated in ATOMENERGOEXPORT; VUJE Trnava, a.s

  15. Canada's nuclear power programme

    International Nuclear Information System (INIS)

    Peden, W.

    1976-01-01

    Although Canada has developed the CANDU type reactor, and has an ambitious programme of nuclear power plant construction, there has been virtually no nuclear controversy. This progress was seen as a means to bring Canada out of the 'resource cow' era, and onto a more equal footing with technologically elite nations. However the Indian nuclear explosion test, waste storage problems, contamination problems arising from use of uranium ore processing waste as land fill and subsidised sale of nuclear power plants to Argentina and South Korea have initiated public and parliamentary interest. Some economists have also maintained that Canada is approaching over-supply of nuclear power and over-investment in plant. Canada has no official overall energy production plan and alternative sources have not been evaluated. (JIW)

  16. The Brazilian nuclear programme

    International Nuclear Information System (INIS)

    Forman, J.M.A.

    1990-01-01

    Developing an energy policy for a country the size of Brazil is a formidable task. Large differences between the regions in geography and economic development do not allow for a uniform plan. In the mid 1970s, Brazil started a nuclear energy programme to provide it with another option in its energy planning. The objective of the programme was gradually to build a technical and industrial base for nuclear power in the country, so that it would be available when it was needed. It was recognized that it would not be easy for a developing country to acquire the necessary high technology. The organization of the industry is outlined, demand projections are presented and domestic supplies of uranium assessed. (author)

  17. Nuclear Physics Institute of the Czechoslovak Academy of Sciences 1955 to 1975

    International Nuclear Information System (INIS)

    The scientific problems studied at the Institute of Nuclear Physics are described and the most important results obtained in basic and applied research are presented. The document includes photographs of the instrumentation of the Institute of Nuclear Physics. (J.P.)

  18. Meeting Czechoslovak demands for heat in long-term prospective, especially with regard to nuclear sources

    International Nuclear Information System (INIS)

    Klail, M.

    1988-01-01

    The development was studied of heat demand in the CSSR till the year 2030. The ratio of centralized and decentralized heat supply is currently 60 to 40; in the future a slight increase is expected in the decentralized type of heat supply, mainly as a result of more intensive use of natural gas. In 2030, 710 PU of centralized heat should be produced. A decisive element in meeting the demand will be a growing proportion of combined production of electric power and heat by nuclear power plants. The installed capacity of the nuclear power plants in 2030 should range between 23 and 41 thousand MW, the production of electric power in these plants should be 193 to 238 TWh/y. 109 territorial areas potentially suitable for use of heat from nuclear sources were selected. They were included in 19 regions of which 9 should in the year 2010 be linked to heat supply from nuclear power plants that will be in operation. It is expected that in the year 2030, nuclear sources will supply 250 PU of centralized heat. (Z.M.). 2 tabs., 14 refs

  19. Application of the discounted value flows method in production cost calculations for Czechoslovak nuclear power plants

    International Nuclear Information System (INIS)

    Majer, P.

    1990-01-01

    The fundamentals are outlined of the discounted value flows method, which is used in industrial countries for calculating the specific electricity production costs. Actual calculations were performed for the first two units of the Temelin nuclear power plant. All costs associated with the construction, operation and decommissioning of this nuclear power plant were taken into account. With a high degree of certainty, the specific production costs of the Temelin nuclear power plant will lie within the range of 0.32 to 0.36 CSK/kWh. Nearly all results of the sensitivity analysis performed for the possible changes in the input values fall within this range. An increase in the interest rate to above 8% is an exception; this, however, can be regarded as rather improbable on a long-term basis. Sensitivity analysis gave evidence that the results of the electricity production cost calculations for the Temelin nuclear power plant can be considered sufficiently stable. (Z.M.). 7 figs., 2 tabs., 14 refs

  20. Training of nuclear power plant personnel on Czechoslovak WWER-440 simulator

    International Nuclear Information System (INIS)

    Dugovic, M.

    1985-01-01

    The aim of simulator training is to train personnel for control work observing technical and technological regulations of nuclear power plant operation. Training is implemented in two forms: basic training and recurrent training. The daily regime of the training course is divided into theoretical education, simulator training and evaluation. Simulator training is oriented to the preparation of the workplace, presentation, controlled intermittent work and independent control work. (J.C.)

  1. II. congress of Czechoslovak Society of Nuclear Medicine and Radiation Hygiene

    International Nuclear Information System (INIS)

    1986-01-01

    The proceedings contain 165 abstracts of papers covering all areas of the application of nuclear medicine, such as osteology, cardiology, immunology, neurology, oncology, etc. The topics include the examination of the skeleton with radioisotopes, various immunology methods, scintiscanning of body organs, tumor monitoring, radiopharmacology aspects, biological radiation effects, cytogenetic changes following irradiation, and studies of radiation effects on DNA repair. Separate volumes are devoted to education of technicians, processing of radioisotope examination data, radiation protection and decontamination. (M.D.)

  2. Text of the agreement between the Czechoslovak Socialist Republic and the Agency for the application of safeguards in connection with the treaty on the non-proliferation of nuclear weapons

    International Nuclear Information System (INIS)

    1993-07-01

    The document informs that the Czech Republic succeeded to the Treaty on the Non-Proliferation of Nuclear Weapons on 1 January 1993 and to the agreement between the Czechoslovak Socialist Republic and the Agency for the application of safeguards in connection with the above treaty

  3. Text of the agreement between the Czechoslovak Socialist Republic and the Agency for the application of safeguards in connection with the treaty on the non-proliferation of nuclear weapons

    International Nuclear Information System (INIS)

    1993-07-01

    The document informs that the Slovak Republic succeeded to the Treaty on the Non-Proliferation of Nuclear Weapons on 1 January 1993 and to the agreement between the Czechoslovak Socialist Republic and the Agency for the application of safeguards in connection with the above treaty

  4. Iran's nuclear power programme revisited

    International Nuclear Information System (INIS)

    Mossavar-Rahmani, B.

    1980-01-01

    Iran's new government has not yet made a final decision about the fate of that country's once ambitious nuclear power programme. If the programme is kept alive, it will be limited to the completion of at most one or two of the reactors that were already well underway when the revolution broke out. The author traces the origins and growth of the Iranian nuclear power programme between 1974 and 1978, summarizes the principal economic, infrastructural, and political criticisms of the programme as originally planned, discusses the potential for greater use of natural gas as an alternative and, finally, recommends a long, detailed reassessment of Iran's energy options. (author)

  5. Iran's nuclear programme

    International Nuclear Information System (INIS)

    Boureston, J.; Marvin, B.

    2004-01-01

    Iran's nuclear program is discussed, activity of enterprises connected with the nuclear industry of the country is evaluated. IAEA initiated inspection of some industrial sites with the aim of data acquisition about nuclear developments of Iran. Uranium ore mining and reducing to small size, uranium conversion, uranium enrichment, fabrication of nuclear fuel, production of plutonium: plant of heavy water production, spent fuel reprocessing are discussed [ru

  6. Text of the Agreement between the Czechoslovak Socialist Republic and the Agency for the Application of Safeguards in connection with the Treaty on the Non-Proliferation of Nuclear Weapons. Succession by the Czech Republic

    International Nuclear Information System (INIS)

    1993-07-01

    In a communication received on 24 March 1993, the Government of the Czech Republic informed the Director General, inter alia, that by virtue of succession to the Czech and Slovak Federal Republic, it was a Party, with effect from 1 January 1993, to the Agreement between the Czechoslovak Socialist Republic and the Agency for the Application of Safeguards in Connection with the Treaty on the Non-Proliferation of Nuclear Weapons [es

  7. Usability of some databases for information services in Czechoslovak nuclear programme

    International Nuclear Information System (INIS)

    Kakos, A.

    1988-01-01

    The contents were compared of the databases Chemical Abstracts Search, World Patent Index, Excerpta Medica, Inspec and Compendex with INIS, with regard to possible completing of INIS searches with searches in these other databases. On the basis of the results of test searches made in all said databases on selected topics falling under the INIS scope, concrete cases were determined when INIS searches should be completed with data in some of the other databases. The contents analysis method is described with regard to the concrete search topics and areas are given of the overlapping of the databases with INIS. Numerical results are given. (J.B.). 2 tabs

  8. Financing a nuclear programme

    International Nuclear Information System (INIS)

    Cameron, R.

    2010-10-01

    Nuclear power plant construction projects have many characteristics in common with other types of large infrastructure investment, both within the power generation sector and elsewhere. However, nuclear power itself has special features that can make nuclear financing particularly challenging. These features include the high capital cost, the relatively long period required to recoup investments, the often controversial nature of nuclear projects. The need for clear solutions and financing schemes for radioactive waste management and decommissioning and the need for nuclear power plants to operate at high capacity factors, preferably under base load conditions. During the previous major expansion of nuclear power in the 1970 and 1980, many nuclear projects suffered very large construction delays and cost overruns. The legacy of such problems increases the risks perceived by potential investors. A recent study undertaken jointly by the Iea and the Nea showed that the competitiveness of nuclear power strongly depends on the cost of financing due to the high share of fixed capital costs in the total lifetime costs of nuclear power. A key issue in this context is the long-term predictability of carbon pricing arrangements, which, for the time being and despite positive evolutions in this respect, most notably in Europe, does not yet exist. This paper will consider how the risks can be mitigated and examine in detail various models for corporate finance and the role of government assistance in providing a suitable financial basis. (Author)

  9. The Dutch nuclear programme

    International Nuclear Information System (INIS)

    1986-01-01

    Engineering Services Ltd. has, in fulfillment of its contractual commitment to the Dutch Industrial Council for Energy and Environment Technology (IREM), investigated the broad capability of the Dutch industry in playing a major role in the supply of goods and services for the construction of nuclear plants in the Netherlands. The findings are summarized in this document. 5 tabs

  10. Progress of French nuclear programme

    International Nuclear Information System (INIS)

    Pierrard, J.-H.

    1981-02-01

    The aims of the French nuclear programme launched in 1974 are briefly recalled to mind, as are the projects completed at the end of 1980. The operating results mentioned, particularly concern the new PWR units brought into commercial service in 1980 [fr

  11. Cooperation with the Soviet Union in the development of the fuel and power base and in the implementation of the nuclear programme in Czechoslovakia

    International Nuclear Information System (INIS)

    Harvanek, Z.

    1976-01-01

    One of the decisive chapters of the long-term programme of international cooperation with the Soviet Union is the solution of the problems of the development of the Czechoslovak fuel and power base, i.e., by the implementation of the nuclear programme. Cooperation in the solution of these tasks is oriented to the following spheres of activity: the realization of and cooperation in research and development tasks, the implementation of project designs based on basic and applied research, and cooperation in the production and assembly of technological equipment for nuclear power production. (J.P.)

  12. Planning and implementation of nuclear research programmes

    International Nuclear Information System (INIS)

    Lopes, J.L.

    1986-01-01

    The planning and implementation of nuclear research programmes in developed and developing countries is discussed. The main aspects of these programmes in USA, France, Japan, India and Brazil are reported. (M.W.O.) [pt

  13. The IAEA Nuclear Security Programme Combating Nuclear Terrorism

    International Nuclear Information System (INIS)

    2010-01-01

    Discusses the four threats of nuclear terrorism,which are theft of a nuclear weapon, theft of material to make an improvised nuclear explosive device,theft of other radioactive material for an Radiological dispersal device and sabotage of a facility or transport. The IAEA Nuclear Security programme combating Nuclear Terrorism therefore adopts a comprehensive approach. The programme addresses the need to cover nuclear and other radioactive materials, nuclear facilities and transports, non-nuclear, medical and industrial applications of sources

  14. Iran plans world's fourth biggest nuclear programme

    International Nuclear Information System (INIS)

    Anon.

    1977-01-01

    Power requirements of projected power generation to 1992, and fuel reserves, in Iran are submitted. The current nuclear programme is outlined. 34000 MWe of nuclear power is planned for the end of the century. (U.K.)

  15. Geochemical mineralogical and nuclear survey of petrogenetic formations of the Czechoslovak Carpathians in the years 1970-1975

    International Nuclear Information System (INIS)

    Cambel, B.

    1979-01-01

    A brief review is given of the works performed including the application of nuclear methods. The radioactivity was studied of granitoid rocks and the determination of uranium content using tracks from its decay. For chemical analysis of the minerals and rocks several methods were applied including X-ray fluorescence analysis and atomic absorption. In cooperation with institutes in the USSR work was started on the radiometric dating of samples from the Western Carpathians. In cooperation with Poland research was started of minerals using uranium fission tracks. (Ha)

  16. Nuclear power programmes in developing countries

    International Nuclear Information System (INIS)

    Anon.

    1988-01-01

    The paper on ''Nuclear power programmes in developing countries'' is a report to the IAEA by a Senior Expert Group. A description is given of the requirements for a successful nuclear power programme, including the constraints that developing countries might face in the introduction and execution of the programme. The group attempted to identify the main issues affecting the financing of nuclear power projects and suggested specific actions that could be undertaken in order to reduce economic and financial risks. The various issues were discussed under the topic headings:-programme-project-related factors, investment climate, financing plan, export credits and creditworthiness. (U.K.)

  17. The Russian nuclear data research programme

    International Nuclear Information System (INIS)

    1995-11-01

    The report contains the Russian programme of nuclear data research, approved by the Russian Nuclear Data Committee on 16 December 1994. It gives surveys on nuclear data needs, on the structure of nuclear data activities, on experimental facilities for nuclear data measurements at five Russian institutes, on theoretical model work, nuclear data evaluation, and nuclear data testing. It describes four Russian nuclear data centers and their relations to the International Nuclear Data Centres Network, and their holdings of nuclear data libraries of Russian and international origin. A summary of nuclear data applications in energy and non-energy fields is given. An appendix contains a detail nuclear data research programme for the years 1995 - 2005. (author). 16 refs, 1 fig., 6 tabs

  18. Nuclear power programme planning: An integrated approach

    International Nuclear Information System (INIS)

    2001-12-01

    The International Atomic Energy Agency (IAEA) has published material on different policy considerations in the introduction of nuclear power, primarily addressed to top level decision makers in government and industry in Member States. Several Member States and experts recommended to the IAEA to address the aspects of an integrated approach to nuclear power programme planning and to serve as guidance to those countries wishing to embark on a nuclear power programme. As a follow-up, the present publication is primarily intended to serve as guidance for executives and managers in Member States in planning for possible introduction of nuclear power plants in their electricity generating systems. Nuclear power programme planning, as dealt with in this publication, includes all activities that need to be carried out up to a well-founded decision to proceed with a project feasibility study. Project implementation beyond this decision is not in the scope of this publication. Although it is possible to use nuclear energy as a heat source for industrial processes, desalination and other heat applications, it is assumed in this publication that the planning is aimed towards nuclear power for electricity generation. Much of the information given would, however, also be relevant for planning of nuclear reactors for heat production. The publication was prepared within the framework of the IAEA programme on nuclear power planning, implementation and performance as a joint activity of the Nuclear Power Engineering Section and the Planning and Economic Studies Section (Division of Nuclear Power)

  19. Technology transfer in the Spanish nuclear programme

    International Nuclear Information System (INIS)

    Perez-Naredo, F.

    1983-01-01

    The paper describes the process of technology transfer under the Spanish nuclear programme and its three generations of nuclear power plants during the last 20 years, with special reference to the nine new plants equipped with Westinghouse pressurized water reactors and the rising level of national involvement in these stations. It deals with the development of Westinghouse Nuclear's organization in Spain, referring to its staff and to the manufacturers who supply equipment for the programme, going into particular detail where problems of quality assurance are concerned. In conclusion, it summarizes the present capacity of Spanish industry in various areas connected with the design, manufacture and construction of nuclear power plants. (author)

  20. International Nuclear Management Programmes -- INMP-- (VNMU)

    International Nuclear Information System (INIS)

    Adachi, Fumio

    2014-01-01

    • INMP is an IAEA-facilitated collaboration for universities to provide master’s degree programs in nuclear management, targeting managers or future managers working in the nuclear sector. • There are currently no full master’s degree programmes specializing in management for the nuclear sector. • Managers at NPP are typically engineers with few chances of formal management education. • In newcomer countries to nuclear energy, working towards the introduction of nuclear power, often lack technical or managerial experience in nuclear energy

  1. Nuclear power training programmes in Spain

    International Nuclear Information System (INIS)

    Tanarro, A.; Izquierdo, L.

    1977-01-01

    The introduction of nuclear power in Spain is developing very rapidly. At present 1.1GW(e) are installed in Spain and this is expected to increase to 8GW(e) in 1980 and to 28GW(e) in 1990. Spanish industry and technology are also rapidly increasing their participation in building nuclear stations, in manufacturing the necessary components and in the activities related to the nuclear fuel cycle. All of this requires properly trained personnel, which is estimated to become approximately 1200 high-level technicians, 1100 medium-level technicians and 1500 technical assistants by 1980. This personnel is trained: (a) in engineering schools; (b) in the Nuclear Studies Institute; (c) in the electric companies with nuclear programmes. The majority of the high-level engineering schools in the country include physics and basic nuclear technology courses in their programmes. Some of them have an experimental low-power nuclear reactor. The Nuclear Studies Institute is an official organism dependent on the Nuclear Energy Commission and responsible, among other subjects, for training personnel for the peaceful use and development of nuclear energy in the country. The electric companies also participate in training personnel for future nuclear stations and they plan to have advanced simulators of PWR and BWR type stations for operator training. The report deals with the personnel requirement forecasts and describes the training programmes. (author)

  2. Material development for India's nuclear power programme

    Indian Academy of Sciences (India)

    rials with emphasis on development of fabrication routes of zirconium alloys for .... nuclear power programme, which envisages design and construction of thermal breeder ... Production of Hf-free nuclear grade zirconium ..... Later on for pressure tubes specified limit for hydrogen content in the as manufactured condition.

  3. The Nordic Research programme on nuclear safety

    International Nuclear Information System (INIS)

    1992-06-01

    Only two of the five Nordic countries (Denmark, Iceland, Finland, Norway and Sweden) - Sweden and Finland - operate nuclear power plants, but there are a number of nuclear installations close to their borders. Regular 4-year programmes were initiated in 1977, designated NKS-programmes. (NKS: Nordisk KerneSikkerhedsforskning - Nordic nuclear-safety research). The current fourth NKS-programme is, influenced by the Chernobyl accident, dominated by the necessity for acquiring knowledge on unexpected events and release of radioactive material from nuclear installations. The present programme is divided into the areas of emergency preparedness, waste and decommissioning, radioecology and reactor safety. It comprises a total of 18 projects, the results of which will later be published in the form of handbooks for use in cases of emergency etc. The future of joint Nordic project work in the nuclear safety field must be seen in the light of changing conditions in and around the Nordic countries, such as the opening of relations to neighbours in the east, the move towards the European Communities and the need for training a new generation of specialists in the nuclear field etc. Each project is described in considerable detail and a list of reports resulting from the third NKS-programme 1985-1989 is given. (AB)

  4. Workforce Planning for New Nuclear Power Programmes

    International Nuclear Information System (INIS)

    2011-01-01

    An appropriate infrastructure is essential for the efficient, safe, reliable and sustainable use of nuclear power. The IAEA continues to be encouraged by its Member States to provide assistance to those considering the introduction of nuclear power. Its response has been to increase technical assistance, organize more missions and hold workshops, as well as to issue new and updated publications in the IAEA Nuclear Energy Series. Milestones in the Development of a National Infrastructure for Nuclear Power, an IAEA Nuclear Energy Series publication (NG-G-3.1), provides detailed guidance on a holistic approach to national nuclear infrastructure development involving three phases. Nineteen issues are identified in this guide, ranging from development of a government's national position on nuclear power to planning for procurement related to the first nuclear power plant. One of these 19 issues upon which each of the other 18 depend is suitable human resources development. As a growing number of Member States begin to consider the nuclear power option, they ask for guidance from the IAEA on how to develop the human resources necessary to launch a nuclear power programme. The nuclear power field, comprising industry, government authorities, regulators, R and D organizations and educational institutions, relies on a specialized, highly trained and motivated workforce for its sustainability and continued success, quite possibly more than any other industrial field. This report has been prepared to provide information on the use of integrated workforce planning as a tool to effectively develop these resources for the spectrum of organizations that have a stake in such nuclear power programmes. These include, during the initial stages, a nuclear energy programme implementing organization (NEPIO), as well as the future operating organization, nuclear regulatory body, government authorities and technical support organizations if a decision is made to initiate a nuclear power

  5. Nuclear power development

    International Nuclear Information System (INIS)

    Povolny, M.

    1980-01-01

    The development and uses of nuclear power in Czechoslovakia and other countries are briefly outlined. In the first stage, the Czechoslovak nuclear programme was oriented to the WWER 440 type reactor while the second stage of the nuclear power plant construction is oriented to the WWER 10O0 type reactor. It is envisaged that 12 WWER 440 type reactors and four to five WWER 1000 type reactors will be commissioned till 1990. (J.P.)

  6. Building infrastructure for new nuclear power programmes

    International Nuclear Information System (INIS)

    Starz, A.; Aoki, M.

    2010-01-01

    In recent years, more than sixty countries have indicated that they are considering or launching nuclear power programmes. It has been more than a decade since a country commissioned its first nuclear power plant. In meantime, the global nuclear community has faced greater concerns about safety, security and non-proliferation, resulting in increased international obligations and a greater expectation for transparency and openness regarding nuclear power programmes. Many of these 'nuclear newcomers' are turning to International Atomic Energy Agency (IAEA) to understand the implications of the nuclear power option and to receive advice about how to proceed with implementing a national programme. In response to growing demand for assistance, the IAEA developed a comprehensive, phased approach to establishing the infrastructure necessary to support a national nuclear power programme. This 'Milestones' approach is described in Nuclear Energy Series Guide NG-G-3.1 'Milestones in the Development of a National Infrastructure for Nuclear Power' (2007). From establishing the national position and legal framework to nuclear safety, security and safeguards, the Milestones covers 19 issues that need to be addressed. This approach also places special emphasis on the need for involvement of the Government, utility, industry, academic, and other stakeholders in a national decision-making process. The IAEA is also helping 'newcomers' to better understand its Safety Standards, which were written from the perspective of operating nuclear power programmes. A new safety guide is in development which provides a Road-map to the safety standards and identifies the standards that are relevant for each phase consistent with the Milestones. Several countries in the Europe region are working with the IAEA to understand the issues associated with a nuclear power programme in preparation for making a knowledgeable commitment. The starting points and approaches vary widely: some are European

  7. Results of research into nuclear power plant safety

    International Nuclear Information System (INIS)

    Polak, V.; Hladky, E.; Moravek, J.; Suchomel, J.; Stehlik, J.

    1976-01-01

    A survey is given of computer programmes for the safety analysis of nuclear power plants with WWER type reactors and with fast breeder reactors. The programmes solve accidents in the core, the primary circuit and the containment. A comparison is made of Czechoslovak and foreign computer programmes and their agreement proved. Also studied is the problem of radiation safety of nuclear power plants with regard to the leakage of radioactive isotopes and their detection. (J.B.)

  8. Co-ordination and methodological guidance of information activities in the Czechoslovak nuclear programme in building the branch information system

    International Nuclear Information System (INIS)

    Nejezchleb, V.

    1982-01-01

    The work of the control unit is described which secures the optimal operation of the system, its internal functions and its linkage with other systems. The aim of coordination and methodological activity is to strengthen working and organizational links within the framework of the construction and operation of sector information systems, the establishment of cooperation relations and the elimination of duplicity. (M.D.)

  9. Radiation protection programme for nuclear gauges

    International Nuclear Information System (INIS)

    Muzongomerwa, A.

    2014-04-01

    Ionizing radiation including the use of nuclear gauges can be very hazardous to humans and steps must be taken to minimize the risks so as to prevent deterministic effects and limiting chances for stochastic effects. The availability of a Radiation Protection Programme and its effective implementation ensures appropriate safety and security provisions for sealed radiation sources and promotes a safety culture within a facility that utilizes these sources. This study aims at establishing a guide on the radiation protection programme in nuclear gauges that comply with national requirements derived from current international recommendations. Elements that form part of a radiation protection programme are covered in detail as well as recommendations. The overall objective is to protect people (operators and the public) and the environment from the harmful effects of these sources if they are not properly controlled. Nuclear gauges for well logging and X-ray based gauges are outside the scope of this study. (au)

  10. IAEA Nuclear Security Programme Combating Nuclear Terrorism

    International Nuclear Information System (INIS)

    2010-01-01

    IAEA Plans of activities include, General Conference in September 2001 which reviewed activities relevant to preventing nuclear terrorism and proposed master plan. The Board of Governors approved new Nuclear Security Plan for the next four years. Three activity areas are; - needs assessment, analysis and coordination, prevention and detection and response.

  11. The Brazilian nuclear power manpower development programme

    International Nuclear Information System (INIS)

    Barbalho, A.R.; Spitalnik, J.; Machado, J.B.

    1983-01-01

    Since the early stages of decision making, manpower availability has been recognized to be a key factor for the implementation of Brazil's nuclear power programme. Though care has been given to securing an industrial base and financial resources, the consequences of a lack of sufficient qualified manpower could be critical for the success of the whole programme. The broad scope of the Brazilian nuclear power programme which, as a main concept, aimed at establishing in the country a complete fuel cycle industry together with the construction of nuclear power plants, added another burden to the already complex task of providing appropriate human resources when advanced technologies are introduced in a developing country. Thus, not only the work-force required for nuclear power plant operation but also that needed for plant design, component manufacture, fuel cycle plant design and operation, had to be made available in number and qualification in accordance with the standards of the nuclear industry. The feasibility of the Brazilian programme depended on a complete transfer of technology, essentially achieved through personnel training. Again, the process of manpower preparation for an efficient know-how transfer required careful planning, and the great difficulty in its implementation was the lack of reliable experience at the time. (author)

  12. Computer programmes for nuclear physics

    International Nuclear Information System (INIS)

    Wilmore, D.

    1981-02-01

    Two programmes for use in the calculation of problems involving the scattering of neutrons, protons or heavier composite particles from nuclei are described. The first, an optical model for the calculation of the elastic, total and absorption cross-sections from an optical potential, includes facilities for automatically finding the appropriate optical potential to describe any given set of experimental data. The second a statistical model for the calculation of inelastic and other compound nucleus scattering processes, according to three different theories, includes level width fluctuation calculations. (U.K.)

  13. Developing Infrastructure for New Nuclear Power Programmes

    International Nuclear Information System (INIS)

    2011-09-01

    Many countries are interested in introducing or expanding nuclear energy programmes because they regard nuclear power as a clean and stable source of electricity that can help to mitigate the impact of climate change. However, the March 2011 accident at the Fukushima Daiichi nuclear power plant in Japan - caused by an earthquake and tsunami of unprecedented proportions - demonstrated that there is a constant need to improve global nuclear safety, despite the great progress made in the previous 25 years. A 'safety first' approach needs to become fully entrenched among nuclear power plant operators, governments and regulators everywhere. Safety first must also be the watchword for Member States considering the introduction of nuclear power. I believe that all IAEA Member States should have access to nuclear power if they wish to add it their energy mix. While it is up to each country to decide whether or not to opt for nuclear power, the IAEA has a key role to play in ensuring that the development of nuclear power programmes takes place in a safe, efficient, responsible and sustainable manner. The IAEA has developed guidelines and milestones to help countries work in a systematic way towards the introduction of nuclear power. Use of the 'Milestones' approach can increase transparency both within a country introducing nuclear power, and between it and other States. This brochure summarizes the services which the IAEA offers to Member States considering introducing nuclear power. These include advice on proper planning, building the required human resources and infrastructure, establishing legal and regulatory frameworks, and ensuring the highest standards of safety and security, without increasing proliferation risks. The IAEA offers independent know-how on the construction, commissioning, startup and operation of nuclear reactors. Through the Technical Cooperation programme, we provide targeted support to 'newcomer' countries in response to national development needs

  14. Nuclear power programme: development and prospects

    International Nuclear Information System (INIS)

    Prasad, Y.S.R.

    1997-01-01

    The relevance of nuclear power in meeting the short and long term energy needs of India was recognised right at the beginning of the atomic energy programme. From the very beginning, as a long term strategy, the nuclear power programme, formulated by Dr Homi Jehangir Bhabha, embarked on a three stage process linking the fuel cycles of Pressurised Heavy Water Reactor (PHWR) and Fast Breeder Reactor (FBR), and was planned for judicious utilisation of the country's limited uranium ore (78,000 tonne) but vast thorium resources (>360,000 tonne). The emphasis of the programme was on self-reliance and thorium utilisation as a long term objective. India selected Pressurised Heavy Water Reactor (PHWR) because of several inherent advantages. (author)

  15. India's nuclear energy programme: prospects and challenges

    International Nuclear Information System (INIS)

    Gupta, Arvind

    2011-01-01

    India has announced ambitious plans to expand its nuclear energy programme nearly 15 fold in the next 20 years, from the current 4,500 MWe to about 62,000 MWe by 2032. By 2020, India's Department of Atomic Energy (DAE) plans to install 20,000 MWe of nuclear power generation capacity (the fifth largest in the world). The department has plans beyond 2030 too. According to these plans India will have the capacity to produce 275 GWe (Giga Watt of electricity) of nuclear power by the year 2052. The DAE's projections are summarised. This is a truly ambitious plan. Without sufficient quantities of energy, India cannot hope to become a global power. Its dream of registering eight to nine per cent economic growth per annum will remain just that, a dream. Even with such ambitious plans on the nuclear energy front, the share of nuclear power in the overall energy mix will remain small. Currently nuclear energy constitutes only about three per cent of the total energy consumed in India. If the current projections are realised, the share of nuclear energy in the total energy output will still be about 20 per cent. India takes pride in its nuclear programme. Over the years, successive governments have fully supported the DAE's plans. This support is likely to continue in the future. In fact, following the Indo-US civil nuclear deal and the Nuclear Suppliers Group (NSG) waiver in 2008, the mood in India has turned upbeat. India is now getting integrated into the global nuclear regime even though it has not signed the Nuclear Non Proliferation Treaty (NNPT). The NSG waiver has, however, allowed India to enter into civil nuclear cooperation with several countries

  16. Radiological impact of the Argentine Nuclear Programme

    International Nuclear Information System (INIS)

    Gonzalez, A.J.

    1983-01-01

    An assessment is made of the radiological impact resulting from the activities carried out so far under the Argentine Nuclear Programme, together with a prediction of the impact which could result from the future activities planned under that Programme. The average individual risks and the radiological detriment due to the various activities are determined in terms of the average individual effective dose equivalents and the collective effective dose equivalent commitments. The assessments cover exposures of occupationally exposed workers and the public. The data obtained indicate that both the risks and the resultant detriment are reasonably comparable with those derived from other similar programmes. Moreover, they clearly indicate that the radiological impact of the Programme is tending to decrease with time so that it can be assumed that the radiological impact per unit of practice will be even lower in future. (author)

  17. Educational Programme in Nuclear Security (Chinese Version)

    International Nuclear Information System (INIS)

    2012-01-01

    Higher education plays an essential role in nuclear security capacity building. It ensures the availability of experts able to provide the necessary competencies for the effective national nuclear security oversight of nuclear and other radioactive material and to establish and maintain an appropriate nuclear regime in a State. This guide provides both the theoretical knowledge and the practical skills necessary to meet the requirements described in the international framework for nuclear security. Emphasis is placed on the implementation of these requirements and recommendations in States. On the basis of this guide, each university should be able to develop its own academic programme tailored to suit the State's educational needs in the area of nuclear security and to meet national requirements.

  18. Current nuclear programmes in third world countries

    International Nuclear Information System (INIS)

    Gillespie, Anna.

    1992-01-01

    Since 1964, when China became the fifth declared nuclear weapons state NWS (joining the US, Soviet Union, Britain and France), no other state has openly declared a nuclear capacity. But four states - Israel, South Africa, India and Pakistan - are now believed to have such a capacity. This chapter will briefly document the nuclear weapons programmes of these four 'threshold' countries which possess the industrial infrastructure to enable them to produce nuclear weapons' but assiduously refrain from publicly expressing any interest in acquiring such weapons. The chapter will go on to discuss those states which are not on the threshold but which are attempting to become nuclear-capable through building the necessary technology or acquiring it on the international market. The political motivation for these countries to 'go nuclear', and the assistance they have received in this endeavour from the NWSs themselves, will also be discussed. (author)

  19. Pakistan's Nuclear programme for peaceful purposes

    International Nuclear Information System (INIS)

    Hilali, A.Z.

    1994-01-01

    Pakistan's nuclear programme is peaceful purposes and as the foregoing analysis shows, it is essential for its economic development. Nuclear power provides affordable energy for development of Pakistan economy and for meeting the minimum requirements of the people. Growing conventional energy requirements reflect Pakistan's expanding industrial demand for energy intensive appliances. Prospects for developing domestic sources of oil, natural gas, coal and hydro power are limited and the search for natural resources is slow due to lack of foreign aid and capital. Nuclear technology is an immensely powerful factor in the achievement of socio-economic development and elimination of poverty. (Orig./A.B.)

  20. The Czechoslovak Legions in World War I

    Science.gov (United States)

    2012-05-04

    did not allow defeat of Bolshevism in 1918 - 1920. The performance of Legionaries supported political goals and contributed to Entente’s victory in WWI...practically no contact with their families until October 1918 when the independent Czechoslovakia was declared. The “Sokol” (Falcon) movement...organize Czechoslovak troops in France. New volunteers and whole units already established began to report to Czechoslovak units from Romania and Russia

  1. Development of domestic capabilities for the Indian nuclear programme

    International Nuclear Information System (INIS)

    Kakodkar, A.; Sinha, R.K.; Chetal, S.C.; Bhoje, S.B.

    2000-01-01

    India, has an extensive programme for nuclear power that is self reliant to achieve long term energy security. This paper describes the Indian experience in structuring and implementing the national nuclear programme turned to its natural resources. (author)

  2. The European programme for controlled nuclear fusion

    International Nuclear Information System (INIS)

    This illustrated document is intended for information only and should not be used as a technical reference. The nuclear fusion reactors are presented with the two approaches: magnetic confinement and inertial confinement; are described: the place of fusion in the world energy scene and its importance for Europe, how research is at present organized, and the European programme with this next stage: the JET (Joint European Torus), the largest tokamak machine in Europe

  3. Training in radiological protection for nuclear programmes

    International Nuclear Information System (INIS)

    1975-01-01

    Many Member States are developing or already have developed their own national training programmes. The IAEA is actively involved in promoting training in radiological protection for nuclear programmes. The various types of training are fully discussed, with suggested curricula. An earlier report was published as Technical Reports Series No.31 in 1964. In 1973, new and additional information was received from Member States which is reflected in the present report. Training programmes are classified, according to those requiring training: specialists; persons whose work is closely related to radiological protection (administrators, public health officers and industrial health personnel, safety inspectors and engineers in nuclear installations, public service personnel); persons working with radiation; and the general public. Forms, scope and duration of training are discussed. Different types of training programmes are currently required for training of medical doctors (those providing medical surveillance for radiation workers and others dealing with public health aspects of radiation hazards), for technical supervisors, radiologists, and qualified workers in nuclear medicine, technological staff, administrators, persons working with radiation, and public service personnel. Standard curricula and desirable experiments and exercises are discussed. The organization of training together with the facilities, equipment and teaching staff required are considered, as is follow-up training. Annexes 1 to 4 give examples of training curricula and training courses available in various countries, a suggested syllabus for training of technical supervisors, and a bibliography consisting of 210 references dealing with general topics, nuclear radiation physics, radiochemistry and radiation chemistry, radiation biology and biophysics, dosimetry and health physics and radiation protection, medical aspects and toxicology, and environmental aspects

  4. The UK nuclear programme: The Sizewell experience

    International Nuclear Information System (INIS)

    Salter, W.B.

    1990-01-01

    The current status of the Sizewell 'B' PWR programme and the effect on it of the proposed privatisation of U.K electricity generation is reviewed. Departures from and additions to the Standard Nuclear Unit Power Plant System (SNUPPS) reference plant design are given. These include Reactor Coolant System overpressure protection and the addition of an Emergency Charging System and an Emergency Boration System. Improvements in monitoring Reactor Coolant System water level during refuelling and maintenance shutdown operations are presented. (author)

  5. Collective dose commitments from nuclear power programmes

    International Nuclear Information System (INIS)

    Beninson, D.

    1977-01-01

    The concepts of collective dose and collective dose commitment are discussed, particularly regarding their use to compare the relative importance of the exposure from several radiation sources and to predict future annual doses from a continuing practice. The collective dose commitment contributions from occupational exposure and population exposure due to the different components of the nuclear power fuel cycle are evaluated. A special discussion is devoted to exposures delivered over a very long time by released radionuclides of long half-lives and to the use of the incomplete collective dose commitment. The maximum future annual ''per caput'' doses from present and projected nuclear power programmes are estimated

  6. Productivity studies of the nuclear waste programme

    International Nuclear Information System (INIS)

    Lundberg, Haakan

    2002-08-01

    The Swedish Nuclear Inspectorate reviews and supplements the SKB proposal for cost estimations for the nuclear waste programme. These estimations are of great importance for the determination of annual fees to the Nuclear Waste Fund and guarantee amounts in accordance with the Financing Act. The majority of the Nuclear Waste Fund's assets are invested in real interest bonds, issued by the Swedish state. The average duration for the Nuclear Waste Fund investments was 12.8 years at the end of December 2001. From July 1, 2002 on the Nuclear waste Fund investments will consist of nominal and real bonds on the official market. The Fund is increased in line with the Consumer Price Index (KPI). If real costs within the nuclear waste programme increase at a faster rate than the KPI, there is a risk that the Nuclear Waste Fund will be 'under balanced'. SKI has developed a weighted index, the KBS-3-index, to compare the SKB cost re-estimate with. Productivity changes have however no impact on these indices. The KBS-3-index indicates that there might be a risk that the de facto, cost increases will exceed KPI. An improved productivity might however balance the cost escalations. Productivity is normally defined as production divided by the input of production factors. The production can be a quantity measurement or the value added. A common approach is calculation of the labour productivity. The productivity development within different industries in Sweden and in EU varies, and is not only positive. The so called DEA method is used for productivity and efficiency measurements in public and private operations. Efficiency evaluations based on known norms are not made with the DEA models. Instead the evaluation is performed in relation to an empirically based reference technology, a relative efficiency. A selection or an optimisation of output is difficult for the nuclear waste programme. It is not possible to change parts of the nuclear waste programme to something else

  7. The ninth conference of Czechoslovak physicists. Part 1, 2

    International Nuclear Information System (INIS)

    Kosek, F.; Cimpl, Z.; Pantoflicek, J.

    1987-01-01

    The two volume proceedings contain papers and posters presented at the symposium. A total of 21 papers have been incorporated in INIS. The subject areas of the papers included: problems of the neutrino physics, new ideas of space-time and particles, the Czechoslovak project of the source of synchronous radiation, thermonuclear reaction, the study of amorphous substances using the EXAFS (Extended X-ray Absorption Fine Structure) method, electron structure and the magnetism of 5f systems, hyperfine interaction in substituted YIG's (Yttrium Iron Garnets), Moessbauer spectroscopy of amorphous substances, superliquid phase of 3 He, results attained in subnuclear and nuclear physics. (J.P.)

  8. Inr training programme in nuclear research

    International Nuclear Information System (INIS)

    Cretu, I.; Ionila, M.; Gyongyosi, E.; Dragan, E.; Petra, M.

    2013-01-01

    The field of scientific research goes through rapid changes to which organizations must dinamically and efficiently adapt, which leads to the need to develop a continuous learning process that should be the basis for a long-term operational performance. Thus, human resource management systems and continuous learning should be perfectly correlated/alligned with the organizational strategy and knowledge. The research institutes through the nature of their activity are constantly undergoing a transformation process by exploring new research areas which presumes ensuring competent human resources who have to continuously learn and improve. The «learning organization » concept represents a metaphor rooted in the search of a strategy for promoting the personal development of the individual within an organization through a continuous transformation. Learning is associated with the idea of continuous transformation based on the individual and organizational development. Within « learning organizations » the human development strategy occupies a central role in management strategies. It was learned that organizations which perform excellently depend on the employees committment, especially in the budget constraints environment. For this, the human resources have to be used at maximum capacity but this is possible only with an increased committment of the employee towards the organization. The purpose of this paper is to present the basic training programme for the new employees which is part of the training strategy which carry out activities in the nuclear field of SCN Pitesti. With the majority of the research personnel aged between 45 and 60 years old there is the risk of loosing the knowledge gained in this domain. The expertise gained by experienced experts in the institute nationally and internationally can be exploited through the knowledge transfer to the new employees by organizing training programmes. The knowledge transfer between generations is one of the

  9. Planning and developing the French nuclear programme

    International Nuclear Information System (INIS)

    Carle, R.

    1983-01-01

    Since France has been compelled to free itself from the domination of oil, it has undertaken a nuclear programme capable of providing for nearly one third of its energy needs by 1990. Some years after the first oil crisis, a good part of the battle has already been won: 22 reactor units of 900 MW each have been connected to the grid and account for 40% of the electricity produced in France, while 12 other 900 MW units, together with the first 1300 MW units, are under construction. Nuclear power has thus become an industrial reality possessed of the tools appropriate for the whole fuel cycle, which has managed to cope with costs and meet deadlines, and has developed a safe and reliable product. With these positive results despite inevitable incidents the French nuclear industry has come of age. There are, however, handicaps which remain to be overcome: high investment costs, operating constraints and continuing doubt on the part of the public. The efforts deployed in these three spheres are beginning to bear fruit. As a result, implementation of the French nuclear programme is being continued, albeit at a slower rate, for the aim is no longer to replace oil by nuclear power as soon as possible, but rather to keep up with the rise in consumption. In pursuing its nuclear efforts, France will henceforth be stressing progress in terms of quality, which can still be achieved in terms of increased reliability (incorporation of feedback), better economic return (initiation of a new series known as ''N4''), easier operation (improvement of the man-machine interface) and also more independence. The ''frenchification'' of the light-water reactor has from the beginning been seen as one of the means of achieving this independence. This also applies to mastery of the whole fuel cycle. And finally, fast breeders represent the next stage

  10. Civil engineering firms and the nuclear programme

    International Nuclear Information System (INIS)

    Giral, J.L.

    1988-01-01

    Pointing out that the realization of the electronuclear programme accounted for just under 5 % of the annual turnover of civil engineering firms from 1975 to 1987, the author lists the main types of work entrusted to these firms for the bulding of the power stations: electrical work, structural work (civil engineering, metal structures. He then describes the two main problems which the profession has to face in the nuclear field: the management of final contract stages and adaptation to the slowing down in the rate of commitment of power plants [fr

  11. The Nordic programme for nuclear safety 1990-1993

    International Nuclear Information System (INIS)

    Soerensen, H.C.

    1992-03-01

    The supplement contains a name-and-address list relevant to the Nordic Nuclear Safety Programme 1990-1993 and covering consortiums, reference groups, programme coordinators, project leaders and project participants. (AB)

  12. The Nordic programme for nuclear safety 1990-1993

    International Nuclear Information System (INIS)

    Soerensen, H.C.

    1993-04-01

    The supplement contains a name-and-address list relevant to the Nordic Nuclear Safety Programme 1990-1993 and covering consortiums, reference groups, programme coordinators, project leaders and project participants. (AB)

  13. Graduate nuclear engineering programmes motivate educational and research activities

    International Nuclear Information System (INIS)

    Mavko, B.

    2000-01-01

    Some fifteen years ago the University of Ljubljana, Faculty for Mathematics and Physics together with the national research organisation the J. Stefan jointly established a Graduate programme of Nuclear Engineering. From the onset, the programme focused on nuclear technology, nuclear safety, and reactor physics and environment protection. Over the years this graduate programme has became the focal point of nuclear related, research and educational activities in Slovenia. It has grown into a meeting ground for recognised national and distinguished foreign educators and experienced professionals from the industry. In conjunction with an important national project, supported by the Slovenian government, entitled 'Jung Researcher' it also enhances the knowledge transfer to the next generation. Since the programme was introduced, the interest for this programme has been steadily growing. Accordingly, a number of PhD and MS degrees in NE have been awarded. The graduates of this programme have encountered very good job opportunities in nuclear as well as in non-nuclear sector. (author)

  14. Power programmes review: Nuclear power in Italy

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1959-07-15

    Several concrete measures have been initiated in Italy for the generation of nuclear power on a substantial scale. Two plants are already under construction and work will start soon on a third. Plans have also been announced for more stations. If the work already initiated is completed on schedule the installed capacity of nuclear power in Italy is likely to exceed 500 mw (electric) in the course of the next four years. This will constitute a sizeable proportion of the total electrical capacity in the country. After the Italian National Committee for Nuclear Research (Comitato Nazionale per le Ricerche Nucleari) was reorganized late in 1956, it prepared what can be described as a nuclear five-year plan for Italy. The plan, designed to cover the period 1957-1962, includes detailed schemes for a comprehensive development of the peaceful uses of nuclear energy, including a programme for the generation of power. The Comitato Nazionale per le Ricerche Nucleari (CNRN) promotes and co-ordinates the various activities in the field, and within the framework of its general programme certain industrial groups in Italy have formulated specific projects for nuclear power. At a Geneva conference (1958) it was disclosed that several companies were planning to build nuclear power stations in Italy. (1) SELNI (Societa Elettronucleare Italiana), pertaining to the Edison-Volta group, which plans to build a pressurized water reactor. (2) So.R.I.N. (Societa Ricerche Impianti Nucleari), a company founded by the Fiat and Montecatini groups, which is constructing a research centre, with a swimming pool reactor, and various laboratories for chemistry, physics and metallurgy. This centre will also be used for the training of specialized personnel, in view of the company's programme which envisages two 150 mw (e) plants: one operating with enriched uranium, the other with natural uranium. Such a programme will become effective only when the cost of power produced by these plants may actually

  15. Development of human resources for Indian nuclear power programme

    International Nuclear Information System (INIS)

    Grover, R.B.; Puri, R.R.

    2013-01-01

    The continuing research and development on nuclear technology by research establishments in the country and maturing of Indian industry have brought the nuclear energy programme in India to a stage where it is poised to take a quantum leap forward. The vision of expansion of nuclear power also requires a well-structured specialized human resource development programme. This paper discusses the requirements of the human resource development programme for nuclear energy, the challenges in the way of its realization, its national and international status and traces the history of nuclear education in the country. It brings out the linkage of human resource development programme with the nuclear energy programme in the country. It also describes the initiatives by the university system in the area of nuclear education and support provided by the Department of Atomic Energy to the university system by way of extra-mural funding and by providing access to research facilities. (author)

  16. France's nuclear power programme; Le programme nucleaire francais

    Energy Technology Data Exchange (ETDEWEB)

    Cabanius, J [Electricite de France (EDF), 75 - Paris (France); Horowitz, J [Commissariat a l' Energie Atomique, Saclay (France). Centre d' Etudes Nucleaires

    1964-07-01

    The prospects of development of France's consumption of electricity will widen the deficit of her national energy resources. Nuclear power stations should enable this deficit to be reduced, provided a certain number of uncertainties prevailing today are resolved. The first programme, put forward by Messrs. AILLERET and TARANGER at the 1955 Geneva Conference aimed at commissioning 850 MWe by 1965; the programme was devoted to developing the natural uranium graphite-gas sequence and reaches its completion with the construction of EDF 3, the world's first unit capable of 500 MWe. Before changing over from the prototype stage to their duplication, Electricite De France decided, in agreement with the Commissariat A L'energie Atomique to build EDF 4, which, while reproducing EDF 3's reactor, together with the referring equipment, the entire control equipment and various other systems, pioneers an important innovation by incorporating the heat exchangers and fans inside the prestressed concrete pressure vessel housing the core. At the same time, studies are being carried on on the same type of reactor enabling possible use of a new annular-shaped fuel element, whose use would considerably improve the performance of EDF 5, to be envisaged. On the heavy water side, the construction of EL 4 at Brennilis jointly by the Commissariat A L'energie Atomique and Electricite De France is continuing. Design work on a 500 MWe reactor of this type has already started. As regards pressurized water reactors, the Chooz power station is built jointly by Electricite De France and Belgian Utilities. Finally, the Commissariat A L'energie Atomique is continuing the construction of the 'Rapsodie' rapid neutron reactor at Cadarache, together with studies on a larger power reactor. It may thus be seen that the technical and economic knowledge gained on these various types of reactor mean that an equipment program may be contemplated which will endow nuclear power stations with a place of ever

  17. Contributions of the Nuclear Research Institute to the French-Czechoslovak seminar on the management of radioactive wastes held on 12-14 May, 1987

    International Nuclear Information System (INIS)

    1987-01-01

    Paper were submitted on the use of calcination in liquid radioactive waste solidification; experience with the operation of mobile lines of the MESA type which are tested at nuclear power plants; the treatment of low level liquid wastes from special laundries. Other papers described experience with the operation of the facility for processing low and intermediate level wastes run by UJV (Nuclear Research Institute) since 1962, and the conditions for a radioactive waste burial site in Czechoslovakia. (E.S.). 3 tabs

  18. Quality assurance programme for the LVR-15 nuclear research reactor

    International Nuclear Information System (INIS)

    1995-03-01

    The document specifies all aspects of the quality assurance programme for the LVR-15 nuclear research reactor. The programme addresses the organization and responsibilities, basic quality assurance activities, and identification of management, planning, and working documents necessary to implement the programme. (P.A.)

  19. The mission of the central commission of the Czechoslovak Academy of Agriculture for use of energy resources and nuclear methods in agriculture

    International Nuclear Information System (INIS)

    Horacek, P.

    1979-01-01

    The possibility is discussed of using waste heat of nuclear power plants for the intensification of agricultural production. In France, protected agricultural areas are heated with warm water circulating in a polyethylene perforated blanket. Experiments with subirrigation using warm water or with heating using water circulating in subsurface piping yield good results. Heating water for fish husbandry appears prospective and a research project in this field is suggested. (H.S.)

  20. South Africa's nuclear hydrogen production development programme

    International Nuclear Information System (INIS)

    Van Ravenswaay, J.P.; Van Niekerk, F.; Kriek, R.J.; Blom, E.; Krieg, H.M.; Van Niekerk, W.M.K.; Van der Merwe, F.; Vosloo, H.C.M.

    2010-01-01

    In May 2007 the South African Cabinet approved a National Hydrogen and Fuel Cell Technologies R and D and Innovation Strategy. The strategy will focus on research, development and innovation for: i) wealth creation through high value-added manufacturing and developing platinum group metals catalysis; ii) building on the existing knowledge in high temperature gas-cooled reactors (HTGR) and coal gasification Fischer-Tropsch technology, to develop local cost-competitive hydrogen production solutions; iii) to promote equity and inclusion in the economic benefits from South Africa's natural resource base. As part of the roll-out strategy, the South African Department of Science and Technology (DST) created three Competence Centres (CC), including a Hydrogen Infrastructure Competence Centre hosted by the North-West University (NWU) and the Council for Scientific and Industrial Research (CSIR). The Hydrogen Infrastructure CC is tasked with developing hydrogen production, storage, distribution as well as codes and standards programmes within the framework of the DST strategic objectives to ensure strategic national innovation over the next fifteen years. One of the focus areas of the Hydrogen Infrastructure CC will be on large scale CO 2 free hydrogen production through thermochemical water-splitting using nuclear heat from a suitable heat source such as a HTGR and the subsequent use of the hydrogen in applications such as the coal-to-liquid process and the steel industry. This paper will report on the status of the programme for thermochemical water-splitting as well as the associated projects for component and technology development envisaged in the Hydrogen Infrastructure CC. The paper will further elaborate on current and future collaboration opportunities as well as expected outputs and deliverables. (authors)

  1. Assessment of nuclear power sources in Czechoslovakia with respect to radiation protection limits

    International Nuclear Information System (INIS)

    Melichar, Z.

    1985-01-01

    The principles are presented which underlie the determination of limits of planned population exposure during normal operation of nuclear installations and of reference levels of exceptional population exposure during nuclear power plant accidents. The introduction is discussed of authorized limits and levels in Czechoslovakia the USSR, CMEA countries and Sweden. An estimate is made of the radiation burden of the population during the development of the Czechoslovak nuclear power programme. (E.S.)

  2. Finnish Research Programme on Nuclear Waste Management (KYT). Framework Programme for 2002-2005

    International Nuclear Information System (INIS)

    Rasilainen, K.

    2002-12-01

    The new Finnish research programme on nuclear waste management (KYT) will be conducted in 2002 - 2005. This framework programme describes the starting point, the basic aims and the organisation of the research programme. The starting point of the KYT programme is derived from the present state and future challenges of Finnish nuclear waste management. The research programme is funded mainly by the Ministry of Trade and Industry (KTM), the Radiation and Nuclear Safety Authority (STUK), Posiva Oy, Fortum Oyj, Teollisuuden Voima Oy (TVO), and the National Technology Agency (Tekes). As both regulators and implementors are involved, the research programme concentrates on neutral research topics that must be studied in any case. Methods and tools for experimental and theoretical studies fall in this category. State of the art -reviews on relevant topics also create national know-how. Topics that directly belong to licensing activities of nuclear waste management are excluded from the research programme. KYT carries out technical studies that increase national know-how in the area of nuclear waste management. The aim is to maintain and develop basic expertise needed in the operations derived from the national nuclear waste management plan. The studies have been divided into strategic studies and studies enhancing the long-term safety of spent nuclear fuel disposal. Strategic studies support the overall feasibility of Finnish nuclear waste management. These studies include basic options and overall safety principles related to nuclear fuel cycle and nuclear waste management. In addition, general cost estimates as well as general safety considerations related to transportations, low- and medium level wastes, and decommissioning are included in strategic studies. Studies supporting the long-term safety of spent fuel disposal include issues related to performance assessment methodology, release of radionuclides from the repository, behaviour of bedrock and groundwater

  3. Human Resources Development for Jordan’s Nuclear Energy Programme

    International Nuclear Information System (INIS)

    Malkawi, Salaheddin; Amawi, Dala’

    2014-01-01

    Jordan's HRD strategy: • Utilize Jordan’s academic infrastructure: – 25 Universities (10 public & 15 private); – 35 Community Colleges (15 public & 20 private). • Build on existing programmes and establish new ones to support Nuclear Energy Programme. • Nuclear Education in Jordan: – B. Sc. Nuclear Engineering at Jordan University of Science & Technology (JUST); – M. Sc. Nuclear Physics at University of Jordan, Yarmouk University and Al-Balqa Applied University. • Scholarships for M. Sc. and Ph. D in Nuclear Engineering and Nuclear Science from Universities outside Jordan: – United States, Russia, France, Japan, China, Korea. Utilization of JSA and JRTR; • Vendor supplied training; • Support through Nuclear Cooperation Agreements; • IAEA Technical Cooperation; • Development of a Jordan-Specific Qualification and Certification Programmes; • Specialized Training in International Codes & Standards: – Transition to JNRC Developed/Adopted Standards, Codes, Regulations

  4. JYT - Publicly financed nuclear waste management research programme

    International Nuclear Information System (INIS)

    Vuori, S.

    1993-06-01

    The nuclear waste management research in Finland is funded both by the state and the utilities (represented in cooperation by the Nuclear Waste Commission of the Finnish power companies). A coordinated research programme (JYT) comprising the publicly financed waste management studies was started in 1989 and continues until 1993. The utilities continue to carry out a parallel research programme according to their main financial and operational responsibility for nuclear waste management. The research programme covers the following main topic areas: (1) Bedrock characteristics, groundwater and repository, (2) Release and transport of radionuclides, (3) Performance and safety assessment of repositories, and (4) Waste management technology and costs

  5. JYT - Publicly financed nuclear waste management research programme

    International Nuclear Information System (INIS)

    Vuori, S.

    1992-07-01

    The nuclear waste management research in Finland is funded both by the state and the utilities (represented in cooperation by the Nuclear Waste Commission of the Finnish power companies). A coordinated research programme (JYT) comprising the publicly financed waste management studies was started in 1989 and continues until 1993. The utilities continue to carry out a parallel research programme according to their main financial and operational responsibility for nuclear waste management. The research programme covers the following main topic areas: (1) Bedrock characteristics, groundwater and repository, (2) Release and transport of radionuclides, (3) Performance and safety assessment of repositories, and (4) Waste management technology and costs

  6. JYT - Publicly financed nuclear waste management research programme

    International Nuclear Information System (INIS)

    Vuori, S.

    1991-07-01

    The nuclear waste management research in Finland is funded both by the state and the utilities (represented in cooperation by the Nuclear Waste Commission of the Finnish power companies). A coordinated research programme (JYT) comprising the publicly financed waste management studies was started in 1989 and continues until 1993. The utilities continue to carry out a parallel research programme according to their main financial and operational responsibility for nuclear waste management. The research programme covers the following main topic areas: (1) Bedrock characteristics, groundwater and repository, (2) Release and transport of radionuclides, (3) Performance and safety assessment of repositories, and (4) Waste management technology and costs

  7. Berkeley Nuclear Laboratories Reactor Physics Mk. III Experimental Programme. Description of facility and programme for 1971

    Energy Technology Data Exchange (ETDEWEB)

    Nunn, R M; Waterson, R H; Young, J D

    1971-01-15

    Reactor physics experiments have been carried out at Berkeley Nuclear Laboratories during the past few years in support of the Civil Advanced Gas-Cooled Reactors (Mk. II) the Generating Board is building. These experiments are part of an overall programme whose objective is to assess the accuracy of the calculational methods used in the design and operation of these reactors. This report provides a description of the facility for the Mk. III experimental programme and the planned programme for 1971.

  8. Power programmes review: Nuclear power for India

    International Nuclear Information System (INIS)

    1959-01-01

    India will require a substantial increase in the generation of electrical power to meet the demands of her developing economy. A survey of available resources has been made in the context of development envisaged under the country's five-year plans and it is felt that atomic energy will have to be used in increasing quantities to supplement conventional fuel resources in order to attain the anticipated power targets in the next two decades. It has, therefore, been decided that a small beginning will be made with the erection and commissioning of anatomic power station of 250 MW (electric) capacity by the end of 1964. The installation of a further 750 MW of nuclear power by the end of the third five-year plan period, i.e. by March 1966, is under consideration. Present Pattern and future demand of energy is discussed, as well as available resources and immediate needs. Concerning nuclear fuel cycle and cost estimates it is stated that India's uranium reserves are not large enough to sustain a very long-term programme of power generation, but the reserves for thorium are. Therefore India's nuclear power production will have to be based primarily on thorium with a rather complicated fuel cycles and first, second and third generation atomic power stations. The Atomic Energy Establishment Trombay is India's national centre for research in the peaceful uses of atomic energy. India's first reactor, Apsara, which is of the swimming pool type, has been in operation for more than three years now and two other research reactors are under construction. These are the Canada-India Reactor, which is being built under the Colombo Plan in collaboration with Canada, and Zerlina, which is being designed and built by Indian scientists and engineers. The Canada-India Reactor will be a versatile high flux research reactor and will have facilities in which various power reactor concepts can be tried out in the so-called loop experiments. In addition, it will produce considerable

  9. Power programmes review: Nuclear power for India

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1959-10-15

    India will require a substantial increase in the generation of electrical power to meet the demands of her developing economy. A survey of available resources has been made in the context of development envisaged under the country's five-year plans and it is felt that atomic energy will have to be used in increasing quantities to supplement conventional fuel resources in order to attain the anticipated power targets in the next two decades. It has, therefore, been decided that a small beginning will be made with the erection and commissioning of anatomic power station of 250 MW (electric) capacity by the end of 1964. The installation of a further 750 MW of nuclear power by the end of the third five-year plan period, i.e. by March 1966, is under consideration. Present Pattern and future demand of energy is discussed, as well as available resources and immediate needs. Concerning nuclear fuel cycle and cost estimates it is stated that India's uranium reserves are not large enough to sustain a very long-term programme of power generation, but the reserves for thorium are. Therefore India's nuclear power production will have to be based primarily on thorium with a rather complicated fuel cycles and first, second and third generation atomic power stations. The Atomic Energy Establishment Trombay is India's national centre for research in the peaceful uses of atomic energy. India's first reactor, Apsara, which is of the swimming pool type, has been in operation for more than three years now and two other research reactors are under construction. These are the Canada-India Reactor, which is being built under the Colombo Plan in collaboration with Canada, and Zerlina, which is being designed and built by Indian scientists and engineers. The Canada-India Reactor will be a versatile high flux research reactor and will have facilities in which various power reactor concepts can be tried out in the so-called loop experiments. In addition, it will produce considerable

  10. The Czechoslovak-Polish Club in Brno (1925–1939)

    Czech Academy of Sciences Publication Activity Database

    Baron, Roman

    2011-01-01

    Roč. 3, č. 1 (2011), s. 43-64 ISSN 1803-6546 Institutional research plan: CEZ:AV0Z80150510 Keywords : Czechoslovak-Polish solidarity * Czechoslovak-Polish relations * Brno * associations * Interwar Period Subject RIV: AB - History

  11. IAEA programme on nuclear fuel cycle and materials technologies

    International Nuclear Information System (INIS)

    Killeen, J.

    2006-01-01

    In this paper a brief description and the main objectives of IAEA Programme B on Nuclear fuel cycle are given. The coordinated research project on Improvement of Models Used For Fuel Behaviour Simulation (FUMEX II) is also presented

  12. A new nuclear safety programme for areas adjacent to Finland

    International Nuclear Information System (INIS)

    Varjoranta, T.

    1997-01-01

    The projects aimed at improving nuclear and radiation safety in areas adjacent to Finland have been compiled into one programme. The purpose of the programme is to promote activities that minimise accident risks at nuclear power plants and that improve preparedness for situations involving a risk. Nuclear materials are also to be kept under strict control. In the last few years, nuclear and radiation safety has clearly improved in areas adjacent to Finland. But work is still needed to reduce the remaining risks. The Finnish support programme comprises two very definite functions. On one hand, the programme acts as a catalyst for projects launched by the Russians themselves or by the Western partners together, and strives to pave the way for international financing projects. On the other hand, assistance is given as direct support for certain hand-picked projects. (orig.)

  13. IAEA education and training programme in nuclear safety

    International Nuclear Information System (INIS)

    Bastos, J.L.F.; Lederman, L.

    2003-01-01

    This paper presents the IAEA education and training (E and T) programme in nuclear safety. A strategic planning for the programme implementation is described in terms of objectives, outputs and activities. A framework based on areas of competency and the level of depth of the training is presented as well as the main achievements to date. (author)

  14. Communications programme for the RA nuclear reactor decommission

    International Nuclear Information System (INIS)

    Milanovic, S.; Antic, D.

    2002-01-01

    During the decommissioning of the RA research nuclear reactor at the VINCA Institute of Nuclear Sciences, an adequate number of radiation and contamination surveys should be conduced to assure radiological safety of the workers, the public and the environment. Public would like to know more about the nuclear and radiological safety. The communications programme defines the ways to informing the public, its representatives and the information media about the health and safety aspects of the activities during the RA nuclear reactor decommission. (author)

  15. Promotion and financing of nuclear power programmes in developing countries

    International Nuclear Information System (INIS)

    1987-01-01

    The Director General of the International Atomic Energy Agency established in February 1986 a Senior Expert Group (SEG) on Mechanisms to Assist Developing Countries in the Promotion and Financing of Nuclear Power Programmes, which was asked: (a) To identify and analyse the problems of and constraints on nuclear power introduction/expansion in developing countries, with particular attention being paid to the problems of financing nuclear power projects; (b) To study mechanisms for dealing with the identified problems and constraints in order to assist developing countries with the promotion and financing of their nuclear power programmes, and to determine the role of the IAEA in this context. This report summarizes the Senior Expert Group's study. It also presents a number of recommendations on mechanisms to assist developing countries in promoting and financing their nuclear power programmes. 1 fig., 3 tabs

  16. International Nuclear Management Academy Requirements for University Master’s Programmes in Nuclear Technology Management

    International Nuclear Information System (INIS)

    Grosbois, J. de; Hirose, H.; Adachi, F.; Liu, L.; Hanamitsu, K.; Kosilov, A.; Roberts, J.

    2016-01-01

    Full text: The development of any national nuclear energy programme is dependent on the successful development of qualified human resources, through a sustainable nuclear education and training programmes supported by government and industry. Among the broad range of specialists needed for the continued safe and economic utilization of nuclear technology for peaceful purposes, are a most vital component—managers. The International Nuclear Management Academy (INMA) is an IAEA facilitated collaboration framework in which universities provide master’s degree programmes focusing on the management aspect for the nuclear sector. INMA master’s programmes in Nuclear Technology Management (NTM) specify a common set of competency requirements that graduates should acquire to prepare them to become competent managers. This paper presents an overview of the INMA collaboration framework and the requirements for partner universities to implement master’s programmes in Nuclear Technology Management. (author

  17. Progress of China's nuclear power programme

    International Nuclear Information System (INIS)

    Cai Jianping

    1997-01-01

    From a long-term point of view, nuclear power is the only solution for the shortage of energy resource. Nuclear power development strategy has been specified in China according to national condition: The electricity development of nuclear power optimizes the national energy structure and ensure the power supply, particularly in east China. China's first self-designed and self-constructed nuclear power plant--Qinshan Nuclear Power Plant (300MWe PWR) is now well under commercial operation. China is willing to cooperate with IAEA, other countries and regions in the field of nuclear energy for peaceful use on basis of mutual benefit. (author)

  18. Responsibilities and capabilities of a nuclear energy programme implementing organization

    International Nuclear Information System (INIS)

    2009-01-01

    An appropriate infrastructure is essential for the efficient, safe, reliable and peaceful use of nuclear power. The IAEA was encouraged by its Member States to provide assistance to those considering the introduction of nuclear power. These countries face the challenge of building a national nuclear infrastructure to support a first nuclear power plant. The IAEA is responding to their needs through increased technical assistance, missions and workshops, and with new and updated technical publications in the IAEA Nuclear Energy Series. Milestones in the Development of a National Infrastructure for Nuclear Power, an IAEA Nuclear Energy Series publication (NG-G-3.1), provides detailed guidance on a holistic approach to national nuclear infrastructure development, over three phases. Nineteen issues are identified in this guide, ranging from development of a government's national position on nuclear power to planning for procurement related to the first NPP. An important element of the holistic approach is an entity that can help prepare the decision makers in a country to make a knowledgeable commitment to nuclear power, and then to coordinate infrastructure development efforts among various implementing organizations so that they arrive at the point of readiness to issue a bid tender at the same time. In the Milestones guide, this entity is called a nuclear energy programme implementing organization (NEPIO). As a growing number of Member States started to consider the nuclear power option, they asked for guidance from the IAEA on how to launch a nuclear power programme. In particular, Member States requested additional information on how to establish a NEPIO, especially in the earliest phases of a programme. This report has been prepared to provide information on the responsibilities and capabilities of a NEPIO, as well as to give an indication on how it relates to other key national organizations in the implementation of a nuclear power programme, such as the owner

  19. Nuclear Knowledge Management Programmes for Young Generations

    International Nuclear Information System (INIS)

    De Grosbois, John

    2017-01-01

    The Future of Nuclear Energy: Today’s Challenges - •Climate change •Investment in renewables •Societal acceptance of nuclear energy •Nuclear R&D declining •Aging reactor fleets •Phase-outs •Pace of new builds •Future uncertainties. Future Opportunities - •Shift to smart energy grids •Carbon tax and “cap and trade” systems •Possible need for new nuclear energy solutions: –high temperature reactors –hybrids → steam reforming –smaller plants needed –minimized nuclear waste –inherently safe designs. Supporting TC’s “Strategic Capacity Building Approach” (SCBA) by Strengthening Sustainable National Nuclear Education Systems: Knowledge sharing & eLearning platforms (e.g. CLP4NET) and supporting tools → Regional Nuclear Education Networks; → National Nuclear Education Networks; → Stakeholder Networking for Human Resource and Knowledge Development

  20. The Indian nuclear power programme: Challenges in PHWR technology

    International Nuclear Information System (INIS)

    Prasad, Y.S.R.

    1997-01-01

    The long-term strategy for development of nuclear power generation in India is based on a three-stage programme, formulated by Dr. H.J. Bhabha. This strategy takes into account and is optimally suited for achieving self reliance in nuclear technology; India's technological infrastructure; limited resources of Natural Uranium and abundant availability of Thorium within the country

  1. The Nordic programme for nuclear safety 1990-1993

    International Nuclear Information System (INIS)

    1992-02-01

    The report, covering the year 1991 of the Nordic Programme for Nuclear Safety 1990-1993, presents 18 projects divided into 4 main areas: preparedness in abnormal radiation situations, nuclear wastes and shutdowns, radioecology and reactor safety - knowledge preparedness. The main areas are briefly described and the status of each project is presented. (CLS) (118 refs.)

  2. The French nuclear power programme and energy policy in France

    International Nuclear Information System (INIS)

    Carle, R.

    1988-01-01

    After briefly describing the Chernobyl reactor accident and its consequences in Western Europe, especially its psychological effects, the French nuclear energy programme is presented in detail. The role of standardization and education as well as of construction time and cost is pointed out. Moreover, the results of the programme are given including extension of the capable French nuclear power industry, economical and ecological benefits. Future measures such as increase of the flexibility of nuclear power plants, improved fuel management, reduction of personnel radiation doses and employment of advanced reactors (the reactor system N4) will facilitate French efforts to free the country from mineral oil and coal imports. (author)

  3. The Nordic programme for nuclear safety 1990-1993

    International Nuclear Information System (INIS)

    1994-01-01

    The annual report on the Nordic programme for nuclear safety contains a survey of work carried out during 1993 and also the programme's budgets. Information is given on the names of project leaders, the projects' aims, methods, results and documentation. Subjects of research during 1993 have been preparedness in relation to extraordinary radiation situations, nuclear wastes and deposition of same, radioecology and reactor safety. Names of members of Nordic Nuclear Safety Research who are members of the syndicate and reference groups of the organization are listed and a note on the administration is included. (AB)

  4. Contribution to the current discussions on the future orientation of Czechoslovak power industry with respect to environmental impacts

    International Nuclear Information System (INIS)

    Horacek, P.; Kadlec, J.; Milackova, H.; Slechta, V.

    1990-01-01

    The usefulness of the Czechoslovak nuclear programme is discussed. Data of the presumed sulfur content of fuel used in selected power stations were used to calculate the specific SO 2 emissions and the increase in specific production cost arising from the introduction of desulfurization equipment in these plants. The specific costs for generating 1 kW-h and for trapping 1 ton of SO 2 are compared for the desulfurization methods which are feasible in Czechoslovakia. The dry additive desulfurization process is the most advantageous with respect to the increased specific cost of electricity generation but least effective with respect to the cost of trapping 1 ton of SO 2 . The specific emissions are compared for the electricity generation from brown coal and from natural gas. The total specific costs for the electricity generation in coal-fired power plants equipped with a desulfurizing facility are presented and shown to highly exceed the specific electricity generating costs at nuclear power plants. (author). 3 figs., 4 tabs., 16 refs

  5. Some highlights of the Daresbury nuclear structure programme

    International Nuclear Information System (INIS)

    Gelletly, W.

    1984-01-01

    The paper concerns the nuclear structure programme at the Daresbury laboratory, United Kingdom. A description is given of the Nuclear Structure Facility (NSF), along with its principal properties and design features. Some of the latest equipment used at the NSF is discussed, including the isotope separator, recoil separator, magnetic spectrometer and gamma-ray detectors. Uses of this equipment at the NSF to study the nuclear properties at high angular momentum and nuclei far from stability, are also described. (U.K.)

  6. Nigeria nuclear power generation programme: Suggested way forward

    International Nuclear Information System (INIS)

    Adesanmi, C.A.

    2007-01-01

    It has now been established worldwide that nuclear power generation is needed to meet growing energy demands. The gases emitted from fossil fuel have serious adverse effects on the environment. The message from the 50th Annual General Conference of the International Atomic Energy Agency (IAEA) held in Vienna, September 2006 was very clear on this issue. There was a unanimous support for more nuclear power generation to meet the world energy demand. All the member states that can afford the nuclear power technology and willing to abide by the international regulations and safeguards were encouraged to do so. The requirements to participate in the nuclear power generation programme are political will and organized diplomacy, legislative and statutory framework, international safety obligations, institutional framework, public acceptability, capacity building and technology transfer, environmental concern , waste management and financing. Nigeria's performance on all the criteria was evaluated and found satisfactory. All these coupled with Nigeria's dire need for more power and better energy mix, are sufficient and undisputable reasons for the whole world to support Nigeria nuclear power generation programme. Definitely the programme poses serious challenges to the Nigerian Physicists. Therefore, Departments of Physics should endeavour to include nuclear physics option in their programme and work in collaboration with the faculty of Engineering in their various tertiary institutions in order to attain the necessary critical human capacity that will be needed to man the nuclear power industry within the next 10 years

  7. Nuclear waste management programme 2003 for the Loviisa and Olkiluoto nuclear power plants

    International Nuclear Information System (INIS)

    2002-09-01

    A joint company Posiva Oy founded by nuclear energy producing Teollisuuden Voima Oy (TVO) and Fortum Power and Heat Oy coordinates the research work of the companies on nuclear waste management in Finland. In Posiva's Nuclear Waste Management Programme 2003, an account of the nuclear waste management measures of TVO and Fortum is given as required by the sections 74 and 75 of the Finnish Nuclear Energy Degree. At first, nuclear waste management situation and the programme of activities are reported. The nuclear waste management research for the year 2003 and more generally for the years 2003-2007 is presented

  8. Public sector's research programme on nuclear waste management

    International Nuclear Information System (INIS)

    Vuori, S.

    2000-06-01

    According to the Finnish nuclear energy legislation, each producer of nuclear waste is responsible for the safe handling, management and disposal of the waste as well as for the arising costs. Authorities supervise and control the implementation of the national waste management programme and set the necessary safety and other requirements. In these tasks the authorities are supported by a research programme on nuclear waste management that is independent of the implementing organisations and power companies. The main objective of the research programme has been to provide the authorities with information and research results relevant for the safety of nuclear waste management. The main emphasis in this research programme has been devoted to the final disposal of spent fuel. The whole area of the research programme has been subdivided into the following main topic areas: (1) Behaviour of bedrock (2) Geohydrology and geochemistry, (3) Release of radionuclides from repository and subsequent transport in bedrock, (4) Engineered safety barriers of the repository, system, (5) Performance and safety assessment of spent fuel disposal facilities, (6) Waste management technology and costs (7) Evaluation of the contents and scope of and observation of the realisation of the environmental impact assessment procedure for the siting of spent nuclear fuel disposal facility, and research on other societal and sociopolitical issues, and (8) Public information, attitude, and image issues for waste management facilities. The research programme has generated considerably increased information on the behaviour of the natural and technical release barriers of the disposal system and thereby contributed to building of confidence on the long-term safety of geological disposal of spent fuel. Furthermore, increased confidence among the public in the affected candidate municipalities has probably been achieved by the complementary studies conducted within the research programme on topics

  9. The role of nuclear research centers for the introduction of a nuclear power programme

    International Nuclear Information System (INIS)

    Perovic, B.; Frlec, B.; Kundic, V.

    1977-01-01

    Full development of nuclear energy has imposed a new role on nuclear energy centers. Nuclear technology for different reactor concepts is also now in a phase of high development. Several reactor concepts have been developed for industrial use and electric power production. Development of fast reactors is still under way and needs further research efforts. Having in mind these two main guidelines, research programmes in nuclear energy centers should be geared to the development of the activities vital to the implementation of national nuclear energy programmes. In this respect, national nuclear centers should devote their attention to three major tasks. First, to establish a background for the introduction of nuclear energy into the national energy system and to support a national safety system. Second, to support the national programme by skilled manpower, to provide the basic training in nuclear technology for future staff of nuclear power stations and to assist the universities in establishing the necessary educational programme in nuclear energy. Third, to follow the development of nuclear energy technology for the fast breeder reactor concepts. This paper describes some experience in introducing a new programme to the national nuclear energy centers in Yugoslavia. Recently, Yugoslavia has started building its first nuclear power station. Further introduction of nuclear power stations in the national electric energy system is also planned. This implies the need to reconsider the current nuclear energy programme in the nuclear energy centers. It has been decided to evaluate past experience and further needs for research activities regarding the nuclear power programme. Yugoslavia has three main nuclear energy centers whose activities are devoted to the development of national manpower in the field of nuclear sciences. Besides these three organizations, there are several others whose activities are concentrated on specific tasks in nuclear technology. In the

  10. Nuclear power plant ageing management programmes in foreign countries

    International Nuclear Information System (INIS)

    Simola, K.; Laakso, K.; Pekkonen, A.

    1992-09-01

    The report describes ageing studies of nuclear power plants and research programmes on plant life extension in foreign countries. Ageing studies are aimed to ascertain that the availability and safety of components and structures can be maintained throughout the plant lifetime. In life extension programmes the purpose is to evaluate the technical and economical possibilities to extend the plant lifetime beyond the originally planned operation period, without reducing the plant safety. The main emphasis of the report is put on the ageing and life extension programmes in the United States. Besides the U.S. studies, research on plant life extension possibilities conducted in France and Japan are also described. Examples of studies performed in other nuclear energy producing countries are given. These examples are mainly related to the development of maintenance programmes and techniques

  11. Reactor physics in support of the naval nuclear propulsion programme

    International Nuclear Information System (INIS)

    Lisley, P.G.; Beeley, P.A.

    1994-01-01

    Reactor physics is a core component of all courses but in particular two postgraduate courses taught at the department in support of the naval nuclear propulsion programme. All of the courses include the following elements: lectures and problem solving exercises, laboratory work, experiments on the Jason zero power Argonaut reactor, demonstration of PWR behavior on a digital computer simulator and project work. This paper will highlight the emphasis on reactor physics in all elements of the education and training programme. (authors). 9 refs

  12. IAEA programme on nuclear fuel cycle and materials technologies

    International Nuclear Information System (INIS)

    Killeen, J.

    2008-01-01

    In this paper a brief description and the main objectives of IAEA Programme B on Nuclear fuel cycle are given. The coordinated research project on Improvement of Models Used For Fuel Behaviour Simulation (FUMEX II) as well as the changes, trends and main outputs of Sub-programme B.2 for 2006/2007 are discussed. The aim, composition and activities within the International Fuel Performance Experiments (IFPE) Database project are also presented

  13. The South African nuclear programme in a strategic perspective

    International Nuclear Information System (INIS)

    Zelinka, Martin; Sůsa, Tomáš

    2017-01-01

    The main idea behind the article is that the strategic aspects of the South African nuclear proliferation programme might be seen from a different point of view. The goal is to gain a perspective by looking into South African history, politics and international status, using these factors as the context for the nuclear programme. First, the authors define the necessary theoretical background, emphasizing the various motivations behind nuclear proliferation. The main focus of the article is on South Africa's motivation – where it came from and which factors influenced it. Among the examined aspects are: historical development and emergence of the regime, internal and external opposition (enemies), international status and the nature of the local political system. The various options South Africa had for actual usage of its nuclear weapons are also considered, The questions as to the motivation, results of nuclear proliferation (whether or not it was successful) and practical use of weapons developed are answered in the conclusion. (orig.)

  14. Technicians for the Brazilian nuclear power programme

    International Nuclear Information System (INIS)

    Martins Pinto, C.S.; Spitalnik, J.; Meakins, E.J.; Hurley, I.

    1980-01-01

    The technician has a responsible role to fulfil in nuclear industry, acting as a bridge between the engineer and the skilled worker. Technicians must have sufficient theoretical knowledge to communicate with engineers, and a thorough understanding of technological practice; the nuclear industry demands both theory and practice of a high standard. In Brazil the essential role of the technician in industry is in general recognized. However, the lack of a nationally recognized Nuclear Technician and Nuclear Technologist qualification, as well as a desire of the best technicians to quality as engineers and, in some areas, inadequate salaries has resulted in a shortage of well-trained technicians. A first step to ensure availability of these technicians is to improve their career prospects and status through definition of appropriate career standards and salaries. Practical training by the industry can only be given in factories, plants and construction sites where nuclear work is done. It is proposed to extend apprentice training centres at three sites, to give the most promising students after two years of apprentice training two further years of instruction and practice to qualify as Nuclear Technicians. The training centres are chosen to cover the three sectors of nuclear industry where special training of technicians is important: manufacture and construction; operation and maintenance; and testing and analysis for process control and safety. (author)

  15. The Nordic safety programme in the nuclear field

    International Nuclear Information System (INIS)

    Wahlstroem, B.; Marcus, F.

    1987-01-01

    Safety of nuclear installations has been a concern of all the Nordic countries, although only Finland and Sweden have selected to build nuclear power plants. It was recognized early that the resources in a single country were limited and previous Nordic cooperation in the nuclear field was therefore followed up through a safety programme which started ten years ago. This research cooperation has been intensified during the years, and today more than 70 organizations in Denmark, Finland, Norway, and Sweden participate. The present programme is the third in a row and it will continue until 1989. Human factors and operational experience are touched upon in the RAS (safety philosophy) and the INF (advanced information technology) subprogrammes. The paper gives a brief overview of the Nordic safety programme in general and the RAS and INF subprogrammes. 11 refs. (author)

  16. The American nuclear Society's educational outreach programme

    International Nuclear Information System (INIS)

    Zacha, N.J.

    1994-01-01

    The American Nuclear Society has an extensive program of public educational outreach in the area of nuclear science and technology. A teacher workshop program provides up to five days of hands-on experiments, lectures, field trips, and lesson plan development for grades 6-12 educators. Curriculum materials have been developed for students in grades kindergarten through grade 12. A textbook review effort provides reviews of existing textbooks as well as draft manuscripts and textbook proposals, to ensure that the information covered on nuclear science and technology is accurate and scientifically sound

  17. Organization and development of the Brazilian nuclear programme

    International Nuclear Information System (INIS)

    Pinto, C.S.M.; Souza, J.A.M. de; Grinberg, M.; Alves, R.N.; Costa, H.M. da; Grimberg, M.

    1977-01-01

    The paper presents the Brazilian Nuclear Energy Programme, its development, the organizations and the distribution of responsibilities involved in its execution at the present time. The nuclear power policy is established at the Presidency of the Republic and is planned, executed and controlled through the Ministry of Mines and Energy. Directly subject to the Ministry is the Brazilian Nuclear Energy Commission (CNEN), which has regulatory, standardization, licensing, planning and surveillance functions. The nuclear fundamental research and manpower formation are also under CNEN responsibility. Also subject to the Ministry are two companies responsible for the execution of the Programme: the Centrais Eletricas Brasileiras S.A. - Eletrobras, which advises on the granting of permits for the construction and operation of nuclear power plants, and the Empresas Nucleares Brasileiras S.A. - Nuclebras, which holds the monopoly of the nuclear fuel cycle in the country, designs and builds nuclear power plants and provides assistance to the electric utilities and promotes the participation of Brazilian industry. Besides describing the new distribution of regulatory functions given by law to CNEN, the paper gives special emphasis to the large industrial complex in the process of being established through the setting-up of the many Nuclebras subsidiaries in joint venture with German firms under the Industrial Co-operation Agreement Between Brazil and the Federal Republic of Germany in the Field of the Peaceful Uses of Nuclear Energy. The programmes for these subsidiaries are presented and their participation in the Brazilian Nuclear Energy Programme is discussed. The technology transfer aspects of the industrial activities are also discussed. (author)

  18. Brazilian nuclear programme - energy in Brazil

    International Nuclear Information System (INIS)

    Lima, J.O.V.

    1988-01-01

    The brazilian energetic model, highly dependent of petroleum, have been changed in the sense to adopt diversified and regionalized solutions. This paper describes the role and the perspective of the nuclear energy in this context. (M.I.)

  19. Nuclear power programmes in developing countries: Costs and financing

    International Nuclear Information System (INIS)

    Charpentier, J.P.; Bennett, L.L.

    1985-01-01

    This article refers to a seminar (organized by the IAEA) on Costs and Financing of Nuclear Power Programmes in Developing Countries held in Vienna from 9-12 September 1985. Its main objective was to promote a dialogue among the various parties involved in the domain of nuclear power financing, i.e. buyers, suppliers and financing organizations. At the meeting the Agency presented information showing that nuclear power plants are an economic means of generating electricity. In relation hereto the article deals with such topics as performance records, economic records, projected nuclear plant additions, financing constraints, current debt problems and new working relationships

  20. Pakistan's nuclear programme: a net assessment

    International Nuclear Information System (INIS)

    Tertrais, Bruno

    2012-01-01

    Pakistan may have about 100 nuclear weapons and about 200 ballistic missiles (partly for conventional use) and shows all signs of expanding its nuclear force. In the past decade, a robust set of institutions and procedures has been put into place, aimed at preventing the unauthorized use, theft or sale of nuclear weapons, materials, or technology. There is no doubt that the Pakistan military has been taking nuclear security very seriously - first and foremost because it is in its own interest - and does that in a very professional way. This analysis argues that the main risks today are not those of 'weapons falling into the wrong hands' and even less an 'Islamist takeover of the country'. They are risks of deliberate use and perhaps partial loss of control of the nuclear complex in wartime; and low-level leaks of expertise or materials, or a radiological incident in peace time. On the longer run, a weakening of State authority over the territory and a failure of governance, or of a radicalization of current policies towards the West, should not be discounted. (author)

  1. State of work on Main Task 3.1.3 of Complex Programme of Scientific and Technical Progress and precondition for ensuring Czechoslovak automatic control system instrumentation and electrical parts for new-generation power plant project

    International Nuclear Information System (INIS)

    Hrebik, V.

    1990-01-01

    A brief account is given of the state of negotiations with the Soviet partner concerning the preparation, creation and implementation of prospective automated technological equipment control systems at WWER type nuclear power plants. The organization is very clumsy in some fields and their conceptions are not clear. (Z.S.)

  2. Radiation Protection Programme in Nuclear Medicine Practice

    International Nuclear Information System (INIS)

    Alarfaj, Abd-I.M.

    2003-01-01

    This paper specifies the main elements of the radiation protection programma (RPP) that should be estabished for each practice, which involves radiation exposure. Practices of nuclear medicine have been considered as an example, since among the 245 installations which are conducting different practices with radiation sources in the Kingdom of Saudi Arabia, there are 78 installations dealing with nuclear medicine practices. Reviewing the RPP in these nuclear medicine installations, it may be easily concluded that the RPPs for the majority of these installations do not respond to the requirements of the regulatory body of the Kingdom, which is King Abdulaziz City for Science and Technology (KACST). This may be attributed to a set of different reasons, such as shortage in understanding the main elements of the RPP as well as in applying methodologies

  3. Global mainpower requirements for projected nuclear programmes

    International Nuclear Information System (INIS)

    Hammond, S.B.; Lane, J.A.; Rogov, A.; Skjoeldebrand, R.

    1976-01-01

    The scarcity of trained engineers and technicians may be an important bottleneck to the continued growth of nuclear power, particularly in developing countries, if steps are not taken at an early date to insure against such a limitation. This paper presents a quantitative indication of both regional and global needs for trained manpower in all sectors of the nuclear power industry and compares these with estimates of the corresponding output of engineers. Studies of a few selected countries are also presented to illustrate potential problems on a national scale. (orig./UA) [de

  4. Nuclear power programmes in developing countries: Promotion and financing

    International Nuclear Information System (INIS)

    Bennett, L.L.

    1987-01-01

    In 1986 the Agency's Director General established a Senior Expert Group on Mechanisms to Assist Developing Countries in the Promotion and Planning of Nuclear Power Programmes. This group, which was comprised of 20 experts with extensive experience in the topics to be studied, coming from 15 Member States plus the World Bank, was asked to: identify and analyse the problems of and constraints on nuclear power introduction/expansion in developing countries, with particular attention being paid to the problems of financing nuclear power projects; study mechanisms for dealing with the identified problems and constraints in order to assist developing countries with the promotion and financing of their nuclear power programmes and to determine the role of the IAEA in this context. This paper summarizes the Senior Expert Group's study

  5. Training and manpower development for nuclear energy programme

    International Nuclear Information System (INIS)

    Ajakaiye, D.E.; Elegba, S.B.

    1990-01-01

    The purpose is to train and develop the adequately qualified manpower in the areas of nuclear science and technology. Various options were introduced by the science departments, based on the existing facilities within the university. Twenty final year students were selected annually to attend a summer school in reactor physics and technology at the Karlsruhe Institute for Nuclear Research in West Germany. Also, there was approval for an annual recruitment quota of twelve graduate assistants for the nuclear project. Fifty qualified students were trained for various courses in nuclear science and technology both in the country and abroad. There had been graduates in nuclear science and technology courses up to the doctorate degree level. Part of efforts in the manpower has been directed towards the acquisition of adequate equipment for the teaching laboratories. The establishment of a training center in nuclear technology at Ahmadu Bello University and at University of Ife can only be considered as the zero phase in the nuclear programme of Nigeria. Funding of the nuclear programme must be guaranteed. It is also suggested that the nuclear project be allocated sufficient foreign exchange to meet all its commitments. (A.S.)

  6. IAEA programme on maintenance of nuclear instruments

    International Nuclear Information System (INIS)

    Vuister, P.H.

    1986-01-01

    The Medical Applications Section in the Division of Life Sciences of the International Atomic Energy Agency has been engaged since 1975 in activities aimed at the more effective use of nuclear instruments. Activities and achievements are described concerning the conditioning of laboratories, preventive maintenance and repair of instruments, the management thereof, space parts and the promotion of local training in these subjects. (author)

  7. Atucha I nuclear power plant surveillance programme

    Energy Technology Data Exchange (ETDEWEB)

    Jinchuk, D [Comision Nacional de Energia Atomica, Buenos Aires (Argentina)

    1994-12-31

    After a review of the main characteristics of the Atucha I nuclear power plant and its pressure vessel, the embrittlement surveillance capsules and the irradiation conditions are described; Charpy impact tests and tensile tests were performed on the irradiated samples, and results are discussed and compared to theoretical calculations: transition temperature shifts, displacement per atom values. 6 refs., 16 figs., 7 tabs.

  8. Atucha I nuclear power plant surveillance programme

    International Nuclear Information System (INIS)

    Jinchuk, D.

    1993-01-01

    After a review of the main characteristics of the Atucha I nuclear power plant and its pressure vessel, the embrittlement surveillance capsules and the irradiation conditions are described; Charpy impact tests and tensile tests were performed on the irradiated samples, and results are discussed and compared to theoretical calculations: transition temperature shifts, displacement per atom values. 6 refs., 16 figs., 7 tabs

  9. Britain's Nuclear Electric pursues a major programme to enhance safety

    International Nuclear Information System (INIS)

    Anon.

    1991-01-01

    The UK state-owned nuclear utility, Nuclear Electric, is actively pursuing a major initiative inherited from its predecessor the Central Electricity Generating Board, known as the Station Enhancement Programme. The Enhancement Programme is a multi-million pound project and covers all Nuclear Electric's stations (including relevant aspects of the de-commissioning site at Berkeley). Its fundamental objective is to enhance the arrangements, practices and attitudes on the power stations to create an overall environment likely to promote ever safer and more reliable operation, and to take full account of the best international practices. The four year programme started in the spring of 1989, and is expected to be completed in 1993. Key elements of the programme include quality assurance based management systems; improvements to site and plant material conditions; a more formal approach to training; additional resources and controls to aid the management of maintenance defects; higher profile for the feedback of operational experience; management targets; a station evaluation programme; and formal feedback of lessons learned from the IAEA operational and safety review team visit to the Oldbury-on-Severn station in 1989. (author)

  10. Nuclear Engineering Education in Support of Thailand’s Nuclear Power Programme

    International Nuclear Information System (INIS)

    Chanyotha, S.; Pengvanich, P.; Nilsuwankosit, S.

    2015-01-01

    This paper aims to introduce the nuclear engineering education at the Department of Nuclear Engineering, Chulalongkon University, Bangkok Thailand. The department has been offering curriculum in nuclear engineering to support the national nuclear power programme since 1970s. It is the oldest established nuclear engineering educational programme in the South East Asia region. Nevertheless, since the nuclear power programme has been postponed several times due to various reasons, the educational programme at the department has been continuously adapted to meet the nation’s needs. Several areas of study have been introduced, including nuclear power engineering, industrial applications of radioisotope, nuclear instrumentation, radioisotope production, radiation processing, environment and safety, nuclear materials, as well as the newly created nuclear security and non-proliferation. With the renewed interest in using nuclear power in Thailand in 2007, the department has been actively assisting both the government and the electric utility in preparing human resources to support the nuclear power programme through various educational and training modules. Realizing the importance of establishing and balancing all 3 aspects of the nuclear 3S (safety, security and safeguard) in Thailand and in the Southeast Asian region. The new curriculum of nuclear security and safeguard programme has been offered since 2013. Since the establishment, the department has produced hundreds of graduates (Diploma, Master’s, and Ph.D. levels) to feed the continuously expanding Thai nuclear industry. The full paper will provide detailed information of the curriculum, the challenges and obstacles that the department has encountered, as well as the national and international linkages which have been established over the years. (author)

  11. New nuclear programmes must not neglect waste management - 59077

    International Nuclear Information System (INIS)

    McCombie, Charles

    2012-01-01

    Many established nuclear power programmes have learned to their dismay that waste management and disposal are not tasks that can be postponed at will if public and political acceptance is a prerequisite for progress. In fact, some programmes that recognised this back in the 1970's and 1980's moved into leading positions in repository development. This happened, for example, in Sweden and Switzerland where already in the 1970's Laws were passed specifying that safe disposal must be demonstrated before new nuclear plants could operate. In recent years, it has become recognised that, in order to ensure that the radioactive wastes in any country are managed safely, it is necessary to have an established legislative and regulatory framework and also to create the necessary organizations for implementation and for oversight of waste management operations and facility development. Guidance on these issues is given in the Joint Convention and a number of other IAEA documents. The IAEA, and also the EC, have in addition published key overarching advisory documents for new nuclear programmes. These are useful for strategic planning but, when it comes to actual implementation projects, the advice tends to imply that all nuclear programmes, however large or small, should be pressing ahead urgently towards early operation of geological repositories. In practice, however, in small programmes there are neither economic nor technical drivers for early implementation of deep geological repositories. Constructing simpler facilities for the disposal of the larger volume of low-level wastes has higher priority. Nevertheless, in all countries political decisions have to be taken and policies set in place to ensure that geological disposal will implemented without unjustified delay. This paper distils out a set of key messages for new programmes. Amongst the most critical are the following. Even if disposal is far off, planning and organization should begin at the initiation of the

  12. Developing industrial infrastructures to support a programme of nuclear power

    International Nuclear Information System (INIS)

    1988-01-01

    This Guidebook is intended to offer assistance in the many considerations and decisions involved in preparing the national industry for participation in a nuclear power programme. The heavy financial investment, the setting up of certain infrastructures many years ahead of plant construction, plus the high level of technology involved require early and systematic planning. A further purpose of this Guidebook is to serve particularly those decision makers and planners in the various governmental authorities, the technological institutions and in the industries likely to be involved in a nuclear project. These industries include the services of the national engineering resources, the domestic design and manufacturing groups as well as the civil construction companies. These will be responsible for plant erection, testing and commissioning and most of all for the establishment of a framework for quality assurance. All of these are the components of an essential infrastructure necessary to raise the standards of the national industry and to displace increasingly foreign suppliers to the extent possible. In addition, this Guidebook should help to show some of the implications, consequences and options involved in a nuclear power programme. It does not consider the basic decisions for going nuclear, nor does it review the choice of the technology or nuclear process selected for the programme. Instead, it limits itself to a consideration of the nuclear power plant and its essential cycle activities. Figs and tabs

  13. Options identification programme for demonstration of nuclear desalination

    International Nuclear Information System (INIS)

    1996-08-01

    This report responds to Resolutions GC(XXXVIII)/RES/7 in 1994 and GC(XXXIX)/RES/15 in 1995 at the IAEA General Conference, which requested the Director General to initiate a two year Options Identification Programme to identify and define practical options for demonstration of nuclear desalination and to submit a report on this programme to the General Conference of 1996. This programme was implemented by a Working Group, consisting of experts from interested Member States and IAEA staff, through a combination of periodic meetings and individual work assignments. It resulted in identification of a few practical options, based on reactor and desalination technologies which are themselves readily available without further development being required at the time of demonstration. The report thus provides a perspective how to proceed with demonstration of nuclear desalination, which is expected to help solving the potable water supply problem in the next century. Refs, figs, tabs

  14. Evaluation of the Finnish nuclear waste management programme

    International Nuclear Information System (INIS)

    1994-05-01

    In response to a request from Finland in November 1992, the International Atomic Energy Agency (IAEA) set up a Team of four experts (representatives from Belgium, Canada, Germany and Switzerland) to review the Finnish nuclear waste management programme within the auspices of IAEA's Waste Management programme (WATRP). During the early summer of 1993, the Team reviewed a large amount of documentation supplied by the Finnish industry, government and research organizations. The radioactive waste management programme areas within the Team's terms of reference included: (1) work being done in siting and building a conditional facility for spent nuclear fuel and siting and constructing a co-located repository, (2) the plans and activities for conditioning and disposing of the low and intermediate level waste from Finland's NPPs and (3) the plans for decommissioning Finland's reactors when that becomes necessary. The evaluation work and the recommendations of the Team are detailed in the report

  15. Industrial infrastructure for the Indian nuclear power programme

    International Nuclear Information System (INIS)

    Srinivasan, M.R.

    1986-04-01

    For the inception of the Indian nuclear power programme, great emphasis has been laid on development of comprehensive indigenous capability in design, construction and operation of nuclear power plants. The choice of the pressurised heavy water reactor as the mainline for India's first generation nuclear power stations fitted into this perspective. Apart from the inherent advantages of high neutron economy, low fuelling costs and high capacity factors, this system offered significant opportunities for manufacture and design of all the components within the country. The development of indigenous capability has not been without its problems, namely cost overruns and delays. The main causes for these delays have been the developmental nature of the jobs involving learning process and continued tightening of the quality control requirements. The strategy of development to be pursued by any country is naturally dependent upon the size of the programme it wishes to embark upon and the state of industrial infrastructure in the country. The Indian experience has demonstrated that for development of a comprehensive capability, it is necessary to have a well formulated reactor policy, a good inter-disciplinary R and D base, a good base of conventional industrial infrastructure, a comprehensive manpower development programme and an innovative management. It is hoped that this experience will be of benefit to other developing countries embarking on their own nuclear programme

  16. Karlsruhe Nuclear Research Centre. Programme budget 1988

    International Nuclear Information System (INIS)

    1987-01-01

    Following a general survey of tasks, planned activities and developmental trends of the nuclear research centre, the report gives an account of the activities to be performed in the subject fields of main interest, showing the budgeting figures for annual expenditure (for personnel, investments, operating costs) up to the year 1991. Further information explains the infrastructure of the centre and the distribution of overall expenditure as well as the budgetary planning. (UA) [de

  17. Legal issues associated with preparing for a nuclear energy programme

    International Nuclear Information System (INIS)

    Pelzer, N.

    2009-01-01

    Developing and implementing a national programme for the civilian use of nuclear energy means embarking on the use of a Janus-faced form of energy. We all know that nuclear energy implies both extraordinary benefits and extraordinary risks. This fact requires a legal framework appropriate to cope with both elements of nuclear power. Legislators and State authorities have to establish a sound balance between risks and benefits. That is not at all an easy task. While excluding or limiting risks requires severe legal control mechanisms, the benefits can only fully be enjoyed if the legal framework ensures freedom of research and of economic and industrial development including the guarantee of property ownership and of investments. Combining both opposite poles seems like trying to square the circle. In case of a conflict between promotion and protection, there is no doubt that the protection against nuclear risks has to prevail. Therefore this aspect of nuclear law will be mainly dealt with in this presentation. Establishing a legal framework to tame the hazards of nuclear energy is a much more challenging task for law-makers than providing a legal basis for promoting the use of nuclear energy. With regard to the promotion of nuclear energy, States enjoy a broad range of discretion and may use a great number of legal and non-legal instruments to support the development of a nuclear programme. From a legal point of view, promoting nuclear energy does not require a specific regime. However, it does require a specific regime to control the risks of nuclear energy. States preparing for a nuclear energy programme have to be aware that the use of nuclear energy is not an exclusively national matter. In particular the risk associated with nuclear energy extends beyond national borders. Using the benefits also needs international cooperation in many fields including, e.g., research or fuel supply. Today a network of multilateral and bilateral international treaties exists

  18. Spent Fuel Challenges Facing Small and New Nuclear Programmes

    International Nuclear Information System (INIS)

    McCombie, C.

    2015-01-01

    In order to ensure that the radioactive wastes in any country are managed safely, it is necessary to have an established legislative and regulatory framework and also to create the necessary organizations for implementation and for oversight of waste management operations and facility development. Guidance on these issues is given in the Joint Convention and a number of other IAEA documents. The IAEA, and also the EC, have in addition published key overarching strategic advisory documents for new nuclear programmes. These tend to imply that all nuclear programmes, however large or small, should be pressing ahead urgently towards early implementation of geological repositories. In practice, however, in small programmes there are neither economic nor technical drivers for early implementation of deep geological repositories; constructing simpler facilities for the disposal of the larger volume of low-level waste has higher priority. Nevertheless, in all countries political decisions have to be taken and policies set in place to ensure that geological disposal will implemented without unjustified delay. This paper distils out a set of key messages for small programmes. Amongst the most critical are the following. Even if disposal is far off, planning and organization should begin at the initiation of the programme; this can help with technical and economic optimization and (importantly) also with public and political acceptance. Important lessons can be learned from advanced programmes — but these must be adapted to allow for the different boundary conditions of new and small programmes. The key differences relate to the timescales involved, and the resources available. There is a range of waste management and waste disposal options open to new programmes. It is not necessary to choose definitive solutions at the outset; options can be kept open, but a minimum level of engagement is required for all open options. (author)

  19. The Nuclear Physics Programme at CERN (1/3)

    CERN Multimedia

    CERN. Geneva

    2013-01-01

    This lecture series will focus on the two major facilities at CERN for nuclear physics: ISOLDE and nToF. ISOLDE is one of the world's leading radioactive beam facilities which can produce intense beams of unstable nuclei. Some of these beams can also be re-acclerated to energies around the Coulomb barrier and undergo nuclear reactions in turn. ISOLDE can address a wide range of Physics from nuclear structure to nuclear astrophysics (the origin of the chemical elements) and fundamental physics. The second major facility is nToF which is a neutron time-of-flight facility. Intense neutron beams are used to study nuclear reactions important both for nuclear astrophysics and for present and future reactor cycles. An overview will be given of these two facilities including highlights of their Physics programmes and the perspectives for the future.

  20. Financing nuclear programmes in developing countries

    International Nuclear Information System (INIS)

    McKenzie, N.C.

    1977-01-01

    The following topics are discussed: the implications for a developing nation's economy of acquiring nuclear plants with the attendant high capital cost but low operating cost; political factors and safeguards provisions; turnkey versus non-turnkey contracts; spreading exchange and other risks through multi-national consortia; maximising local content; cash flow considerations; availability of aid or other direct government to government loans; packaging of export finance from different countries; downpayments and local costs; eurodollar markets, bank syndications and bond issues, and domestic markets; available security, central bank or government guarantees; special considerations, barter deals, leasing, and finance for the fuel cycle

  1. Financing nuclear programmes in developing countries

    International Nuclear Information System (INIS)

    McKenzie, N.C.

    1977-01-01

    The paper discusses the following topics: The implications for a developing nation's economy of acquiring nuclear plants with the attendant high capital cost but low operating cost; political factors and safeguards provisions; turnkey versus non-turnkey contracts; spreading exchange and other risks through multi-national consortia; maximizing local content; cash flow considerations; availability of aid or other direct government to government loans; packaging of export finance from different countries; downpayments and local costs; Eurodollar markets, bank syndications and bond issues, domestic markets; available security, central bank or government guarantees; special considerations, barter deals, leasing; and finance for the fuel cycle. (author)

  2. Development of nuclear emergency exercise programme (NEEP) in Korea

    International Nuclear Information System (INIS)

    Shin, H. K.; Kim, J. Y.; Kim, M. K.; Kim, S. H.

    2011-01-01

    The nuclear emergency exercise programme (NEEP) is a PC-based application intended for design and planning emergency preparedness and response (EP and R) exercises for a potential nuclear emergency in Korea. The application programme allows EP and R staff to create and edit exercise scenarios based on information customised for a specific nuclear power plant's emergency plans. NEEP includes the following features: (1) step-by-step guide to developing new exercise scenario according to emergency alarm level and potential accident type, (2) database of specific plant's field exercise scenarios that can be easily modified by users, (3) generating master scenario events list and messages of exercise participants and (4) allowing the quantitative evaluation of exercise participants from the view of exercise objectives and evaluator guides. NEEP also features tools for queries, reports and visualisation that can be used to create documentation during the scenario planning and exercise evaluation processes. (authors)

  3. The role of nuclear research centres in the introduction of a nuclear power programme

    International Nuclear Information System (INIS)

    Afgan, N.; Anastasijevic, P.; Kolar, D.; Strohal, P.

    1977-01-01

    Full development of nuclear energy has imposed a new role on nuclear energy centres. Nuclear technology for different reactor concepts is also now in a phase of high development. Several reactor concepts have been developed for industrial use and electric power production. Development of fast reactors is still under way and needs further research efforts. Having in mind these two main guidelines, research programmes in nuclear energy centres should be geared to the development of the activities vital to the implementation of national nuclear energy programmes. In this respect, national nuclear centres should devote their attention to three major tasks. First, to establish a background for the introduction of nuclear energy into the national energy system and to support a national safety system. Secondly, to support the national programme by skilled manpower, to provide the basic training in nuclear technology for future staff of nuclear power stations and to assist the universities in establishing the necessary educational programme in nuclear energy. Thirdly, to follow the development of nuclear energy technology for fast breeder reactor concepts. (author)

  4. Manpower development for the nuclear power programme in Bangladesh

    International Nuclear Information System (INIS)

    Hossain, A.; Rahman, M.A.; Quaiyum, M.A.

    1978-01-01

    Surveys undertaken in the early sixties established that nuclear power had a great potential for meeting energy demands in Bangladesh. Therefore, since then the development of the requisite manpower for producing nuclear power in the country has been supported by the authorities. Through the co-operation of the IAEA and national and international agencies, Bangladesh has been able to create a corps of scientists and engineers trained at M.Sc. and Ph.D. levels in various nuclear science and technology disciplines. Some are professional nuclear engineers who have participated in the planning, safety evaluation, construction, commissioning and the subsequent operation of nuclear power plants. This paper reviews the present activities and the future plans for developing qualified manpower for Bangladesh's nuclear power programme. The difficulties in developing skilled manpower are also discussed. Overall manpower requirements have been evaluated. It has been found that in certain areas, such as quality control and quality assurance, BAEC has no trained personnel, and existing trained manpower falls short in requirements. Hence, recruitment is being done and training in selected areas is being arranged under different IAEA and bilateral assistance programmes, and a national nuclear training institution with adequate facilities is being established. (author)

  5. MOX fuel for Indian nuclear power programme

    International Nuclear Information System (INIS)

    Kamath, H.S.; Anantharaman, K.; Purushotham, D.S.C.

    2000-01-01

    A sound energy policy and a sound environmental policy calls for utilisation of plutonium (Pu) in nuclear power reactors. The paper discusses the use of Pu in the form of mixed oxide (MOX) fuel in two Indian boiling water reactors (BWRs) at Tarapur. An industrial scale MOX fuel fabrication plant is presently operational at Tarapur which is capable of manufacturing MOX fuels for BWRs and in future for PHWRs. The plant can also manufacture mixed oxide fuel for prototype fast breeder reactor (PFBR) and development work in this regard has already started. The paper describes the MOX fuel manufacturing technology and quality control techniques presently in use at the plant. The irradiation experience of the lead MOX assemblies in BWRs is also briefly discussed. The key areas of interest for future developments in MOX fuel fabrication technology and Pu utilisation are identified. (author)

  6. The Belgian nuclear higher education network: the evolution of an academic programme in nuclear engineering

    International Nuclear Information System (INIS)

    Berkvens, T.; Coeck, M.

    2014-01-01

    The master-after-master in nuclear engineering provided by the Belgian Nuclear higher Education Network (BNEN) is a one-year, 60 ECTS programme which combines the expertise of six Belgian universities and SCK.CEN, the Belgian Nuclear Research Centre, which participates through its Academy for Nuclear Science and Technology. It was created in close collaboration with representatives of academia, research centres, industry and other nuclear stakeholders. The BNEN consortium Due to its modular programme, BNEN is accessible for both full-time students (mainly young engineering graduates) as well as young professionals already employed in the nuclear industry. The programme is offered in English to facilitate the participation of international students. One of the important aspects of the BNEN programme is the fact that exercises and hands-on sessions in the specialised laboratories of SCK.CEN complement the theoretical classes to bring the students into contact with all facets of nuclear energy. Several of SCK.CEN's researchers provide valuable contributions to the programme through seminars and practical exercises. From their daily practices and responsibilities they give an expert view on the subjects that are being taught. In 2012, in the framework of an official accreditation process all aspects of the BNEN programme were audited by an international visitation panel. The most important outcome of this process is the current reform of the academic programme, which will be implemented in the academic year 2014-2015, taking into account the recommendations by the visitation panel. In this paper, the history of the BNEN programme will be discussed, the new BNEN programme will be presented as well as the process that has led to its implementation. (authors)

  7. European Society of Nuclear Methods in Agriculture. Proceedings

    International Nuclear Information System (INIS)

    The conference proceedings reported include papers on the Czechoslovak nuclear programme in the field of agriculture and food industry, the application of stable isotopes in agriculture, the applications of radioanalytical methods in agriculture, the use of waste heat from nuclear power plants, food irradiation, waste processing by irradiation, radiation-induced stimulation effects in plants, tracer techniques in animal science, radiation analysis, the use of nuclear techniques in the study of soil-plant relationships, applied mutagenesis, environmental pollution, genetic methods of pest control, the applications of radioisotopes in insect ecology, and the application of nuclear methods in plant physiology. (J.B.)

  8. Finnish research programmes on nuclear power plant safety

    International Nuclear Information System (INIS)

    Puska, E. K.

    2010-01-01

    The current Finnish national research programme on nuclear power plant safety SAFIR2010 for the years 2007-2010 as well as the coming SAFIR2014 programme for the years 2011-2014 are based on the chapter 7a, 'Ensuring expertise', of the Finnish Nuclear Energy Act. The objective of this chapter is realised in the research work and education of experts in the projects of these research programmes. SAFIR2010 research programme is divided in eight research areas that are Organisation and human, Automation and control room, Fuel and reactor physics, Thermal hydraulics, Severe accidents, Structural safety of reactor circuit, Construction safety, and Probabilistic Safety Analysis (PSA). All the research areas include both projects in their own area and interdisciplinary co-operational projects. Research projects of the programme are chosen on the basis of annual call for proposals. In 2010 research is carried out in 33 projects in SAFIR2010. VTT is the responsible research organisation in 26 of these projects and VTT is also the coordination unit of SAFIR2010 and SAFIR2014. In 2007-2009 SAFIR2010 produced 497 Specified research results (Deliverables), 618 Publications, and 33 Academic degrees. SAFIR2010 programme covers approximately half of the reactor safety research volume in Finland currently. In 2010 the programme volume is EUR 7.1 million and 47 person years. The major funding partners are VYR with EUR 2.96 million, VTT with EUR 2.66 million, Fortum with EUR 0.28 million, TVO with EUR 0.19 million, NKS with EUR 0.15 million, EU with only EUR 0.03 million and other partners with EUR 0.85 million. The new decisions-in-principle on Olkiluoto unit 4 for Teollisuuden Voima and new nuclear power plant for Fennovoima ratified by the Finnish Parliament on 1 July 2010 increase the annual funding collected according to the Finnish Nuclear Energy Act from Fennovoima, Fortum and Teollisuuden Voima for the SAFIR2014 programme to EUR 5.2 million from the current level of EUR 3

  9. Radiation and nuclear safety included in the environmental health programme

    International Nuclear Information System (INIS)

    Salomaa, S.

    1996-01-01

    Finland is currently preparing a national environmental health programme, the objective of which is to chart the main environmental health problems in Finland, to identify means for securing a healthy environment, and to draw up a practical action programme for preventing and rectifying problems pertaining to environmental health. Radiation and nuclear safety form an essential part of preventive health care. The action programme is based on decisions and programmes approved at the WHO Conference on the Environment and Health, held in Helsinki in June 1994. In addition to the state of the Finnish environment and the health of the Finnish population, the programme addresses the relevant international issues, in particular in areas adjacent to Finland. The Committee on Environmental Health is expected to complete its work by the end of the year. A wide range of representatives from various branches of administration have contributed to the preparation of the programme. Besides physical, biological and chemical factors, the environmental factors affecting health also include the physical environment and the psychological, social and aesthetic features of the environment. Similarly, environmental factors that have an impact on the health of present or future generations, on the essential preconditions of life and on the quality of life are investigated. The serious risk to nature caused by human actions is also considered as a potential risk to human health. (orig.)

  10. Planning and development of the Spanish nuclear power programme

    International Nuclear Information System (INIS)

    Lopez-Rodriguez, M.

    1983-01-01

    The paper analyses the Spanish nuclear power programme from its inception to the present time, doing so within the context of the country, characterized by the fairly rapid change from a basically agricultural economy to an economy in which industry and services play an important part and the transformation of which took place mainly during the decade prior to the energy crisis 1973. Reference is made to the early establishment of the Junta de Energia Nuclear (Nuclear Energy Board) (JEN), which was set up as a research body even before nuclear energy became competitive with other sources for the production of electric power and which, by adapting its structure and programmes to the different phases in the development and utilization of nuclear energy in the country, contributed the necessary scientific, technical and legal infrastructure. There is also an analysis of the most striking features of the Spanish energy system and an account of the planning and construction of the first three Spanish nuclear power stations. A further subject of discussion is the energy planning and development projects devised by the Government which gave rise to the second generation of nuclear power plants, some of which are already in operation and the remainder in an advanced state of construction. Emphasis is placed on the action taken by the Spanish Government to increase the participation of Spanish industry in the construction of nuclear power plants and in the supply of equipment and services required for their operation. Reference is made to the experimental changes which have been made in the institutional infrastructure in order to adapt it to the phase of development which has been reached and to the objectives subsequently laid down in the planning: establishment of ENUSA (the national uranium enterprise), the Equipos Nucleares corporation and the Nuclear Safety Council, and also the changes made in the JEN

  11. The role of underground laboratories in nuclear waste disposal programmes

    International Nuclear Information System (INIS)

    2001-01-01

    Underground research laboratories (URLs) are essential to provide the scientific and technical information and practical experience that are needed for the design and construction of nuclear waste disposal facilities, as well as for the development of the safety case that must be presented at various stages of repository development. This report provides an overview of the purpose of URLs within repository development programmes; the range of URLs that have been developed, or are planned, in NEA Member countries to date; the various contributions that such facilities can make to repository development programmes and the development of a safety case; considerations on the timing of developing a URL within a national programme; and the opportunities and benefits of international co-operation in relation to URLs. (author)

  12. Nuclear power plant operation experience - a feedback programme

    International Nuclear Information System (INIS)

    Banica, I.; Sociu, F.; Margaritescu, C.

    1994-01-01

    An effective high quality maintenance programme is required for the safe reliable operation of a nuclear power plant. To achieve the objectives of such a programme, both plant management and staff must be highly dedicated and motivated to perform high quality work at all levels. Operating and maintenance experience data collections and analysis are necessary in order to enhance the safety of the plant and reliability of the structures systems and components throughout their operating life. Significant events, but also minor incident, may reveal important deficiencies or negative trends adverse to safety. Therefore, a computer processing system for collecting, classifying and evaluating abnormal events or findings concerning operating-maintenance and for feeding back the results of the lessons learned from experience into the design and the operation of our nuclear power plant is considered to be of paramount importance. (Author)

  13. The Nordic programme for nuclear safety 1990 - 1993

    International Nuclear Information System (INIS)

    1993-08-01

    The report contains summaries written by leaders of the various projects carried out under the Nordic programme for nuclear safety during the first half-year of 1993. The programme covers spreading prognoses and consequences, strategy and methods for management and exchange of data for decision-makers, the evaluation and harmonizing of countermeasures and use of intervention levels, the basis for public information, Nordic emergency exercises, the re-establishment of radioactive contaminated areas, criteria for classification of radioactive materials, decommissioning of uranium-cleaning plants, storage of information, removal and disposal of contaminated soil from fields, influence of climatological and geological processes on longterm storage of radioactive wastes, training, quality assurance, aquatic radioecology, agriculture's radioecology, natural and semi-natural terrestrial ecosystems, reactor safety and personnel preparedness, safety evaluation, severe accidents and design and safety features of nuclear installations in countries which are neighbours to the Nordic lands. Budgets of expenditures for the various project groups are presented. (AB)

  14. The Nordic programme for nuclear safety 1990-1993

    International Nuclear Information System (INIS)

    1992-08-01

    The status report for the first half of the year 1992 of the Nordic programme for nuclear safety 1990-1993 contains summaries of the progress of the projects under the four sections of the programme. These sections are divided under the main headings of dealing with readiness in abnormal radiation situations, nuclear wastes and deposition, radioecology and reactor safety. The projects included in the first part concern radiation-spreading prognoses and consequences for the area, strategies and methods for measuring and management of exchange of data between decision-makers, evaluation and harmonizing of remedial measures, public information, Nordic exercises in readiness and the determination of radioactive contamination in the area. Projects under the second section concern exemptions from regulatory control of radioactive material, experiences of demolition of uranium cleaning systems, storing of information, handling of radioactive wastes from reactor accidents, transport etc., and geological and climatological processes of significance for long-term safety in a final storage system. The third section of the programme handles training and quality assurance methods, aquatic radioecology, agricultural and natural ecosystems. The fourth section treats data on the safety status of Greifswald I-IV, Leningrad I-IV, Ignalia I-II, ship reactors, Brunsbuettel, Kruemmel and Kola I-IV. The programme's total budget is presented. (AB)

  15. Human resource issues related to an expanding nuclear power programme

    International Nuclear Information System (INIS)

    2006-05-01

    The IAEA Technical Working Group on Training and Qualification of Nuclear Power Plant Personnel recommended that the IAEA develop guidelines on human resource management (including staffing) and training/education programmes for new nuclear power plant (NPP) designs. This recommendation was made in recognition that these future NPPs may have significantly different needs in this area compared to operating plants, and if so, NPP operating organizations should integrate these needs into their planning for future NPP projects. This report is primarily intended for use by NPP operating organizations that already have units in operation and that are considering adding to their fleet. Therefore, the addition of both new and current designs are addressed in this report. However, it should also be of value to those organizations that are considering the initial implementation of nuclear power, as well as decision makers in government, and in other nuclear industry organizations

  16. Application of programmable logic controller in nuclear experiments

    International Nuclear Information System (INIS)

    Ponikvar, D.

    1991-09-01

    The applicability of programmable logic controller (PLC) in nuclear experiments was studied on an example that simulated the monitoring and control of an ion beam in an accelerator. Using infrared and laser light, a comparison was made between the complexity and suitability of PLC compared to a setup using a personal computer. The experiments are described in detail. The routines for registration of signals from appropriate sensors and for control of the stepper monitor were written in quick BASIC. (author). 5 figs

  17. The Iranian nuclear programme-an equation with many unknowns

    International Nuclear Information System (INIS)

    Hamel, T.

    2007-01-01

    So, is Iran a threat or a victim? Although it has no previous history of aggression, Iran continues to disturb the international community with its nuclear programme, while declaring that it is under threat from its neighbours and the victim of propaganda. Yet why does a country with such large reserves of oil and gas need a nuclear industry? This question arose as long ago as the early 1970, and it arises again today. The Shah was a Gaullist, Khomenei a Gaullist ayatollah, and today it is not the Ayatollah but the Gaullist posture that is the more disturbing. A Blairite ayatollah will surely suit Washington nicely. (author)

  18. Chemistry programmes at a technological and nuclear centre

    International Nuclear Information System (INIS)

    Servian, J.L.

    1984-01-01

    The application of chemical principles and techniques have played a major role in the development of nuclear sciences and technology. The discovery of radioactivity, the isolation of radium and polonium, the discovery of artificial radioactivity and nuclear fission and the production of transuranium elements are historical landmarks that show the prominent role performed by chemistry. The purpose of this paper is to summarize the chemistry areas and experimental facilities for programmes of training, research and development, and service that might be designed for implementation at the Centre when appropriate. Though the areas are separately presented for analysis, they are closely related among themselves and also related to other activities of the Centre. (author)

  19. Questions for considerations in context of launch a nuclear energy programme

    International Nuclear Information System (INIS)

    2008-01-01

    The main problems to be considered at the beginning of a nuclear power programme were presented . This is polish translation of '' Considerations to launch a nuclear programme '' IAEA 2007, printed by National Atomic Agency - Document of Nuclear Power Support Group coordinated by IAEA Department of Nuclear Energy. Strategy elements influencing the political decision, the main programme factors concerning the first nuclear power plant, IAEA support and reference documents are included

  20. Promotion and financing of nuclear power programmes in developing countries

    International Nuclear Information System (INIS)

    Bennett, L.L.; Skjoeldebrand, R.

    1988-01-01

    Nuclear power has been introduced only to a small extent in a few developing countries. A group of senior experts conducted a study of the existing constraints on nuclear power in developing countries, the requirements to be met for successful introduction of a nuclear power programme, and mechanisms to assist developing countries in overcoming the identified constraints. Financing represents one (but not the only) major constraint to nuclear power development in developing countries. The present schemes of export credits and commercial financing are seen as not adequately meeting the needs of nuclear power financing in terms of repayment periods and profiles, or in terms of flexibility to meet delays and cost overruns. Innovative and workable arrangements to share the economic and financial risks would be helpful in obtaining financing for a nuclear power project. All possible efforts should be made by all parties involved in the development of nuclear power to reduce as far as possible the uncertainties surrounding the cost and schedule of a nuclear power project, as an essential step to improve the overall climate for financing the project. Government commitment, soundly based and thorough planning, development of qualified manpower and other key infrastructures, and good project management are important mechanisms to achieve greater predictability in project schedule and cost. Technical assistance provided by the IAEA can be very helpful in building these capabilities in developing countries. (author). 1 tab

  1. Dangers associated with civil nuclear power programmes: weaponization and nuclear waste.

    Science.gov (United States)

    Boulton, Frank

    2015-07-24

    The number of nuclear power plants in the world rose exponentially to 420 by 1990 and peaked at 438 in 2002; but by 2014, as closed plants were not replaced, there were just 388. In spite of using more renewable energy, the world still relies on fossil fuels, but some countries plan to develop new nuclear programmes. Spent nuclear fuel, one of the most dangerous and toxic materials known, can be reprocessed into fresh fuel or into weapons-grade materials, and generates large amounts of highly active waste. This article reviews available literature on government and industry websites and from independent analysts on world energy production, the aspirations of the 'new nuclear build' programmes in China and the UK, and the difficulties in keeping the environment safe over an immense timescale while minimizing adverse health impacts and production of greenhouse gases, and preventing weaponization by non-nuclear-weapons states acquiring civil nuclear technology.

  2. A Repression of Czechoslovak Citizens in the USSR

    Directory of Open Access Journals (Sweden)

    Hornik Jan

    2015-08-01

    Full Text Available Around 30,000 citizens of pre-war Czechoslovakia were persecuted in the Soviet Union, at least 5.000 originated from Czech lands. One of the groups consist of the people who in the period of 1939-1942 sought refuge in the USSR from German or Hungarian Nazism, or who wanted to actively fight against it. They ended up in the Gulag, from which they were freed during an amnesty linked to the creation of a Czechoslovak unit in the USSR. Many were Czechoslovak Jews, including those who escaped from the Nazi concentration camp in Poland. Nisko, while thousands were inhabitants of Carpathian Ruthenia.

  3. A Repression of Czechoslovak Citizens in the USSR

    OpenAIRE

    Hornik Jan

    2015-01-01

    Around 30,000 citizens of pre-war Czechoslovakia were persecuted in the Soviet Union, at least 5.000 originated from Czech lands. One of the groups consist of the people who in the period of 1939-1942 sought refuge in the USSR from German or Hungarian Nazism, or who wanted to actively fight against it. They ended up in the Gulag, from which they were freed during an amnesty linked to the creation of a Czechoslovak unit in the USSR. Many were Czechoslovak Jews, including those who escaped from...

  4. The legal framework in Spain for a nuclear programme

    International Nuclear Information System (INIS)

    Santos, A. de los; Corretjer, L.

    1977-01-01

    The introduction of a nuclear programme requires the establishment of an adequate legal framework, as solutions to the problems posed by the use of nuclear energy are not included in Common Law. Legislation in Spain is capable of dealing with the main problems posed in this field. Spain is a contracting party in several international conventions and participates in international organizations related to this area, taking their recommendations into account when revising its national legislation. Specific Spanish legislation is constituted by Law 25/1964 of 29 April 1964 on Nuclear Energy, which outlines the legal system regarding nuclear energy and regulates all related aspects, from the competent organizations and authorities to the sanctions to be imposed for non-fulfilment of the provisions. To offer sufficient flexibility for it to be adapted to specific circumstances, the Law's provisions are very wide and development is foreseen by means of regulations. So far, two Regulations have been published: that relating to Coverage of Risk of Nuclear Damage, which refers to civil responsibility and its coverage; and that relating to Nuclear and Radioactive Installations, which refers to the authorization and licence system. At present, the regulation relating to Radiation Protection is being elaborated and will replace the present Radiation Protection Ordinances. In addition, reference is made to others which, although they are not specifically 'nuclear', include precepts related to this question, such as the Regulation regarding Nuisance, Unhealthy or Dangerous Industries or some labour law provisions. (author)

  5. ICRP publication 26. Its applicability in a nuclear power programme

    International Nuclear Information System (INIS)

    Wilson, R.; Donnelly, K.

    1980-01-01

    Ontario Hydro is a major Canadian provincial utility with more than 5 GW(e) installed nuclear electricity generating capacity and with a planned commitment to an additional 8.5 GW(e), all units being of the CANDU pressurized heavy-water type. The radiation protection programme, in addition to complying with Canadian Federal regulations, has been consistent with the philosophy and intent of ICRP recommendations and is frequently reviewed to ensure compliance with these recommendations, the most recent of which is ICRP-26. The application of the ALARA principle in this power reactor programme is described. A set of general guidelines has been established, the main features of which are: (a) achieving a dose consumption per unit of electricity generated which is low compared with reactors of a similar type; (b) ensuring that stations are operable with the dose equivalent of their labour-dictated manpower; (c) ensuring that the risk to atomic radiation workers is compatible with a corporate fatality rate standard of 8 man-hours worked. Achievement of these guidelines has necessitated implementing a continued dose-management programme. This programme is described generally. The cost applied to justify a dose reduction of 1 man.Sv is given, and a comparison is made with the equivalent life costs this implies and the costs used by safety agencies for other risk-reduction activities. Finally, some practical problems associated with some of the recommendations of ICRP-26 are discussed. (author)

  6. Development of the national nuclear programme and preparations for the introduction of nuclear power in Hungary

    International Nuclear Information System (INIS)

    Szili, G.; Erdosi, N.; Varga, I.; Ocsai, M.; Szabo, B.

    1977-01-01

    Hungary's energy situation, energy policy and its interest in the use of nuclear energy are reviewed and the main nuclear power programme targets for the medium term (by 1990) and long term (by 2000) are given. Preparatory steps for the introduction of nuclear energy are outlined, emphasizing the important areas of the preparatory programme. A short technical description is given of Hungary's first nuclear power plant, the Paks Nuclear Power Station, including the preparations for construction and erection, the present construction plan, fuel supply, basic technical aspects of safety, and the social consequences of the plant's erection. The problems involved in the introduction of nuclear energy that must be solved by the state administration are summarized. A review is given of earlier legislation on projects and works representing a radiation hazard; duties are discharged by different state administrations. Additional problems arise from the large-scale use of nuclear energy. These require regulation by the authorities. Preliminary steps have been taken to frame appropriate laws. The activities of the authorities in regard to the practical realization of the first nuclear power station are outlined: there will be a scheduled procedure of authorization. The present potentials and trends in the development and design capacities for energy in general and particularly for nuclear power research are discussed. Hungarian R and D and design resources participate in the joint nuclear power development programme of the CMEA countries. Work is divided amongst various institutes. Preparations being made in the manufacturing, building and construction industries will lead to an expected increase in the domestic share in the construction of future nuclear power plants, compared to the first plant, for which the proportions of foreign and domestic participation are given. Hungary's industry is preparing for the manufacture of nuclear power equipment within the framework of the

  7. The Nuclear Department, Royal Naval School of Marine Engineering - Provision of nuclear education and training to the naval nuclear propulsion programme and beyond

    International Nuclear Information System (INIS)

    Trethewey, K.R.; Beeley, P.A.; Lockwood, R.S.; Harrop, I.

    2004-01-01

    The Nuclear Department at HMS SULTAN provides education, training and research support to the Royal Navy Nuclear Propulsion Programme, as well as a growing number of civilian programmes within the wider British nuclear industry. As an aspiring centre of excellence in nuclear engineering, the Department will play an important role as a repository of nuclear knowledge for the foreseeable future. (author)

  8. Review of the French environmental nuclear toxicology programme

    International Nuclear Information System (INIS)

    Leguay, J.J.; Menager, M.T.; Ansoborlo, E.

    2005-01-01

    Full text of publication follows: The fate of radionuclides in the geosphere and in particular their transfer in the biosphere constitutes an essential key point in relation with environmental issues as well as their effects on living organisms. In order to answer to such issues, an Environmental Nuclear Toxicology Programme (a French national programme) has been launched in 2001 for a period of 5 years. It is a resolutely forward-looking programme gathering all the main research institutes (CEA, CNRS, Inserm and Inra) and comprising 15 projects that pool the expertise of physicians, biologists, chemists, physicists... The programme's central thrust is the study of the biological effects of nuclear toxics, i.e., most part of the compounds encountered in the nuclear industry ( 3 H, Co, Cd, Se, Sr, Tc, I, Cs, Pb U, Pu) that may have a chemical and (or) radiological toxicity towards living organisms. Its objectives are to study the toxicology of the materials used, in particular in nuclear fuels, to analyse the biological effects of radionuclides (naturally-occurring or artificial) that may be present in the environment, and to examine the effects of chemically toxic metals, particularly the heavy metals, used in nuclear and medical research and industrial activities. For the radionuclides, the aim is to determine the potential health consequences of exposure to these materials and to make realistic estimates of exposure to the corresponding risks incurred. The main research topics concern three types of mechanisms in bacteria, plants and animals: - Mechanisms by which elements are transferred and transported from cell to cell; - Mechanisms by which toxics accumulate in cell compartment and organs; - Specific detoxification mechanisms. In all cases, special emphasis is placed on work that makes possible to compare the toxicity of different elements relative to a better known toxic chemical, such as cadmium or cobalt, and also, for as many elements as possible, work to

  9. The Nordic programme for nuclear safety 1990-1993

    International Nuclear Information System (INIS)

    1991-08-01

    The status report concerning the Nordic Nuclear Safety Programme for 1990-1993 contains a summary of the current situation regarding research projects, presented by the four coordinators, and a survey of the related economy. It is stated that all seventeen projects are running satisfactorily and a number of working descriptions have been published. Project leaders work with contracts with consultant firms, research organizations and individuals, contact meetings including lectures and discussions, mini-seminars where participants actually work at the same time, coordination of nationally financed research projects and individual contributions. Problems related to a certain lack of qualified persons for whom it is possible to coordinate this Nordic work with their daily responsibilities have led to delays in relation to the working plans and this has resulted in the fact that not all the grants have been utilized as yet. Sub-programmes are dealt with individually, and lists of publications are presented. (AB) (10 refs.)

  10. Peaceful nuclear programme and front end nuclear fuel cycle activities in Pakistan

    International Nuclear Information System (INIS)

    S. Mukhtar Ahmed

    1999-01-01

    Pakistan has a modest but broad based nuclear programme related to peaceful uses of atomic energy in nuclear power, agriculture, medicine and industry. While development projects in these areas form the major segment of Pakistan Atomic Energy Commission's work, complimentary activities in basic research and human resource development are also supported. PAEC through its activities has been moving towards the goal of achieving self-reliance for its existing programme in an international atmosphere of embargoes and restrictions and in pursuit of creating an infrastructure to help sustain an indigenous nuclear power programme. To solve the local needs and requirements, radioisotopes and nuclear techniques have been applied in agriculture, medicine, hydrology and industry. PAEC has one large research and development establishment in physical sciences, three R and D centers in agriculture, one in biotechnology, and ten nuclear medical centers for diagnostics and oncology treatment. Two research reactors form nucleus of research and development activities in nuclear sciences. In the power sector a 137 Mew CANDU power reactor is in operation in Karachi since 1971. Another 300 Mew PWR is under construction and is nearing completion. Front-end fuel cycle and engineering infrastructure facilities have been established to support continued operation of Karachi Nuclear Power Plant (KANUPP). To support the engineering activities it has established facilities for precision workshops, non-destructive testing center and a welding institute. (author)

  11. The Nordic Nuclear Safety Research (NKS) programme. Nordic cooperation on nuclear safety

    Energy Technology Data Exchange (ETDEWEB)

    Andersson, Kasper G. [Technical Univ. of Denmark, Roskilde (Denmark). National Lab. for Sustainable Energy; Ekstroem, Karoliina [Fortum Power and Heat, Fortum (Finland); Gwynn, Justin P. [Norwegian Radiation Protection Authority, Tromsoe (Norway). Fram Centre; Magnusson, Sigurdur M. [Icelandic Radiation Safety Authority, Reykjavik (Iceland); Physant, Finn C. [NKS-Sekretariatet, Roskilde (Denmark)

    2012-07-01

    The roots of the current Nordic Nuclear Safety Research (NKS) programme can be traced back to the recommendation by the Nordic Council in the late 1950s for the establishment of joint Nordic committees on the issues of nuclear research and radiation protection. One of these joint Nordic committees, the 'Kontaktorgan', paved the way over its 33 years of existence for the future of Nordic cooperation in the field of nuclear safety, through the formation of Nordic groups on reactor safety, nuclear waste and environmental effects of nuclear power in the late 1960s and early 1970s. With an increased focus on developing nuclear power in the wake of the energy crisis on the 1970s, the NKS was established by the Nordic Council to further develop the previous strands of Nordic cooperation in nuclear safety. NKS started its first programme in 1977, funding a series of four year programmes over the next 24 years covering the areas of reactor safety, waste management, emergency preparedness and radioecology. Initially funded directly from the Nordic Council, ownership of NKS was transferred from the political level to the national competent authorities at the beginning of the 1990s. This organizational and funding model has continued to the present day with additional financial support from a number of co-sponsors in Finland, Norway and Sweden. (orig.)

  12. Programmable logic controller (PLC) for safety systems of nuclear plants

    International Nuclear Information System (INIS)

    Sen, S.K.; Karmakar, G.; Joseph, Jose; Patil, R.K.

    2002-01-01

    Full text: A programmable logic controller (PLC) has been developed by RCnD, BARC for use in the safety critical systems in nuclear power plants. This PLC uses qualified hardware developed in RCnD for use in NPP. The programming software conforms to IEC-61131 part 3. The application programming is done on function block diagram (FBD) editor and the FBD is automatically converted into code in high level language (C / C++). This feature makes the application easily decipherable and therefore easily subjected to reviews and other validation techniques. The key to make quality software for use in nuclear systems is to enforce various standards in the design and development of the software, something, which is not possible to do with a commercially available PLC. This PLC with its software completely transparent lends itself to rigorous verification and validation easily

  13. IAEA Perspectives and Programme on Nuclear Knowledge Management

    International Nuclear Information System (INIS)

    Grosbois, J. de

    2016-01-01

    Full text: There are many challenging issues facing Member States with respect to knowledge management. Each country’s situation and history with nuclear technology is different and strategic issues and immediate priorities are not the same. Member States recognize nuclear technology is inherently complex and requires advanced specialization and expertise. Maintaining a competent workforce is always of concern, especially in organizations with an aging workforce. Countries making major transitions such as gearing up for new build construction or decommissioning projects face particular challenges. Licensed nuclear facilities operate under a range of different organizational business models. For example, some rely heavily on outsourced and external services, and different approaches are needed to ensure critical knowledge is available and maintained. For countries phasing out nuclear power, critical knowledge must be maintained to ensure decommissioning and environmental remediation of sites is done in a responsible manner. Newcomer countries have the difficult challenge of building up their needed workforce competencies to be ready in time to support construction and commissioning schedules. The capture, preservation, transfer and overall management of design knowledge over the technology lifecycle is another important issue that is needed to ensure both the economics and safety of nuclear facilities over their lifetimes, and is especially important to ensure life extension and refurbishment projects can be implemented cost effectively. This presentation will present an overall perspective of the major knowledge management challenges and issues facing the nuclear sector and provide an overview of the IAEA’s nuclear knowledge management programme and initiatives that support Member States in addressing them. (author

  14. Public education programme for nuclear contingency planning in Hong Kong

    International Nuclear Information System (INIS)

    Wong, M. C.; Li, S. W.

    2002-01-01

    Two nuclear power stations on the coast of southern China are situated some 50 kilometers to the northeast of Hong Kong. Although the stations are far away from Hong Kong, the construction and operation of the nuclear power stations have generated public anxiety locally, in particular, after the Chernobyl accident in 1986. A comprehensive contingency plan which takes into account such concerns of the public has been implemented in Hong Kong. Cooperation by the public is vital to the effective implementation of any contingency plan. Understanding of the basics of radiation protection as well as the contingency plan will help the public to appreciate the situation and react in a rational manner. A public education program to promote awareness of the contingency plan has been implemented in Hong Kong. In particular, a Virtual Exhibition Hall on radiation has been developed and launched in February 2002 for access by the public via Internet. A video and a set of web pages will be launched in the later part of 2002 to inform and educate the public on matters related to nuclear accident response in Hong Kong. This paper describes the public education programme in Hong Kong to promote public awareness and understanding of the nuclear contingency plan

  15. Thailand: Infrastructure Development and Challenges to Launch Nuclear Power Programme

    International Nuclear Information System (INIS)

    Keinmeesuke, Sirichai

    2011-01-01

    In June 2007, the cabinet passed a resolution for Thailand's Power Development Plan (PDP 2007). It was mentioned in the plan that Thailand will have 2 x 1,000 MWe nuclear power plants in 2020 and another 2 x 1,000 MWe in 2021. The PDP 2007 was revised in March 2009 and it was agreed to change the nuclear power generation to only 1 x 1,000 MWe in 2020 and 2021 respectively due to the large excess capacity at present. Many activities related to development of infrastructures in order to support electricity generation using nuclear power are being executed. Milestones for nuclear power program implementation has been developed using the IAEA document 'Milestones in the Development of a National Infrastructure for Nuclear Power' with some amendment/additions to suit the country situation. According to the schedule, a lot of activities related to infrastructure establishment, feasibility study, utility preparation and public education and participation are being performed. Within the year 2011, various issues such as legal and regulatory systems and international commitment, industrial and commercial infrastructure, technology transfer and human resource development, safety and environmental protection, public information and public acceptance, preparation of the nuclear power utility establishment, etc. must be solved out and undertaken to assure the cabinet to make final decision to go nuclear. There are many challenges for Thailand embarking of the nuclear power programme. It is essential to plan for the establishment of a regulatory body at the national level to support and regulate the nuclear power plant industry. Currently, the application for a license and the monitoring of a power plant are administered by the authorities of various agencies under different ministries; hence the process is very time-consuming and overlaps with one another. The approach that the regulatory body and the authorities to issue licenses relevant to the nuclear power plant operation

  16. Problems faced by Bangladesh in introduction of nuclear power programme

    International Nuclear Information System (INIS)

    Nurul Islam, A.B.M.; Quaiyum, M.A.; Hasnat, K.A.

    1977-01-01

    Bangladesh has one of the lowest per capita energy resources and consumption of energy. The per capita GDP of Bangladesh is also one of the lowest in the world. In view of this situation, the need and importance of nuclear power in providing cheaper and reliable energy for economic development of the country is discussed. Constraints being faced by the Bangladesh Atomic Energy Commission (BAEC) in the initiation and development of a national nuclear power programme are dealt with. Following liberation of the country in 1971, its financial resources were mainly channelled for rehabilitation and restoration of its economy. As the size of the national grid has remained relatively small, unit sizes in the range of 100-200 MWe only could be considered for commissioning during the next decade. Lack of vendor interest in such small sizes and the difficulty of arranging long-term investment for nuclear station are the main constraints being faced by the BAEC. Other bottlenecks are due to the uncertainty about the nature and extent of future economic development, pricing policy for available indigenous fossil fuel, national energy planning criteria which are mainly influenced by financial resource constraint, drainage of trained man-power, national priority for various essential non-development expenditures which use up most of the country's own earnings and foreign aid, etc. The effect of the growth of opposition to nuclear power in developed countries on the public acceptability of nuclear power in Bangladesh is analysed. The paper also examines the prospective growth of a cartel of nuclear-exporting countries and its possible effect upon Bangladesh

  17. Problems faced by Bangladesh in introducing a nuclear power programme

    International Nuclear Information System (INIS)

    Nurul Islam, A.B.M.; Quaiyum, M.A.; Hasnat, K.A.

    1977-01-01

    The per capita energy resources and consumption of energy in Bangladesh are among the lowest in the world as in the per capita GDP of the country. The need for and importance of nuclear power in providing cheaper and reliable energy for economic development of the country is discussed in the light of this situation. The constraints faced by the Bangladesh Atomic Energy Commission (BAEC) in the initiation and development of a national nuclear power programme are detailed. Following the liberation of the country in 1971 its financial resources were mainly channelled to the rehabilitation and restoration of the economy. As the size of the national grid has remained relatively small, unit sizes in the range of 50-200MW(e) only could be considered for commissioning. Lack of vendor interest in such small sizes and the difficulty of arranging long-term investment for nuclear stations are the main constraints faced by the BAEC. Other bottlenecks are due to the uncertainty about the nature and extent of future economic development, pricing policy for available indigenous fossil fuel, and national energy planning criteria, which are mainly influenced by the limited financial resources, national priority for various essential non-development expenditures, which use up most of the country's own earnings and foreign aid, etc. Problems that are likely to be faced in future are discussed. These include public acceptability of nuclear power in Bangladesh, the obstacles to the transfer of nuclear technology that may be erected through the prospective growth of a cartel of nuclear-exporting countries, drainage of trained manpower, etc. (author)

  18. Overview of the United States' nuclear waste repository programme

    International Nuclear Information System (INIS)

    Surles, T.G.

    2002-01-01

    Regardless of the future of civilian or defense-based nuclear materials, the United States will be responsible for a vast array of these materials for generations to come. The cornerstone programme for the disposal of waste materials is the Yucca Mountain Programme. Based on the Nuclear Waste Policy Act of 1982, as amended in 1987, it has been the United States' policy to develop a geological repository for the permanent disposal of radioactive waste materials. This presentation will discuss the process and strategy leading to the present and will include the scientific and management activities required to support the recent Viability Assessment. Also to be discussed are the timeline and milestones leading to the opening of the repository. The focus will be on the scientific and engineering studies required for a successful Site Recommendation, and then for a similarly successful License Application. Both of these activities will require considerable management efforts in addressing legal and regulatory issues. Finally, the presentation will discuss projections for the future operation of the facility, including emplacement projections, coupled with the required locations of nuclear materials. Additional scientific research and engineering studies will also be conducted to determine the longer-term viability of the facility, which is designed, by policy, for permanent storage. Retrievability is currently not an option, although access to the facility will be maintained for several decades. The focus of the discussion will be on the scientific and engineering advances made on understanding the natural systems for preventing migration of radionuclides, coupled with new developments in engineered systems in areas such as cask cladding, drip shields, and related materials engineering developments. The coupling of engineered and natural systems is designed to offer safety factors that are several orders of magnitude greater than what is estimated to be necessary

  19. Radioactivity monitoring programme of Krsko nuclear power plant

    International Nuclear Information System (INIS)

    Miklavzic, U.; Martincic, R.; Kanduc, M.; Lulic, S.; Kovac, J.; Breznik, B.

    1996-01-01

    As a successor to the preoperational surveillance programme, the regular offsite radioactivity monitoring programme (RMP) of the Krsko Nuclear Power Plant (NPP) was implemented in 1982, when the power plant formally commenced operating. Observations collected during the first years of its operation were later also the basis for setting up the official 'Regulatory guide on monitoring of nuclear installations', issued not earlier than in 1986. The basic criterion which governed the selection of measuring methods, sampling techniques and locations, was the extent to which the data obtained could serve for the realistic assessment of the committed dose to a member of the population, and later on to members of a representative (critical) group. To be able to differentiate the radioactivity released through the liquid and gaseous effluents of the NPP from other radiation sources (natural radioactivity, global contamination), and especially because of the varying radiotoxicity of different radionuclides, in principle monitoring in the environment, as at the source, had to provide activity data for each individual radionuclide appearing in the effluents. Therefore, as early as 1982 the programme attributed the main weight to high resolution gamma spectrometry, combined with specific radiochemical analytical methods (e.g. 90 Sr/ 89 Sr, 3 H, 14 C, alpha spectrometry of Pu isotopes) which together made feasible determination of individual specific activities of the most significant man-made and natural radionuclides. By weighting the specific activities of the radionuclides identified and measured in the media surveyed by dose factors for intake, the quantity 'B' - the so-called 'radiological burden', was calculated and introduced in the yearly-summary tables. Expressed in relative units, from which the committed dose could be readily calculated, the burden B very lucidly disclosed the relative importance of different artificial pollutants and natural radioactivity present in

  20. China: the long wait. [Developments in the nuclear power programme

    Energy Technology Data Exchange (ETDEWEB)

    1990-03-01

    The repercussions of Tiananmen Square coupled with worse than expected balance of payments problems have been made it even more difficult than usual to discern the likely future direction of China's nuclear power programme. Currently there are three power reactors under construction, an indigenously designed 300MWe PWR at Qinsham and the two 900MWe Framatome units at Daya Bay, Guang-dong. Prior to the events of June the most likely way forward, beyond these units under construction, appeared to be development of 600MWe units for Chinese conditions in a joint venture with Western companies. There are strong pressures to ''go indigenous'', and attempt to develop a home grown 600MWe design or, perhaps more likely, go for repeats of the 300 MWe plant - assuming it can be operated successfully, a point on which some factions of the Chinese nuclear industry have their doubts. Nuclear district heating still has strong advocates, as an environmentally sound way of meeting the country's huge projected increases in primary energy consumption over the coming years. Construction of a 5MWt district heating reactor at Tsinghua University, Beijing, started in 1986, entered operation at the end of 1989 following a test phase and is now supplying 3MWt to heating of university buildings. (author).

  1. An overview of the need of manpower supply for a nuclear programme

    International Nuclear Information System (INIS)

    Palabrica, R.J.

    1981-01-01

    The present paper deals with the need for trained manpower and special features of nuclear power affecting manpower requirements and gives a manpower loading schedule for the different nuclear power activities and programmes for manpower development. (orig./RW)

  2. Programmable quantum-state discriminator by nuclear magnetic resonance

    International Nuclear Information System (INIS)

    Gopinath, T.; Das, Ranabir; Kumar, Anil

    2005-01-01

    A programmable quantum-state discriminator is implemented by using nuclear magnetic resonance. We use a two-qubit spin-1/2 system, one for the data qubit and one for the ancilla (program) qubit. This device does the unambiguous (error-free) discrimination of a pair of states of the data qubit that are symmetrically located about a fixed state. The device is used to discriminate both linearly polarized states and elliptically polarized states. The maximum probability of successful discrimination is achieved by suitably preparing the ancilla qubit. It is also shown that the probability of discrimination depends on the angle of the unitary operator of the protocol and ellipticity of the data qubit state

  3. Bipolar programmable current supply for superconducting nuclear magnetic resonance magnets

    Science.gov (United States)

    Koivuniemi, Jaakko; Luusalo, Reeta; Hakonen, Pertti

    1998-09-01

    In high resolution continuous-wave nuclear magnetic resonance (NMR) work well-reproducible, linear sweeps of current are needed. We have developed a microcontroller based programmable current supply, tested with superconducting magnets with inductance of 10 mH and 10 H. We achieved a resolution and noise of 4 ppm. The supply has an internal sweep with programmable ramping rate and a possibility for remote operation from a computer with either GPIB or RS232 interface. It is based on an 18-bit D/A converter. The maximum output current is ±10 A, the sweep rate can be set between 1 μA/s-140 mA/s, and the maximum output voltage is ±2.5 V. In work at ultralow temperatures, especially in superconducting quantum interference device NMR, all rf interference to the experiment should be avoided. One of the sources of this kind of unwanted input is the digital switching noise of fast logic devices. We discuss this problem in the context of our design.

  4. Occupational exposures at nuclear power plants. Fourteenth annual report of the ISOE programme, 2004

    International Nuclear Information System (INIS)

    2006-01-01

    The ISOE Programme was created by the OECD Nuclear Energy Agency in 1992 to promote and co-ordinate international co-operative undertakings in the area of worker protection at nuclear power plants. The programme provides experts in occupational radiation protection with a forum for communication and exchange of experience. The ISOE databases enable the analysis of occupational exposure data from 478 operating and shutdown commercial nuclear power plants participating in the programme (representing some 90% of the world's total operating commercial reactors). The Fourteenth Annual Report of the ISOE Programme summarises achievements made during 2004 and compares annual occupational exposure data. Principal developments in ISOE participating countries are also described. (author)

  5. Occupational exposures at nuclear power plants. Eleventh annual report of the Isoe programme, 2001

    International Nuclear Information System (INIS)

    2002-01-01

    The ISOE Programme was created by the OECD Nuclear Energy Agency in 1992 to promote and co-ordinate international co-operative undertakings in the area of worker protection at nuclear power plants. The programme provides experts in occupational radiation protection with a forum for communication and exchange of experience. The ISOE databases enable the analysis of occupational exposure data from the 452 commercial nuclear power plants participating in the programme (representing some 90 per cent of the world's total operating commercial reactors). The Eleventh Annual Report of the ISOE Programme summarises achievements made during 2001 and compares annual occupational exposure data. Principal developments in ISOE participating countries are also described. (author)

  6. The Problems of Controlling Defects in the Materials Used for the First Czechoslovak Nuclear-Power Station; Problemes de Controle des Defauts dans les Materiaux Utilises a la Premiere Centrale Nucleaire de Tchecoslovaquie; Problemy defektoskopicheskogo kontrolya stroitel'nykh materialov reaktora pervoj chekhoslovatskoj atomnoj ehlektrostantsii; Problemas de Control de Defectos en los Materiales Utilizados en la Primera Central Nuclear de Checoslovaquia

    Energy Technology Data Exchange (ETDEWEB)

    Radislav, Filipp [Zavody Im.V.I. Lenina, Pl' zen, Czechoslovakia (Czech Republic)

    1965-09-15

    The paper briefly describes the reactor vessel of the first Czechoslovak nuclear power station. In order to meet the stringent design and structural requirements involved in fabricating the reactor vessel, which consists of low-alloy, non-aging steel of considerable thickness (650 mm), it was necessary to devise a ''control'' method for non-destructive testing of the basic material and welded joints. The ultrasonic pulse method, using one probe, is used extensively in testing the quality of the basic material and welded joints. The paper describes the methods used for carrying out tests and interpreting the results during the investigation of the basic material, and the methods for testing the quality of molten-slag arcless electric welds, carbon-dioxide welds, and manual arc welds. An automatic flaw-detection apparatus made in Czechoslovakia is used to test flat forgings and rolled products. The apparatus consists of two parts: a travelling mechanism and a UID-A2 ultrasonic flaw-detector made in Czechoslovakia. The apparatus incorporates a number of new features. The effect of distance on the height of the defect signal pulse is compensated and the height remains constant. The effect of irregularity of the acoustic link is also compensated since the data-unit conveys pulses to the remote recording device. An attenuator is used to determine the size of the flaw. An automatic apparatus is now being developed for testing on a vertical cylindrical surface. Assembly welds on circumferences must be tested at a high temperature. In the V.I. Lenin Plant at Pilsen a special data-unit has been developed for this purpose which makes it possible to carry out tests at elevated temperatures with a high degree of accuracy. Non-destructive tests of welded structures are also carried out using radiography. The testing of thin longitudinal seam welds and their roots at a high temperature is carried out with an X-ray unit with circular radiation characteristics, using special

  7. International guidance on the establishment of quality assurance programmes for radioactivity measurement in nuclear medicine

    Energy Technology Data Exchange (ETDEWEB)

    Zimmerman, B.E. [Dosimetry and Medical Radiation Physics Section, Division of Human Health, International Atomic Energy Agency, Wagramer Strasse 5, P.O. Box 200, A-1400 Vienna (Austria)]. E-mail: b.zimmerman@iaea.org; Herbst, C. [Department of Medical Physics, University of the Free State, Geneeskundige Fisika G 68, Bloemfontein 9300 (South Africa); Norenberg, J.P. [College of Pharmacy, 2502 Marble, NE MSC09 5360, University of New Mexico, Albuquerque 87131 (United States); Woods, M.J. [Ionizing Radiation Consultants, Ltd., 152 Broom Road, Teddington, Middlesex TW11 9PQ (United Kingdom)

    2006-10-15

    A new guidance document for the implementation of quality assurance (QA) programmes for nuclear medicine radioactivity measurement, produced by the International Atomic Energy Agency, is described. The proposed programme is based on the principles of ISO 17025 and will enable laboratories, particularly in developing countries, to provide consistent, safe and effective radioactivity measurement services to the nuclear medicine community.

  8. International guidance on the establishment of quality assurance programmes for radioactivity measurement in nuclear medicine

    International Nuclear Information System (INIS)

    Zimmerman, B.E.; Herbst, C.; Norenberg, J.P.; Woods, M.J.

    2006-01-01

    A new guidance document for the implementation of quality assurance (QA) programmes for nuclear medicine radioactivity measurement, produced by the International Atomic Energy Agency, is described. The proposed programme is based on the principles of ISO 17025 and will enable laboratories, particularly in developing countries, to provide consistent, safe and effective radioactivity measurement services to the nuclear medicine community

  9. Qualification and training of personnel for nuclear equipment programmes

    International Nuclear Information System (INIS)

    Montagnier, S.

    1980-01-01

    The Equipment Department of Electricite de France has the task of designing, co-ordinating the construction of and commissioning the power stations required to feed the grid as part of the country's energy policity. The French nuclear programme may seem ambitious - 35.000 to 40.000 MW in service by 1985 - but it should be remembered that the first nuclear power plant construction in France goes back more than 20 years and that, as a result of this, the Equipment Department already has qualified staff at its disposal. Hence the proposed training activities take into account the educational background of such personnel and the number of persons concerned. These activities can be divided into (1) the professional orientation phase, intended for recently recruited staff members and consisting of discussion and instruction seminars aimed at facilitating the induction of the young recruit into EDF's departments, and (2) the training and retraining phase, intended for all staff in accordance with each person's particular job and made up, as the case may be, of courses in new theoretical knowledge, updating of previous knowledge, often accompanied by extensive practical work in the field, discussion of working methods, study of new operational techniques, and so forth. The teaching methods adopted naturally take into account the professional level of the trainees and are therefore usually 'active' or 'semi-active', entailing groups of the order of 12 persons, with effective participation by their supervisors. (author)

  10. IAEA programme on nuclear fuel cycle and materials technologies - 2009

    International Nuclear Information System (INIS)

    Killeen, J.

    2009-01-01

    In this paper a brief description and the main objectives of IAEA Programme B on Nuclear fuel cycle are given. The following Coordinated Research Projects: 1) Delayed Hydride Cracking (DHC); 2) Structural Materials Radiation Effects (SMoRE); 3) Water Chemistry (FUWAC) and 4) Fuel Modelling (FUMEX-III) are shortly described. The data collected by the IAEA Expert Group of Fuel Failures in Water Cooled Reactors including information about fuel assembly damage that did not result in breach of the fuel rod cladding, such as assembly bow or crud deposition an the experience with these unexpected fuel issues shows that they can seriously affect plant operations, and it is clear that concerns about reliability in this area are of similar importance today as fuel rod failures, at least for LWR fuel are discussed. Detection, examination and analysis of fuel failures and description of failures and mitigation measures as well as preparation of a Monograph on Zirconium including an overview of Zirconium for nuclear applications, including extraction, forming, properties and irradiation experience are presented

  11. The tenth conference of Czechoslovak physicists

    International Nuclear Information System (INIS)

    Smutny, F.

    1991-01-01

    Delivered at the conference were 4 plenary lectures and 77 symposium lectures; 227 contributions were presented in the poster form. Out of these, 2 plenary lectures, 30 symposium lectures and 45 poster contributions have been inputted in INIS. The coverage of the conference was very wide and included, among other things, nuclear analytical methods, theoretical physics, particles and their wave manifestations, nuclear physics, subnuclear physics, plasma physics, superconductivity, etc. (Z.S.)

  12. The Text of the Agreement between the Czechoslovak Socialist Republic and the Agency for the Application of Safeguards in Connection with the Treaty on the Non-Proliferation of Nuclear Weapons. Suspension

    International Nuclear Information System (INIS)

    2007-01-01

    The Agreement of 5 April 1973 between Belgium, Denmark, the Federal Republic of Germany, Ireland, Italy, Luxembourg, the Netherlands, the European Atomic Energy Community and the Agency in implementation of Article III, (I) and (4) of the Treaty on the Non-Proliferation of Nuclear Weapons entered into force for the Slovak Republic on 1 December 2005 [es

  13. Establishment of radiation protection and safety programme in Nuclear Medicine

    International Nuclear Information System (INIS)

    Chene, E.

    2014-04-01

    Radiation is useful because of its ability to penetrate tissue, allowing imaging of internal structures. However radiation may produce harmful biological effects. Observations of exposed human populations and animal experimentation indicate that exposure to low levels of radiation over a period of time may lead to stochastic radiation effects. Exposures to high levels of radiation above threshold also leads to deterministic effects. Establishment of radiation protection and safety programme and implement it without fail may help prevent deterministic effect and limit chances of stochastic effects. This is achieved by assigning responsibilities to the proposed organizational structure, management commitment to safety culture by providing continuous education and training to employees, regular reviewing and auditing of radiation safety policies. Occupational, public and environmental radiation exposure is further achieved by implementation of set local rules and operational procedures, proper management of radioactive waste and safe transport of radioactive material. Medical radiation exposure is achieved by justified procedures, optimization of doses, guidance levels, quality assurance and quality control programme through image quality, radiopharmaceutical quality and records keeping of radiation doses, calibration certificates of equipment used, equipment service and test certificates. Diagnostic radiopharmaceuticals must deliver the minimum possible radiation dose to the patient while therapeutic radiopharmaceuticals must deliver the maximum dose to the target organ or tissue, while minimizing the dose to non-target tissues such as the bone marrow. Special considerations shall be given to pregnant and breast-feeding patients. The proper facility design and shielding of a nuclear medicine facility shall further provide for the radiation protection to the worker, the patient, public and the environment. Precautions should be given to radioactive patients as there

  14. Development of the national nuclear programme and preparations for the introduction of nuclear power in Hungary

    International Nuclear Information System (INIS)

    Szili, G.; Erdoesi, N.; Varga, I.; Ocsai, M.; Szabo, B.

    1977-01-01

    The paper describes Hungary's energy situation, energy policy and interest in nuclear energy; main targets of the medium-term (by 1990) and long-term (by 2000) nuclear power programme; and preparatory steps for the introduction of nuclear energy. A short technical description is given of the Paks Nuclear Power Station, and of the preparations for construction and erection of Hungary's first nuclear power plant. Fuel supply, basic technical safety aspects and social consequences arising from the plant's erection are discussed. The problems posed by the introduction of nuclear energy which will have to be solved by state administration are summarized. Earlier legislation on projects and works representing radiation danger are described, together with the responsibilities of the various state administrative bodies. Anticipated legal problems are discussed. The participation of Hungarian R and D and design resources in the joint nuclear power development efforts of the CMEA countries is explained and division of design and R and D tasks between various institutes is shown. (author)

  15. RDandD Programme 2010. Programme for research, development and demonstration of methods for the management and disposal of nuclear waste

    Energy Technology Data Exchange (ETDEWEB)

    2010-09-15

    RDandD Programme 2010 presents SKB's plans for research, development and demonstration during the period 2011-2016. SKB's activities are divided into two main areas: the programme for low- and intermediate-level waste (the LILW Programme) and the Nuclear Fuel Programme. Operation of the existing facilities takes place within the Operational Process. RDandD Programme 2010 consists of five parts: Part I Overall plan of action Part II The LILW Programme Part III The Nuclear Fuel Programme Part IV Research for assessment of long-term safety Part V Social science research RDandD Programme 2007 was mainly focused on development of technology to realize the final repository for spent nuclear fuel. The efforts described were aimed at gaining a greater knowledge of long-term safety and compiling technical supporting documentation for applications under the Nuclear Activities Act for the final repository for spent nuclear fuel and under the Environmental Code for the final repository system. Many important results from these efforts are reported in this programme. The integrated account of the results will be presented in applications submitted in early 2011. The regulatory review of RDandD Programme 2007 and its supplement called for clarifications of plans and programmes for the final repository for short-lived radioactive waste, SFR, and the final repository for long-lived waste, SFL. This RDandD Programme describes these plans more clearly

  16. RDandD Programme 2010. Programme for research, development and demonstration of methods for the management and disposal of nuclear waste

    International Nuclear Information System (INIS)

    2010-09-01

    RDandD Programme 2010 presents SKB's plans for research, development and demonstration during the period 2011-2016. SKB's activities are divided into two main areas: the programme for low- and intermediate-level waste (the LILW Programme) and the Nuclear Fuel Programme. Operation of the existing facilities takes place within the Operational Process. RDandD Programme 2010 consists of five parts: Part I Overall plan of action Part II The LILW Programme Part III The Nuclear Fuel Programme Part IV Research for assessment of long-term safety Part V Social science research RDandD Programme 2007 was mainly focused on development of technology to realize the final repository for spent nuclear fuel. The efforts described were aimed at gaining a greater knowledge of long-term safety and compiling technical supporting documentation for applications under the Nuclear Activities Act for the final repository for spent nuclear fuel and under the Environmental Code for the final repository system. Many important results from these efforts are reported in this programme. The integrated account of the results will be presented in applications submitted in early 2011. The regulatory review of RDandD Programme 2007 and its supplement called for clarifications of plans and programmes for the final repository for short-lived radioactive waste, SFR, and the final repository for long-lived waste, SFL. This RDandD Programme describes these plans more clearly

  17. RDandD Programme 2010. Programme for research, development and demonstration of methods for the management and disposal of nuclear waste

    Energy Technology Data Exchange (ETDEWEB)

    2010-09-15

    RDandD Programme 2010 presents SKB's plans for research, development and demonstration during the period 2011-2016. SKB's activities are divided into two main areas: the programme for low- and intermediate-level waste (the LILW Programme) and the Nuclear Fuel Programme. Operation of the existing facilities takes place within the Operational Process. RDandD Programme 2010 consists of five parts: Part I Overall plan of action Part II The LILW Programme Part III The Nuclear Fuel Programme Part IV Research for assessment of long-term safety Part V Social science research RDandD Programme 2007 was mainly focused on development of technology to realize the final repository for spent nuclear fuel. The efforts described were aimed at gaining a greater knowledge of long-term safety and compiling technical supporting documentation for applications under the Nuclear Activities Act for the final repository for spent nuclear fuel and under the Environmental Code for the final repository system. Many important results from these efforts are reported in this programme. The integrated account of the results will be presented in applications submitted in early 2011. The regulatory review of RDandD Programme 2007 and its supplement called for clarifications of plans and programmes for the final repository for short-lived radioactive waste, SFR, and the final repository for long-lived waste, SFL. This RDandD Programme describes these plans more clearly

  18. V. Czechoslovak radiological congress with international participation

    International Nuclear Information System (INIS)

    Papers presented at the conference were mostly focused on radiotherapy of cancer, mainly on the theory and practical experience with the use of fractionated irradiation. Fractionation aims at minimizing damage of the healthy tissue while achieving a sufficient effect on the cancerous tissue. Other topics included radiation hazard problems including the effect of nuclear power plants on the population, fast neutron therapy, the application of radiosensitizers in the treatment of cancer, kinetics and the effect of bone seekers (Ce, Sr, F) on man and experimental animals. (Ha)

  19. The Commission's research action programme on the development of nuclear fission energy

    International Nuclear Information System (INIS)

    1984-01-01

    For its 'Framework Programme 1984-1987' the Commission has defined the major goals for a European Scientific and Technical Strategy. One of the means to reduce the energy dependence of the Community, which is an important objective, is to favour the development of nuclear fission energy. As electricity production by nuclear reactors has reached industrial maturity, the Community activities are directed mainly to safety aspects, in order to ensure the protection of workers and the general public, against hazards linked to operations in the nuclear fuel cycle. A description of the main features of the five sub-programmes on nuclear fission energy is given below; these programmes are: reactor safety; nuclear fuels and actinides research; management of radioactive waste; safeguarding and management of fissile materials; decommissioning of nuclear installations. The research and development work is carried out either by the Commission's Joint Research Center or by organizations and companies of the Member Countries, with the Commission's financial support. (author)

  20. The Community's research and development programme on decommissioning of nuclear installations. Third annual progress report 1987

    International Nuclear Information System (INIS)

    1988-01-01

    This is the third annual progress report of the European Community's programme (1984-88) of research on the decommissioning of nuclear installations. It shows the status of the programme on 31 December 1987. The third progress report describes the objectives, scope and work programme of the 69 research contracts concluded, as well as the progress of work achieved and the results obtained in 1987

  1. The community's research and development programme on decommissioning of nuclear installations. Fourth annual progress report 1988

    International Nuclear Information System (INIS)

    Anon.

    1989-01-01

    This is the fourth annual progress report on the European Community's programme (1984-88) of research on the decommissioning of nuclear installations. It shows the status of the programme at 31 December 1988. The fourth progress report describes the objectives, scope and work programme of the 72 research contracts concluded, as well as the progress of work achieved and the results obtained in 1988

  2. International Conference on Human Resource Development for Nuclear Power Programmes: Building and Sustaining Capacity. Presentations

    International Nuclear Information System (INIS)

    2014-01-01

    The objectives of the conference are to: • Review developments in the global status of HRD since the 2010 international conference; • Emphasize the role of human resources and capacity building programmes at the national and organizational level for achieving safe, secure and sustainable nuclear power programmes; • Discuss the importance of building competence in nuclear safety and security; • Provide a forum for information exchange on national, as well as international, policies and practices; • Share key elements and best practices related to the experience of Member States that are introducing, operating or expanding nuclear power programmes; • Highlight the practices and issues regarding HRD at the organizational and national level; • Highlight education and training programmes and practices; • Emphasize the role of nuclear knowledge management for knowledge transfer and HRD; and • Elaborate on the role and scope of various knowledge networks

  3. Nuclear techniques for toxic elements in foodstuffs. Report on an IAEA co-ordinated research programme

    International Nuclear Information System (INIS)

    1994-01-01

    The document includes 10 final reports on the IAEA Co-ordinated Research Programme on Nuclear Techniques for Toxic Elements in Foodstuffs. A separate abstract was prepared for each report. Refs, figs and tabs

  4. Nuclear techniques for toxic elements in foodstuffs. Report on an IAEA co-ordinated research programme

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1994-12-31

    The document includes 10 final reports on the IAEA Co-ordinated Research Programme on Nuclear Techniques for Toxic Elements in Foodstuffs. A separate abstract was prepared for each report. Refs, figs and tabs.

  5. Programme

    OpenAIRE

    Hobday, E, fl. 1905, artist

    2003-01-01

    A photograph of an illustrated programme listing dances. The illustration shows a snake charmer playing to a snake while another man watches. Buildings and trees can be seen behind a wall in the distance. In the lower right-hand corner of the programme is the signature 'E. Hobday'. The programme is almost certainly related to the Punjab Ball, Lahore. It is placed next to the Punjab Ball Menu in the album and the Menu is also illustrated by 'E. Hobday'.

  6. The TACIS Nuclear Programme: Assistance in Upgrading Russian Nuclear Power Stations - An Overview of the Individual Projects in the Internet

    International Nuclear Information System (INIS)

    Bieth, Michel; Schoels, Hubert

    2006-01-01

    The European Union' TACIS1 programme has been established for the New Independent States (NIS), among them in the Russian Federation since 1991. One priority of TACIS funding is Nuclear Safety. The European Commission has made available a total of 944 Million Euros for nuclear safety programmes covering the period 1991-2003. The TACIS nuclear safety programme is devoted to the improvement of the safety of Soviet designed nuclear installations in providing technology and safety culture transfer. JRC is carrying out works in the following areas: On-Site Assistance for TACIS operating Nuclear Power Plants; Design Safety and Dissemination of TACIS results; Reactor Pressure Vessel Embrittlement for VVER; Regulatory Assistance; Industrial Waste Management; Nuclear Safeguards; All TACIS projects, dealing with these areas of activity are now available in so called Project Description Sheets (PDS) or Project Results Sheets (PRS) in the Internet for everybody. JRC has created in the Internet an easy to open and to browse database which contains the result of works in relation to the above mentioned nuclear activities. This presentation gives an on-line overview of the app. 430 projects which have been implemented so far since the outset of the TACIS Nuclear Programme in the Russian Federation, which is representative to the other CIS countries, benefiting from the TACIS. The presentation will mainly consist of an on-line-demonstration of the TACIS Nuclear WEB Page, created by JRC. (authors)

  7. Guidelines on Devising a Programme for Competence Acquisition and Development among Nuclear Regulators

    International Nuclear Information System (INIS)

    2016-12-01

    This publication provides the outline of a programme to strengthen regulatory competences, based on the operating experience of countries with a developed nuclear programme and which are members of the Forum of Radiological and Nuclear Regulatory Agencies (FORO). The guidelines are designed to optimize the resources of the Ibero-American region and they complement and supplement the IAEA’s Safety Reports Series No. 79 as a frame of reference.

  8. Guidelines on Devising a Programme for Competence Acquisition and Development among Nuclear Regulators (Spanish Edition)

    International Nuclear Information System (INIS)

    2016-05-01

    This publication provides the outline of a programme to strengthen regulatory competences, based on the operating experience of countries with a developed nuclear programme and which are members of the Forum of Radiological and Nuclear Regulatory Agencies (FORO). The guidelines are designed to optimize the resources of the Ibero-American region and they complement and supplement the IAEA’s Safety Reports Series No. 79 as a frame of reference.

  9. Consideration of the legal system required for achievement of current nuclear power plant construction programmes

    International Nuclear Information System (INIS)

    Castellon Fernandez, E.; Forum Atomico Espanol, Madrid)

    1976-01-01

    The extensive nuclear power plant construction programmes currently in progress in western countries require updating of the legislation in force in this field, especially as regards the following: acquisition of the sites necessary by means of a national planning programme of available sites; simplification of formalities concerning issuance of administrative licenses; revision of the principle of absolute and exclusive liability of the nuclear operator which forms the basis of the third party liability system for nuclear damage; radioactive waste management and decommissioning of nuclear plants. Furthermore, this new legislation should be harmonized between the different countries concerned. (N.E.A.) [fr

  10. 12th Czechoslovak seminar on plasma physics and technology

    International Nuclear Information System (INIS)

    1983-03-01

    The 12th Czechoslovak seminar on plasma physics and technology was oriented mainly to the problems of high-temperature plasmas and controlled thermonuclear fusion. The proceedings contain 27 invited papers and communications presented in three sections: 1) Inertial controlled fusion, 2) Tokamaks, 3) Theory and miscellaneous topics. The first group of papers deals with various problems of electron-beam, ion-beam, and laser fusion, including physical processes in fusion targets. The tokamak section discusses the latest experimental results achieved in the Russian tokamaks FT-2, Tuman 2-a, T-7 and T-10, in the Czechoslovak tokamak TM-1-MH, and in the Hungarian tokamak MT-1. A detailed survey is presented of work on neutral atom injectors in Novosibirsk. In the third section several papers on theoretical studies of nonlinear and turbulent processes in a hot plasma are presented together with a simulation study of a hybrid tokamak reactor. Several contributions on special diagnostic methods are presented. (J.U.)

  11. Nuclear knowledge management in radioactive waste management programmes

    International Nuclear Information System (INIS)

    Vetere, Claudia L.; Gomiz, Pablo R.; Lavalle, Myriam; Masset, Elvira

    2015-01-01

    In late 2007, the Nuclear Knowledge Management (NKM) group of the Argentine Atomic Energy Commission (CNEA), understanding the need to preserve knowledge related with radioactive waste, formulated the CONRRaD Project with the aim of developing and implementing a sustainable knowledge management system. The CONRRaD Project was highly focused on minimising the loss of radioactive waste management knowledge related to processes and facilities as a consequence of staff ageing and retiring, promoting transfer and preservation so as to ensure that future generations interpret and improve the management of waste, protecting the environment and people's health. The National Programme for Radioactive Waste Management (NPRWM) has the responsibility of maintaining a documented record system to preserve the knowledge that is available and relates to the facilities for radioactive wastes treatment, conditioning, packaging, storing and disposal of low-level radioactive wastes. The STOReR system has been designed with the aim of ensuring traceability through all the steps of radioactive waste management from generation to storage or disposal. Apart from upgrading an application in use since 2001, the new software includes improvements in the inventory calculations according to the current regulations. Basically, the system consists of two applications. One application called PAGE is on the Net and it is available for the producers. These producers are the facilities that generate radioactive waste as a consequence of their normal operation. PAGE enables the producers to access all the services provided by AGE more easily. Not only are producers the users of PAGE, but there are also authorised owners of radioactive sources and devices because AGE provides transitory or permanent storage of these elements. The other application called STOReR is the main one which provides the capabilities needed to support the whole system, such as the databases storage and management. STORe

  12. The European Community's research and development programme on the decommissioning of nuclear installations

    International Nuclear Information System (INIS)

    Skupinski, E.

    1988-01-01

    The Commission of the European Communities (CEC) continued with a second research programme on the decommissioning of nuclear installations (1984-88), after having completed a first programme on the decommissioning of nuclear power plants (1979-83). The programme, which has about 70 research contracts with organisations or private firms in the member states, includes the development and testing of advanced techniques, such as decontamination and dismantling, and the consideration of the radioactive waste arising therefrom. Work is done at laboratory scale or in the context of large-scale decommissioning operations. The paper will give an overview on the technical content and on some selected results. (author)

  13. Establishing the quality assurance programme for a nuclear power plant project

    International Nuclear Information System (INIS)

    1984-01-01

    This Safety Guide provides requirements, recommendations and illustrative examples for establishing the overall quality assurance programme, and its constituent programmes, for a nuclear power plant project. It also provides guidance on the planning and documenting of programme plans and actions that are intended to ensure the achievement of the appropriate quality throughout the design, procurement, manufacture, construction, commissioning, operation and decommissioning of the nuclear power plant. The provisions of this Safety Guide are applicable to all organizations performing activities affecting the quality of items important to safety, such as designing, purchasing, fabricating, manufacturing, handling, shipping, storing, cleaning, erecting, installing, testing, commissioning, operating, inspecting, maintaining, repairing, refuelling, modifying and decommissioning

  14. The Iranian nuclear programme-an equation with many unknowns; Le programme nucleaire iranien, une equation aux multiple inconnues

    Energy Technology Data Exchange (ETDEWEB)

    Hamel, T. [Universite Robert Schuman, 67 - Strasbourg (France)

    2007-07-15

    So, is Iran a threat or a victim? Although it has no previous history of aggression, Iran continues to disturb the international community with its nuclear programme, while declaring that it is under threat from its neighbours and the victim of propaganda. Yet why does a country with such large reserves of oil and gas need a nuclear industry? This question arose as long ago as the early 1970, and it arises again today. The Shah was a Gaullist, Khomenei a Gaullist ayatollah, and today it is not the Ayatollah but the Gaullist posture that is the more disturbing. A Blairite ayatollah will surely suit Washington nicely. (author)

  15. The nuclear engineering programmes at the Royal Military College of Canada. Part I

    Energy Technology Data Exchange (ETDEWEB)

    Bonin, H.W. [Royal Military College of Canada, Dept. of Chemistry and Chemical Engineering, Kingston, Ontario (Canada)

    2002-05-01

    The last years have been eventful for the staff and students in the nuclear engineering programmes at the Royal Military College of Canada (RMC) in Kingston, Ontario. Among the several changes is the accessibility of the graduate programmes to civilian (Canadian citizens) students, a fact that is little known outside RMC since, in the past, these graduate programmes were intended only for military personnel. Another major event is the accreditation of the graduate programmes offered by the Department of Chemistry and Chemical Engineering(chemical, nuclear and environmental science and engineering) by the Ontario Council of Graduate Studies. The teaching and research staff share the following research areas: radiochemistry and neutron activation analysis, radiation effects on materials, radiation processing of polymers, neutron radiography, nuclear reactor simulation, analysis and design, CANDU fuel bundle optimal design, nuclear fuel cycles and management, nuclear fuel engineering and behaviour, including fission product release modelling, artificial intelligence applications to nuclear systems, nuclear accident response, nuclear radiation detection and measurement, health physics, dosimetry and radiation protection and nuclear reactor control.

  16. The nuclear engineering programmes at the Royal Military College of Canada. Part I

    International Nuclear Information System (INIS)

    Bonin, H.W.

    2002-01-01

    The last years have been eventful for the staff and students in the nuclear engineering programmes at the Royal Military College of Canada (RMC) in Kingston, Ontario. Among the several changes is the accessibility of the graduate programmes to civilian (Canadian citizens) students, a fact that is little known outside RMC since, in the past, these graduate programmes were intended only for military personnel. Another major event is the accreditation of the graduate programmes offered by the Department of Chemistry and Chemical Engineering(chemical, nuclear and environmental science and engineering) by the Ontario Council of Graduate Studies. The teaching and research staff share the following research areas: radiochemistry and neutron activation analysis, radiation effects on materials, radiation processing of polymers, neutron radiography, nuclear reactor simulation, analysis and design, CANDU fuel bundle optimal design, nuclear fuel cycles and management, nuclear fuel engineering and behaviour, including fission product release modelling, artificial intelligence applications to nuclear systems, nuclear accident response, nuclear radiation detection and measurement, health physics, dosimetry and radiation protection and nuclear reactor control

  17. History of the development and manufacture of Czechoslovak high-frequency linear electron accelerators

    International Nuclear Information System (INIS)

    Cerny, R.

    2007-01-01

    The paper is structured as follows: History of linear accelerators worldwide (beginnings); Development of the Czechoslovak high-frequency linear electron accelerator (Layout and working principle; The first model of the accelerator and the Faculty of Technical and Nuclear Physics and cooperation with the Research Institute for Vacuum Electronics (VUVET); Continuing development of the accelerator at VUVET); Construction of linear accelerators at VUVET and their application (Construction of the accelerating unit; UR 4/1200 accelerator for radiation technology tests at VUVET; UR 4PR ('LUPUR') accelerator for the Nuclear Research Institute at Rez; UR 4/1200 technological accelerator for the Nuclear Research Institute at Rez; LPR4 accelerator for the Hungarian Academy of Sciences; L 4/1200 accelerators for the Research Institute of Cables and Insulators in Bratislava, CKD Semiconductors in Prague, Animal Feed Research Institute at Ivanka pri Dunaji, and Synthesia Semtin). Appendix contains paragraphs devoted to the Accelerator Dept. staff and equipment, key accelerator spare parts, and radiation safety at the accelerator department, (P.A.)

  18. Versatile pulse programmer for pulsed nuclear magnetic resonance spectroscopy

    International Nuclear Information System (INIS)

    Adduci, D.J.

    1979-05-01

    A description of the sequence of events and the decisions leading to the design of a versatile pulse programmer for pulsed NMR are presented. Background and application information is discussed in order that the reader might better understand the role of the pulse programmer in a NMR spectrometer. Various other design approaches are presented as a basis for comparison. Specifications for this design are proposed, the hardware implementation of the specifications is discussed, and the software operating system is presented

  19. Versatile pulse programmer for pulsed nuclear magnetic resonance spectroscopy

    Energy Technology Data Exchange (ETDEWEB)

    Adduci, D.J.

    1979-05-01

    A description of the sequence of events and the decisions leading to the design of a versatile pulse programmer for pulsed NMR are presented. Background and application information is discussed in order that the reader might better understand the role of the pulse programmer in a NMR spectrometer. Various other design approaches are presented as a basis for comparison. Specifications for this design are proposed, the hardware implementation of the specifications is discussed, and the software operating system is presented.

  20. Developing a Science and Technology Centre for Supporting the Launching of a Nuclear Power Programme

    International Nuclear Information System (INIS)

    Badawy, I.

    2013-01-01

    The present investigation aims at developing a science and technology centre for supporting the launching of a nuclear power [NP] programme in a developing country with a relatively high economic growth rate. The development approach is based on enhancing the roles and functions of the proposed centre with respect to the main pillars that would have effect on the safe, secure and peaceful uses of the nuclear energy -particularly- in the field of electricity generation and sea-water desalination. The study underlines the importance of incorporating advanced research and development work, concepts and services provided by the proposed centre to the NP programme, to the regulatory systems of the concerned State and to the national nuclear industry in the fields of nuclear safety, radiation safety, nuclear safeguards, nuclear security and other related scientific and technical fields including human resources and nuclear knowledge management.

  1. Human Resource Development for Introducing and Expanding Nuclear Power Programmes. Summary of an International Conference

    International Nuclear Information System (INIS)

    2012-01-01

    Currently, the world is witnessing a resurgence of interest in nuclear power. More than fifty Member States, with support from the IAEA, are considering the introduction of nuclear power, and human resource development is one of the crucial areas in terms of requests for support. The need for human resources in the nuclear sector is not only experienced by countries embarking on new nuclear power programmes, but also by countries with existing programmes that are considering expansion, as many current professionals are approaching retirement age and the number of newly trained staff is generally not sufficient to meet the potential demand. The IAEA conference on Human Resource Development for Introducing and Expanding Nuclear Power Programmes was held from 14 to 18 March 2010 in Abu Dhabi, hosted by the Government of the United Arab Emirates. This conference was organized to address work force issues faced by countries which are embarking on new nuclear power programmes, expanding current programmes or planning to supply nuclear technology to other countries. The situation is different for each country; some need to develop their own local expertise, while others need to scale up existing educational and training programmes to increase the number of professionals. The purpose of this conference was to bring together Member States to help formulate country specific policies on human resource development, education, training and knowledge management to help support each country's nuclear power programme. In addition, the IAEA can facilitate better use of other educational opportunities, including research reactors and development of training facilities. These proceedings highlight the key findings and recommendations of the meeting and the conclusions of the chairperson. All papers presented and discussed during the meeting are included on the attached CD-ROM. To access the papers, click on 'Index' on the CD-ROM.

  2. Human Resource Development for Introducing and Expanding Nuclear Power Programmes. Summary of an International Conference

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2012-10-15

    Currently, the world is witnessing a resurgence of interest in nuclear power. More than fifty Member States, with support from the IAEA, are considering the introduction of nuclear power, and human resource development is one of the crucial areas in terms of requests for support. The need for human resources in the nuclear sector is not only experienced by countries embarking on new nuclear power programmes, but also by countries with existing programmes that are considering expansion, as many current professionals are approaching retirement age and the number of newly trained staff is generally not sufficient to meet the potential demand. The IAEA conference on Human Resource Development for Introducing and Expanding Nuclear Power Programmes was held from 14 to 18 March 2010 in Abu Dhabi, hosted by the Government of the United Arab Emirates. This conference was organized to address work force issues faced by countries which are embarking on new nuclear power programmes, expanding current programmes or planning to supply nuclear technology to other countries. The situation is different for each country; some need to develop their own local expertise, while others need to scale up existing educational and training programmes to increase the number of professionals. The purpose of this conference was to bring together Member States to help formulate country specific policies on human resource development, education, training and knowledge management to help support each country's nuclear power programme. In addition, the IAEA can facilitate better use of other educational opportunities, including research reactors and development of training facilities. These proceedings highlight the key findings and recommendations of the meeting and the conclusions of the chairperson. All papers presented and discussed during the meeting are included on the attached CD-ROM. To access the papers, click on 'Index' on the CD-ROM.

  3. Managing Environmental Impact Assessment for Construction and Operation in New Nuclear Power Programmes

    International Nuclear Information System (INIS)

    2014-01-01

    This publication describes the environmental impact assessment (EIA) process, its utilization and the necessary infrastructure for such a process in order to provide a holistic approach for EIA in new nuclear power programmes. It also emphasizes the environmental aspects unique to a nuclear power programme, assuming that a State embarking on such a programme already has an environmental regulatory framework for the industrial projects in place. This publication also describes the phased implementation of the EIA programme in accordance with the phases described in IAEA Nuclear Energy Series No. NG-G-3.1. This publication is addressed to senior managers, project managers or coordinators and technical specialists of government authorities and agencies, including regulatory bodies, operating organizations and supporting industries, and other organizations involved in environmental issues

  4. Initiating nuclear power programmes: Responsibilities and capabilities of owners and operators

    International Nuclear Information System (INIS)

    2009-01-01

    There is an increasing interest in developing nuclear power due to growing energy needs, limitations on natural resources and concern for the environment. However, the introduction and development of nuclear power is a major undertaking. This requires building the necessary national infrastructure to construct and operate nuclear power plants in a safe, secure and technically sound manner. Many IAEA Member States that do not yet have nuclear power programmes have expressed their interest to the IAEA about the possibility of introducing nuclear power plants to help meet their energy needs. To assist these Member States, the IAEA is preparing a series of guides and reports. An overall description of the issues was presented by the IAEA in a brochure entitled Considerations to Launch a Nuclear Power Programme (GOV/INF/2007/2), which was targeted mainly at policy makers. A subsequent IAEA Nuclear Energy Series publication, Milestones in the Development of a National Infrastructure for Nuclear Power (NG-G-3.1), describes 19 infrastructure issues that should be addressed through the three phases of development outlined in the brochure, Considerations to Launch a Nuclear Power Programme. The IAEA is preparing a number of guides addressing these issues. Once a firm decision has been made by a government to proceed with the development of a nuclear programme, a number of organizations must be developed. A key organization for the successful construction and operation of the first nuclear power plant is the owner/operator, who provides ownership and management of the project. The owner/operator must clearly understand what must be done and how it has to act, who are partners and supporters and the corresponding interactions that have to be established. The owner or operator may be state owned or a private company. It may be an existing utility, or a specially established project organization. Its responsibilities include bidding, construction, licensing, commissioning

  5. Disposal of radioactive wastes from Czechoslovak nuclear power plants

    International Nuclear Information System (INIS)

    Neumann, L.

    In gaseous radioactive waste disposal, aerosol particles are filtered and gaseous wastes are discharged in the environment. The filters and filter materials used are stored on solid radioactive waste storage sites in the individual power plants. Liquid radioactive wastes are concentrated and the concentrates are stored. Distillates and low-level radioactive waste water are discharged into the hydrosphere. Solid radioactive wastes are stored without treatment in power plant bunkers. Bituminization and cementation of liquid radioactive wastes are discussed. (H.S.)

  6. The nuclear power safety programme of the International Atomic Energy Agency

    International Nuclear Information System (INIS)

    Rosen, M.

    1981-01-01

    The role of the International Atomic Energy Agency in the field of nuclear power safety is growing. In the period since the Three Mile Island accident, a significant expansion in its nuclear safety programme has taken place. To assure an acceptable safety level world-wide, new emphasis is being placed on the major effort to establish and foster the use of a comprehensive set of internationally agreed safety standards for nuclear power plants. New initiatives are in progress to intensify international co-operative safety efforts through the exchange of information on safety-related operating occurrences, and through a more open sharing of safety research results. Emergency accident assistance lends itself to international co-operation and steps are being taken to establish an emergency assistance programme so the Agency can aid in co-ordinating a timely response to provide, at short notice, help and advice in case of a nuclear power accident. There has been some strengthening of those advisory services which involve missions of international experts primarily to countries with less developed nuclear power programmes, and in conjunction with the Technical Assistance Programme there is a co-ordinated programme for developing countries, involving safety training courses and assistance aimed at promoting an effective national regulatory programme in all countries using nuclear power. This paper discusses the major features of the IAEA activities in nuclear power plant safety. An understanding of the programme and its limitations is essential to its more effective use. Additional initiatives may still be proposed, but the possibilities for international and regional co-operation to assure an adequate level of safety world-wide already exist. (author)

  7. The Communities' research and development programme on decommissioning of nuclear power plants

    International Nuclear Information System (INIS)

    1981-01-01

    This is the first progress report of the European Community's programme (1979-1983) of research on the decommissioning of nuclear power plants. It shows the status of the programme on 31 December 1980. The programme seeks to promote a number of research and development projects as well as the identification of guiding principles. The projects concern the following subjects: long-term integrity of buildings and systems; decontamination for decommissioning purposes; dismantling techniques; treatment of specific waste materials: steel, concrete and graphite; large transport containers for radioactive was produced in the dismantling of nuclear power plants; estimation of the quantities of radioactive wastes arising from decommissioning of nuclear power plants in the Community; influence of nuclear power plant design features on decommissioning

  8. The development of an integrated nuclear fuel-cycle industry to meet the needs of the Italian nuclear power programme

    International Nuclear Information System (INIS)

    Angelini, A.M.; Badolato, G.; Clementel, E.

    1977-01-01

    The paper summarizes the Italian nuclear power station programme, recently approved by the Government, and illustrates the main reasons for the programme, which are in line with those presented at the Geneva Conference in 1971, and which lead to the consideration that nuclear energy is the main source for meeting practically all new electric power requirements in Italy. The implementation of this programme involves considerable nuclear fuel-cycle services, ranging from uranium supply to waste disposal. The industrial strategy to meet these needs is discussed. Technical and economic factors affecting such strategy, both for the fuel cycle as a whole and for its individual phases, are considered. Attention is focused on problems typical of the Italian situation and on various ways of solving them. A prominent feature of the Italian situation is the lack of sizeable domestic uranium resources, which makes it even more important to try, by local industrial efforts, to cover the phases of the cycle subsequent to uranium supply, so as to increase as much as possible the fraction of added value produced inside the country. The present status of the Italian nuclear fuel-cycle industry is reviewed in detail, and its capability of supporting the nuclear programme is analysed. Future development plans are discussed, taking into account the possibility of European co-operation. While the focus is on short- and medium-term programmes, the long-term nuclear programmes are discussed, such as those based on fast breeders, and stress is laid on the need to build up as quickly as possible a strong nuclear fuel-cycle industry. (author)

  9. Implementation of accident management programmes in nuclear power plants

    International Nuclear Information System (INIS)

    2004-01-01

    good practices and developments in Member States and is intended as reference material for NPPs, as well as an information source for other organizations such as regulatory bodies. It is a follow-up to the IAEA report on Accident Management Programmes in Nuclear Power Plants, published in 1994, and reflects the considerable progress made since that time. The objective of this report is to provide a description of the elements to be addressed by the team responsible for developing and implementing a plant specific AMP at an NPP. Although it is intended primarily for use by NPP operators, utilities and their technical support organizations, it can also facilitate preparation of the relevant national regulatory requirements. Important event sequences that may lead to severe accidents shall be identified using a combination of probabilistic methods, deterministic methods and sound engineering judgement. These event sequences shall then be reviewed against a set of criteria aimed at determining which severe accidents should be addressed in the design. Potential design or procedural changes that could either reduce the likelihood of these selected events, or mitigate their consequences, should these selected events occur, shall be evaluated, and shall be implemented if reasonably practicable. Consideration shall be given to the plant full design capabilities, including the possible use of some systems (i.e. safety and non-safety systems) beyond their originally intended function and anticipated operating conditions, and the use of additional temporary systems to return the plant to a controlled state and/or to mitigate the consequences of a severe accident, provided that it can be shown that the systems are able to function in the environmental conditions to be expected. For multiunit plants, consideration shall be given to the use of available means and/or support from other units, provided that the safe operation of the other units is not compromised. Accident management

  10. Periodic safety review of operational nuclear power plants. A publication within the NUSS programme

    International Nuclear Information System (INIS)

    1994-01-01

    This Safety Guide which supplements the IAEA Safety Fundamentals: The Safety of Nuclear Installations and the Code on the Safety of Nuclear Power Plants: Operation, forms part of the Agency's programme, referred to as the NUSS programme, for establishing Codes and Guides relating to nuclear power plants. A list of NUSS publications is given at the end of this book. This Guide was drafted on the basis of a systematic review approach that was endorsed by the IAEA Conference on the Safety of Nuclear Power: Strategy for the Future. The purpose of this Safety Guide is to provide guidance on the conduct of Periodic Safety Reviews (PSRs) for an operational nuclear power plant. The Guide is directed at both owners/operators and regulators. This Safety Guide deals with the PSR of an operational nuclear power plant. A PSR is a comprehensive safety review addressing all important aspects of safety, carried out at regular intervals. 22 refs, 4 figs

  11. Operational safety review programmes for nuclear power plants. Guidelines for assessment

    International Nuclear Information System (INIS)

    2002-01-01

    The IAEA has been offering the Operational Safety Review Team (OSART) programme to provide advice and assistance to Member States in enhancing the operational safety of nuclear power plants (NPPs). Simultaneously, the IAEA has encouraged self-assessment and review by Member States of their own nuclear power plants to continuously improve nuclear safety. Currently, some utilities have been implementing safety review programmes to independently review their own plants. Corporate or national operational safety review programmes may be compliance or performance based. Successful utilities have found that both techniques are necessary to provide assurance that (i) as a minimum the NPP meets specific corporate and legal requirements and (ii) management at the NPP is encouraged to pursue continuous improvement principles. These programmes can bring nuclear safety benefits to the plants and utilities. The IAEA has conducted two pilot missions to assess the effectiveness of the operational review programme. Based on these missions and on the experience gained during OSART missions, this document has been developed to provide guidance on and broaden national/corporate safety review programmes in Member States, and to assist in maximizing their benefits. These guidelines are intended primarily for the IAEA team to conduct assessment of a national/corporate safety review programme. However, this report may also be used by a country or utility to establish its own national/corporate safety review programme. The guidelines may likewise be used for self-assessment or for establishing a baseline when benchmarking other safety review programmes. This report consists of four parts. Section 2 addresses the planning and preparation of an IAEA assessment mission and Sections 3 and 4 deal with specific guidelines for conducting the assessment mission itself

  12. Joint Czechoslovak-Soviet workshop on current drive in tokamaks

    International Nuclear Information System (INIS)

    1985-10-01

    At the Joint Czechoslovak-Soviet Workshop on Current Drive in Tokamaks, five papers dealing with issues of general interest were presented. In a theoretical paper by Klima and Pavlo a one-dimensional model of the lower-hybrid current drive is described and the results of its analysis are used in a numerical simulation using T-7 tokamak parameters. In the second theoretical paper by Vojtsekhovich, Parail and Pereverzev the influence of the LH wave spectrum on the efficiency of the current drive is studied. Two papers deal with a new microwave system designed for experiments on LHCD in the T-7 tokamak. In particular, the power spectra of new four-waveguide grills are computed. In the last paper the non-inductive start-up of the discharge in the T-7 tokamak by means of electron cyclotron waves is investigated. (J.U.)

  13. Development of nuclear technology through International Technical Cooperation programme: Malaysian experience

    International Nuclear Information System (INIS)

    Ainul Hayati Daud

    1997-01-01

    In the advent of new technologies and knowledge, countries need to rely on one another for progress and development. At the same time, new challenges to development, which are beyond the competence of any country to approach individually, have emerged. These have led to greater need for international co-operation, particularly among the developing countries. In Malaysia, international technical co-operation has contributed significantly towards the development of nuclear technology. Malaysia has received technical assistance through the multilateral, regional and bilateral co-operation. This assistance complements the efforts of the government to meet the primary objectives of science and technology programme, which are; intensification of R and D capacity and applications of technologies, both acquired and developed, in national development. Over the last one and a half decade, more than 70 projects valued almost USD 15 millions, were implemented under the Technical Assistance Programme of the International Atomic Energy Agency and the Bilateral Technical Assistance Programme of Japan and Australia. Malaysia also has benefited from the regional technical co-operation programme such Regional Co-operative Agreement for Asia and Pacific Region, United Nation Department Programme, International Nuclear Co-operation in Asia. While receiving assistance, Malaysia continues to assist other developing countries in their development efforts in the fields of nuclear technology, through the various international co-operation programmes. This report reviews the technical assistance received through the international co-operation and its contributions towards the development of nuclear technology in Malaysia for period 1980 - 1996

  14. The Department of Energy's nuclear R and D programmes [United Kingdom

    International Nuclear Information System (INIS)

    1991-08-01

    This Consultation Document reviews how the United Kingdom Department of Energy's nuclear R and D programmes support the Government's nuclear policy and reaches preliminary conclusions about their future direction. It describes the changes the Department has adopted, and is proposing, to ensure that it is better informed about the nuclear R and D it commissions and that the work is carried out cost-effectively. The areas of research reviewed are: safety; radiological protection; safeguards; reactor technology; fusion; decommissioning and waste management. (author)

  15. Infrastructure needs and organizational aspect of nuclear power programme

    International Nuclear Information System (INIS)

    Villanueva, M.S.

    1996-01-01

    I. Introduction. II. Infrastructure development for nuclear power program: a) pre-requisites and requirements for a nuclear power program; b) long-term national policy for a nuclear power (long-term policy reason; national commitment); c) manpower development (role of academic institutions; practical manpower training); d) laws and regulations (regulatory framework; main national laws and regulations); e) nuclear research and development implementation (researches in the university; long term nuclear R and D program; research reactors); f) functions of government organizations (Atomic Energy Commission (PNRI); Department of Science and Technology; Department of Energy; Department of Education and Culture); g) industrial infrastructure; h) technology transfer (recipients's preparedness); i) safeguards obligations; j) public acceptance activities. III. Stages of nuclear power development (stage 1: planning; stage 2: detailed study and procurement; stage 3: construction; stage 4: operation) IV. Conclusion/Recommendation. (author)

  16. Symposium on nuclear technology in Southern Africa. Final programme [and papers

    International Nuclear Information System (INIS)

    1990-06-01

    The symposium on Nuclear Technology in Southern Africa was organized by the Institution of Nuclear Engineers South Africa Branch. It was held at ESKOM Megawatt Park, June 20 and 21, 1990. The scope of the meeting covered nuclear activities in South Africa including performance and industry perspective of Koeberg, planning for nuclear siting, uranium resources, production and demand, uranium conversion and enrichment, fuel fabrication and post irradiation examination. National nuclear programmes of France, Spain, the United Kingdom and the United States were presented and the pubic acceptance in South Africa discussed. In addition papers dealt with future reactor types of advanced light water reactors and fast breeders, nuclear developments in Europe and Far East and accident management in the US. Developments in Southern Africa concentrated on the role of nuclear energy in the future energy strategy, trends in nuclear licensing and prerequisites for successful nuclear generation. 21 papers are indexed individually

  17. Symposium on nuclear technology in Southern Africa. Final programme [and papers

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1990-06-01

    The symposium on Nuclear Technology in Southern Africa was organized by the Institution of Nuclear Engineers South Africa Branch. It was held at ESKOM Megawatt Park, June 20 and 21, 1990. The scope of the meeting covered nuclear activities in South Africa including performance and industry perspective of Koeberg, planning for nuclear siting, uranium resources, production and demand, uranium conversion and enrichment, fuel fabrication and post irradiation examination. National nuclear programmes of France, Spain, the United Kingdom and the United States were presented and the pubic acceptance in South Africa discussed. In addition papers dealt with future reactor types of advanced light water reactors and fast breeders, nuclear developments in Europe and Far East and accident management in the US. Developments in Southern Africa concentrated on the role of nuclear energy in the future energy strategy, trends in nuclear licensing and prerequisites for successful nuclear generation. 21 papers are indexed individually.

  18. Developing National Capacity to Initiate Nuclear Power Programme

    International Nuclear Information System (INIS)

    Ndontchueng, M.M.

    2014-01-01

    Conclusion: ⇒ Nuclear power is needed for Developing Countries in the long term development strategy; ⇒ Developing Countries are lack of man power for both the NPP projects and the long term nuclear power program; ⇒ A long term HRD program (strategy) is needed to be established, in cooperation with Developed countries; ⇒ Education and training abroad is essential to the technology transfer; ⇒ Establishment of adequate infrastructure supporting HRD (nuclear engineering faculties, research groups, technical support centers) is indispensible for Developing Countries

  19. Needs of countries with limited nuclear power programmes

    International Nuclear Information System (INIS)

    1978-01-01

    The main paper in this working group comes from Austria; it deals with the assurance of long-term supply of nuclear technology and nuclear fuel. Starting from an analysis of the structure of nuclear power programs of small industrialized countries, the paper discusses how supply of services can be assured in these countries during all steps of the fuel cycle. Detailed data and diagrams outline possible solutions under the aspect of production capacities and cost

  20. Workforce planning and knowledge management for new nuclear programmes

    International Nuclear Information System (INIS)

    Molloj, B.; Mazur, T.; ); Kosilov, A.; Pastori, Z.; )

    2010-01-01

    The authors discusses the report Milestones in the Development of a National Infrastructure for Nuclear Power produced by the IAEA to provide guidance on the use of integrated workforce planning as a tool to effectively develop these resources. The report describes three distinct phases in the development of a national infrastructure. It shows how to elaborate a workforce plan for implementing a national nuclear power program. The authors emphasize that the nuclear power field, comprising industry, government authorities, regulators, R and D organizations and educational institutions, relies for its continued success on a specialized, highly trained and motivated workforce. The role of knowledge management in nuclear power is underlined [ru

  1. Evaluation of the Community's nuclear reactor safety research programme

    International Nuclear Information System (INIS)

    Brandstetter, A.; Goedkoop, J.A.; Jaumotte, A.; Malhouitre, G.; Tomkins, B.; Zorzoli, G.B.

    1986-01-01

    This report describes an evaluation of the 1980-85 CEC reactor safety programme prepared, at the invitation of the Commission, by a panel of six independent experts by means of examining the relevant document and by holding hearings with the responsible CEC staff. It contains the recommendations made by the panel on the following topics: the need for the JRC to continue to make its competence in the reactor safety field available to the Community; the importance of continuity in the JRC and shared-cost action programmes; the difficulty of developing reactor safety research programmes which satisfy the needs of users with diverse needs; the monitoring of the utilization of the research results; the maintenance of the JRC computer codes used by the Member States; the spin-off from research results being made available to other industrial sectors; the continued contact between the JRC researchers and the national experts; the coordination of LWR safety research with that of the Member States; and, the JRC work on fast breeders to be planned with regard to the R and D programmes of the Fast Reactor European Consortium

  2. Radiation protection programme at Krsko nuclear power plant

    International Nuclear Information System (INIS)

    Breznik, B.

    1996-01-01

    Krsko NPP, a Westinghouse two-loop PWR of 632 M We power, is in commercial operation since 1982. Reduction of radioactive releases to the environment and the reduction of doses to workers is the basic goal in the plant radiological protection. The radiation protection programme is established to ensure that the radiation exposures to workers and members of the public are minimized according to the As Low As Reasonably Achievable approach and controlled in accordance with international safety standards and Slovenian regulations. The basis for the operational and technical measures has been provided according to the industrial good practice. The effluent control is based on the Standard Radioactive Effluent Technical Specifications, and environmental surveillance is established according to the programme defined by the regulations. The dose constraints and performance indicators are used to assure the effectiveness of the radiation protection programme and provide a convenient follow-up tool. The monitoring programme results of each year show that there is no measurable dose to the public due to radioactive releases. The commitment to the dose burden of any member of a critical group is assessed to be below the dose constraint. Individual and collective doses of the workers are within a range typical for the PWRs of a similar type. (author)

  3. Indian experience in the training of manpower for a nuclear power programme

    International Nuclear Information System (INIS)

    Iyengar, P.K.; Damodaran, K.K.; Sarma, M.S.R.; Wagadarikar, V.K.

    1977-01-01

    In India manpower training for the nuclear power programme started several years before the introduction of nuclear power plants. Early efforts were concentrated on developing manpower in basic sciences related to nuclear power. The setting up of the Bhabha Atomic Research Centre was an important step in this direction. This enabled the first batch of engineers and scientists to be trained on design and operation in the programmes connected with research reactors and use of isotopes in industry, agriculture and medicine. The next step was to establish a Training School in the Centre where young university graduates could be given courses in their own and interconnected disciplines of nuclear sciences. An interdisciplinary approach with teaching by working scientists and engineers and attachment for short periods to the research laboratories is the framework of this training programme. At present about 3000 graduates from this Training School are involved in various capacities in India's nuclear power programme. With the commissioning of the first power reactors, it became necessary to train engineers, scientists and technicians for the operation and maintenance of such systems on a larger scale. For this purpose, a separate training centre at Rajasthan Atomic Power Project was set up. Models, simulators and courses with emphasis on heavy water reactors were introduced. In addition, a number of craftsmen for servicing equipment have also been trained in power station equipment maintenance. The paper describes the development of this programme in its present form. (author)

  4. The role of governmental authorities in the surveillance activities for quality assurance of nuclear power plants

    International Nuclear Information System (INIS)

    Koutsky, J.; Hrdlicka, Z.; Beranek, J.; Becvar, J.

    1982-01-01

    The paper deals with the legal and organizational aspects as well as with the principles and procedures of the quality assurance (QA) system for particular equipment of nuclear power plants in Czechoslovakia, and the role of governmental authorities in surveillance activities. The basic governmental document is the Decree No.5 (1979) of the Czechoslovak Atomic Energy Commission (CzAEC) on the QA of particular equipment in nuclear power plants with regard to nuclear safety. It is divided into ten sections: opening provisions; classification of the particular equipment; QA programmes; procedures of final elaboration of QA programme documentation; QA principles; QA during design; QA during manufacture, procurement, installation and commissioning; in-service inspection; QA during repair and modifications; and concluding provisions. Governmental surveillance is based on Governmental Resolution No.195 (1977). According to this resolution, inspection must be carried out by an organization which is independent of the manufacturing and operating organizations. This inspection is performed by the Czechoslovak Atomic Energy Commission (for nuclear safety) and by the Czech Safety Work Office and the Slovak Safety Work Office (for technical safety), together with subordinated regional divisions. The activities of these authorities are discussed. (author)

  5. The problems of financing a nuclear programme in developing countries

    International Nuclear Information System (INIS)

    Fiancette, G.; Penz, P.

    2000-01-01

    In the free market and deregulation framework financing of nuclear power in developing countries requires solutions different from those applied in the seventies and eighties. The paper presents the financial specificity of nuclear power, project finance concept and the market risk. (author)

  6. Nuclear Power Programme in India—Past, Present and Future

    Indian Academy of Sciences (India)

    India is poised for multifold growth in nuclear power generation to match the needs of sustained economic growth and improving the standard of living for masses. Nuclear power is currently the fourth-largest source of electricity in India after thermal, hydroelectric and renew- able sources of electricity. Thorium utilization for ...

  7. Nuclear and radiation safety assurance federal target programme management system

    International Nuclear Information System (INIS)

    Kryukov, O.V.; Vasil'ev, V.A.; Nikishin, D.A.; Linge, I.I.; Obodinskij, A.N.

    2012-01-01

    The Federal Program Nuclear and Radiation Safety Assurance for 2008-2015 is presented. Specifics of Federal target program management as well as changes to program management are discussed. Data on evaluation of management effectiveness is given. Further efforts to resolve the nuclear legacy problem in Russia are also presented [ru

  8. Nuclear Power Programme in India—Past, Present and Future

    Indian Academy of Sciences (India)

    This is important due to its security in terms of fuel reserves; since India has one of the largest ... of advanced nuclear power systems for utilization of thorium. ... operating water cooled reactors, the country plans to build innovative nuclear ...

  9. IAEA Nuclear Security Programme: The role of information

    International Nuclear Information System (INIS)

    2010-01-01

    Discusses collecting and collating information on needs integrated in Nuclear Security Support Plans and analyzing data on illicit trafficking and nuclear security incidents. Coordination with donor States and international organizations on Illicit trafficking Database reports and other related information provided by states.

  10. Present status and prospects of nuclear power programme in Korea

    International Nuclear Information System (INIS)

    Wan-yong Chon; Byong-whi Lee; Chang-kun Lee

    1987-01-01

    The republic of Korea has made dramatic progress in her economic growth in the last twenty-five years, which had to be supported by annual power increase of typically fifteen (15) percent. The limited domestic energy resources available and also the bitter experience of two oil crises made it necessary that the nation pursue its national nuclear power projects vigourously. Throughout the project execution, however, problems related to nuclear safety have been given the top priority. In the forthcoming KNU Nos. 11 and 12 projects, steadily growing domestic nuclear industries will play major roles in plant design, construction, standardization, and technological self-independence. By the year 2001, the total number of nuclear power plants may reach fourteen, while construction of additional small nuclear power plants for combined cycle district heating may become a reality. Preparation for full-fledged fuel cycle is also underway and necessary amendment to the existing Atomic Energy Act has been enacted. (author)

  11. India's nuclear power programme and constraints encountered in its implementation

    International Nuclear Information System (INIS)

    Sethna, H.N.; Srinivasan, M.R.

    1977-01-01

    Nuclear power development in India is based on the natural uranium fuelled pressurised heavy water reactors. However, in order to acquire early experience in operation and maintenance of nuclear power stations, India's first atomic power station comprised of two units of boiling water reactors. Subsequent nuclear power stations currently in operation or under construction employ natural uranium heavy water reactors and each of the stations is a two reactor installation. While the first two nuclear power stations employ reactors with an output of 235 MW. 500 MW heavy water reactors are visualised for the period beyond 1985. The first nuclear power station was essentially fully imported; the second nuclear power station which employs heavy water reactors already has a significant contribution of equipment manufactured in India. For the third nuclear power station and the subsequent one, practically all equipment is being manufactured indigenously. The nuclear power station at Narora is in a seismic region and hence the design is substantially more advanced than the ones at the earlier sites and also employs concepts which will be used in the 500 MW reactors. Efforts are being made in the country to integrate power generation systems into larger regional grids and eventually into a national grid; however, the distributed nature of power generation at present and other infrastructural limitations still favour small and medium size plants only. The paper brings out the efforts put in over the last ten years in establishing capability for design and manufacture of all equipment and systems required for nuclear power plants. A major constraint in expanding the nuclear power capacity is naturally related to the competing demands on available national resources. The paper also discusses other constraints than purely technological and financial and describes how efforts are being made to overcome these contraints

  12. Main orientations of the JRC nuclear fission programme

    International Nuclear Information System (INIS)

    Haas, Didier

    2009-01-01

    Full text: The European Union has taken the lead in responding to climate change, announcing far-reaching initiatives from promoting energy efficient light bulbs and cars to new building codes, carbon trading schemes, the development of low carbon technologies and greater competition in energy markets. Nuclear energy remains central to the energy debate in Europe. One third of EU electricity is produced via nuclear fission, and eight new reactors are under construction. Traditionally non-nuclear countries are manifesting an interest in building nuclear power plants while the clock is ticking down on Belgium, Germany and the UK's decision to renew or close existing nuclear infrastructures. Sustainability in nuclear energy production is ensured in the medium term due to the large and diverse uranium resources available in politically stable countries around the world. The quantities available with high probability ensure more than hundred year of nuclear energy production. This extrapolation depends however on the forecast for the future nuclear energy production. The use of fast neutron breeder reactors would lead to a much more efficient utilisation of the uranium, extending the sustainable energy production to several thousands of years. The presentation will outline the fast reactors of the new generation currently being developed within the 'Generation IV' initiative. Broad conclusions of the presentation will be that: -There is a growing nuclear renaissance in Europe for good reason; - Nuclear energy is a green and sustainable option for Europe and indeed the world's energy needs; - Nuclear energy is a competitive energy that makes economic sense; - Nuclear fission reactors have a safety and environmental track record that is second to none, yet public misperceptions persist and must be tackled; - Waste management solutions exist while new developments hold great promise; - The evolution and promise of nuclear technologies must also be examined against the

  13. Programme of Preparatory Activities on Launching First Nuclear Power Plant in Croatia

    International Nuclear Information System (INIS)

    Jakic, I.; Lebegner, J.; Perovic, N.

    2010-01-01

    New Croatian energy policy recognizes nuclear energy as solution for rising needs for energy and, thus, opens the possibility to construct first nuclear power plant in Croatia. Within this frame, the Croatian government is developing an implementation programme according to this policy and preparing basis for making decision about construction of nuclear power plant. Croatian parliament is responsible for this decision which is expected by the end of 2012. During this period, stake holders in this project (government, regulatory body and future operator of the plant) have to complete activities of preparatory phase of Croatian Nuclear Energy Programme (CRONEP) project according to methodology recommended by IAEA (International Atomic Energy Agency). This paper defines these activities and estimate the costs of first, preparatory phase based on previous experience of other countries which finished the phase successfully. Also, it describes the potential role of Croatian utility as stake holder due to its experience as co-owner of Nuclear power plant Krsko.(author).

  14. Swedish support programme on nuclear non-proliferation in Central and Eastern Europe and Central Asia

    Energy Technology Data Exchange (ETDEWEB)

    Ek, P.; Andersson, Sarmite [Swedish Nuclear Power Inspectorate, Stockholm (Sweden); Wredberg, L. [ILG Consultant Ltd., Vienna (Austria)

    2000-06-15

    At the request of the Swedish Government, the Swedish Nuclear Power Inspectorate has established a support and co-operation programme in the area of nuclear non-proliferation with Russia and several of the republics of the former Soviet Union. The Programme was initiated in 1991 and an overall goal is to accomplish national means and measures for control and protection of nuclear material and facilities, in order to minimise the risk of proliferation of nuclear weapons and illicit trafficking of nuclear material and equipment. The objective of the Swedish Support Programme is to help each, so called, recipient State to be able to, independently and without help from outside, take the full responsibility for operating a national non-proliferation system and thereby fulfil the requirements imposed through the international legal instruments. This would include both the development and implementation of a modern nuclear legislation system, and the establishment of the components making up a national system for combating illicit trafficking. The support and co-operation projects are organised in five Project Groups (i.e. nuclear legislation, nuclear material control, physical protection, export/import control, and combating of illicit trafficking), which together cover the entire non-proliferation area. Up till June 2000, support and co-operation projects, completed and on-going, have been carried out in ten States, namely Armenia, Azerbaijan, Belarus, Georgia, Kazakstan, Latvia, Lithuania, Moldova, Russia and Ukraine. Furthermore, programmes have been initiated during the first part of 2000 with Estonia, Uzbekistan, Kyrgyzstan and Tajikistan. In addition, assistance has been given to Poland on a specific nuclear material accountancy topic. All projects are done on request by and in co-operation with these States. The total number of projects initiated during the period 1991 to June 2000 is 109, thereof 77 have been completed and 32 are currently on-going. It is the

  15. Swedish support programme on nuclear non-proliferation in Central and Eastern Europe and Central Asia

    International Nuclear Information System (INIS)

    Ek, P.; Andersson, Sarmite; Wredberg, L.

    2000-06-01

    At the request of the Swedish Government, the Swedish Nuclear Power Inspectorate has established a support and co-operation programme in the area of nuclear non-proliferation with Russia and several of the republics of the former Soviet Union. The Programme was initiated in 1991 and an overall goal is to accomplish national means and measures for control and protection of nuclear material and facilities, in order to minimise the risk of proliferation of nuclear weapons and illicit trafficking of nuclear material and equipment. The objective of the Swedish Support Programme is to help each, so called, recipient State to be able to, independently and without help from outside, take the full responsibility for operating a national non-proliferation system and thereby fulfil the requirements imposed through the international legal instruments. This would include both the development and implementation of a modern nuclear legislation system, and the establishment of the components making up a national system for combating illicit trafficking. The support and co-operation projects are organised in five Project Groups (i.e. nuclear legislation, nuclear material control, physical protection, export/import control, and combating of illicit trafficking), which together cover the entire non-proliferation area. Up till June 2000, support and co-operation projects, completed and on-going, have been carried out in ten States, namely Armenia, Azerbaijan, Belarus, Georgia, Kazakstan, Latvia, Lithuania, Moldova, Russia and Ukraine. Furthermore, programmes have been initiated during the first part of 2000 with Estonia, Uzbekistan, Kyrgyzstan and Tajikistan. In addition, assistance has been given to Poland on a specific nuclear material accountancy topic. All projects are done on request by and in co-operation with these States. The total number of projects initiated during the period 1991 to June 2000 is 109, thereof 77 have been completed and 32 are currently on-going. It is the

  16. India's nuclear power programme and constraints encountered in its implementation

    International Nuclear Information System (INIS)

    Sethna, H.N.; Srinivasan, M.R.

    1977-01-01

    Nuclear power development in India is based on natural-uranium fuelled pressurized heavy-water reactors. However, to acquire early experience in operation and maintenance of nuclear power stations, India's first atomic power station comprised two units of boiling-water reactors. Subsequent nuclear power stations currently in operation or under construction employ natural-uranium heavy-water reactors and each is a two-reactor installation. While the first two nuclear power stations employ reactors of 200MW capacity, the subsequent stations employ reactors with an output of 235MW. Heavy-water reactors of 500-MW capacity are foreseen for the period beyond 1985. The first nuclear power station was essentially fully imported: the second, which employs heavy-water reactors, has already made a significant contribution of equipment manufactured in India. For the third nuclear power station and for the subsequent one, practically all equipment is being manufactured indigenously. The nuclear power station at Narora is in a seismic region and hence the design is substantially more advanced than those at the earlier sites and also employs concepts which will be used in the 500-MW reactors. Efforts are being made in India to integrate power generation systems into larger regional grids and eventually into a national grid; however, the distributed nature of power generation at present and other infrastructural limitations still favour small and medium-size plants only. The paper reports the efforts made since the mid-1960s in establishing capability for design and manufacture of all equipment and systems required for nuclear power plants. A major constraint in expanding the nuclear power capacity is naturally related to the competing demands on available national resources. The paper also discusses constraints other than purely technological and financial, and describes the efforts being made to overcome them. (author)

  17. Occupational exposures at nuclear power plants. Twelfth annual report of the Isoe programme, 2002

    International Nuclear Information System (INIS)

    2004-01-01

    The Information System on Occupational Exposure (ISOE) was created by the OECD Nuclear Energy Agency in 1992 to promote and co-ordinate international co-operative undertakings in the area of worker protection at nuclear power plants. The ISOE Programme provides experts in occupational radiation protection with a forum for communication and exchange of experience. The ISOE databases enable the analysis of occupational exposure data from the 465 commercial nuclear power plants participating in the Programme (representing some 90 per cent of the world's total operating commercial reactors). The Twelfth Annual Report of the ISOE Programme summarises achievements made during 2002 and compares annual occupational exposure data. Principal developments in ISOE participating countries are also described. (author)

  18. Nuclear hydrogen production programme in the United States

    International Nuclear Information System (INIS)

    Sink, C.

    2010-01-01

    The Nuclear Hydrogen Initiative (NHI) is focused on demonstrating the economic, commercial-scale production of hydrogen using process heat derived from nuclear energy. NHI-supported research has concentrated to date on three technologies compatible with the Next Generation Nuclear Plant (NGNP): high temperature steam electrolysis (HTE); sulphur-iodine (S-I) thermochemical; and hybrid sulphur (HyS) thermochemical. In 2009 NHI will down select to a single technology on which to focus its future development efforts, for which the next step will be a pilot-scale experiment. (author)

  19. The development and implementation of a public information programme at the Kozloduy nuclear power plant, Bulgaria

    International Nuclear Information System (INIS)

    Parker, Keith

    1998-01-01

    This paper proposes to examine the aims, approach and evaluation of a Public Information Programme currently being undertaken by the British Nuclear Industry Forum. The Kozloduy Nuclear Power Plant has awarded a contract to the British Nuclear Industry Forum to carry out a Public Information Programme with the objective of informing the people of Bulgaria about the content of the Nuclear Safety Account Grant Agreement, the role of the NSA, the role of EBRD and the donor countries in providing the necessary funding, the safety improvement programme being undertaken and the progress being made. The overall aim of the Programme is to build a consensus among energy consumers of the principal issues to be faced in the development and implementation of a Bulgarian energy strategy. There are a number of key elements of the Programme which include: 1) To carry out a communications audit in order to assess current structures and methods of information dissemination. This is to establish the Programme's requirements and provide a detailed operational plan. 2) To assess public opinion and general levels of awareness of the general public, workforce, press, government and industry regarding Kozloduy in order to establish priority messages and create and produce the necessary information material. 3) To review the plant's existing information centre and to provide training and support to facilitate the handling of public and press enquiries and also presentation training for the centre's personnel. 4) To create bespoke outreach programmes which will inform local and national Government, the workforce and local communities, women and schools of safety improvement processes. 5) To implement a media programme which will enable staff at the plant to deal effectively with inquiries and to enable them to anticipate media interest in a range of issues including the safety upgrade. 6) To organise a workshop on issue management so that participants can create and communicate an issue

  20. UK experience of planning the nuclear contribution to the UK power programme

    International Nuclear Information System (INIS)

    Catchpole, S.; Jenkin, F.P.

    1977-01-01

    The paper outlines U.K. experience in planning nuclear programmes. It examines the factors which have determined the size of such programmes together with those factors which have influenced their implementation. The paper also discusses the role which the utility has played in the deployment of nuclear power in the U.K. At present, nuclear energy can only be utilised on a large scale via the electricity route and the forecasting of electricity demand is therefore a key element in determining the size of the nuclear programme. Other important issues which affect the nuclear contribution are: national fuel policies, discontinuities in price and availability of imported fossil fuels, plant capital costs, fuel price relativities, plant siting, rate of introduction of new nuclear systems, manufacturer's capability, public attitudes towards nuclear power and financing. These issues are dealt with in some detail including their relative importance in the U.K. The paper also discusses the contribution of the various nuclear bodies in the U.K. in securing the implementation of the nuclear programmes. From the inception of nuclear power in the U.K., it has been recognised that a major utility has a central role to play not only in commercial operation but also in the procurement of plant and materials. As explained in the paper this ''informed buyer'' approach, which is being increasingly adopted by other major utilities, calls for an organisation and technical infrastructure far more complex than is the case for fossil plants. The requirements of safety, which is unambiguously the responsibility of the utility, and of high availability of plant operation demand a rigorous approach to design, quality assurance, project management, construction and operation. To this must be added sound research and development and staff training facilities. The paper explains how experience in these vital areas has been built up

  1. SAFIR2014. The Finnish Research Programme on Nuclear Power Plant Safety 2011-2014. Interim Report

    Energy Technology Data Exchange (ETDEWEB)

    Simola, K. [ed.

    2013-02-15

    The Finnish Nuclear Power Plant Safety Research Programme 2011-2014, SAFIR2014, is a 4-year publicly funded national technical and scientific research programme on the safety of nuclear power plants. The programme is funded by the State Nuclear Waste Management Fund (VYR), as well as other key organisations operating in the area of nuclear energy. The programme provides the necessary conditions for retaining knowledge needed for ensuring the continuance of safe use of nuclear power, for developing new know-how and for participation in international co-operation. The SAFIR2014 Steering Group, responsible of the strategic alignements of the programme, consists of representatives of the Finnish Nuclear Safety Authority (STUK), Ministry of Employment and the Economy (MEE), Technical Research Centre of Finland (VTT), Teollisuuden Voima Oyj (TVO), Fortum Power and Heat Oy (Fortum), Fennovoima Oy, Lappeenranta University of Technology (LUT), Aalto University (Aalto), Finnish Funding Agency for Technology and Innovation (Tekes), Finnish Institute of Occupational Health (TTL) and the Swedish Radiation Safety Authority (SSM). The research programme is divided into nine areas: Man, organisation and society, Automation and control room, Fuel research and reactor analysis, Thermal hydraulics, Severe accidents, Structural safety of reactor circuits, Construction safety, Probabilistic risk analysis (PRA), and Development of research infrastructure. A reference group is assigned to each of these areas to respond for the strategic planning and to supervise the projects in its respective field. Research projects are selected annually based on a public call for proposals. Most of the projects are planned for the entire duration of the programme, but there can also be shorter one- or two-year projects. The annual volume of the SAFIR2014 programme in 2011-2012 has been 9,5-9,9 M euro. Main funding organisations were the State Nuclear Waste Management Fund (VYR) with over 5 M euro and

  2. SAFIR2014. The Finnish Research Programme on Nuclear Power Plant Safety 2011-2014. Interim Report

    International Nuclear Information System (INIS)

    Simola, K.

    2013-02-01

    The Finnish Nuclear Power Plant Safety Research Programme 2011-2014, SAFIR2014, is a 4-year publicly funded national technical and scientific research programme on the safety of nuclear power plants. The programme is funded by the State Nuclear Waste Management Fund (VYR), as well as other key organisations operating in the area of nuclear energy. The programme provides the necessary conditions for retaining knowledge needed for ensuring the continuance of safe use of nuclear power, for developing new know-how and for participation in international co-operation. The SAFIR2014 Steering Group, responsible of the strategic alignements of the programme, consists of representatives of the Finnish Nuclear Safety Authority (STUK), Ministry of Employment and the Economy (MEE), Technical Research Centre of Finland (VTT), Teollisuuden Voima Oyj (TVO), Fortum Power and Heat Oy (Fortum), Fennovoima Oy, Lappeenranta University of Technology (LUT), Aalto University (Aalto), Finnish Funding Agency for Technology and Innovation (Tekes), Finnish Institute of Occupational Health (TTL) and the Swedish Radiation Safety Authority (SSM). The research programme is divided into nine areas: Man, organisation and society, Automation and control room, Fuel research and reactor analysis, Thermal hydraulics, Severe accidents, Structural safety of reactor circuits, Construction safety, Probabilistic risk analysis (PRA), and Development of research infrastructure. A reference group is assigned to each of these areas to respond for the strategic planning and to supervise the projects in its respective field. Research projects are selected annually based on a public call for proposals. Most of the projects are planned for the entire duration of the programme, but there can also be shorter one- or two-year projects. The annual volume of the SAFIR2014 programme in 2011-2012 has been 9,5-9,9 M euro. Main funding organisations were the State Nuclear Waste Management Fund (VYR) with over 5 M euro and

  3. Karlsruhe Nuclear Research Center. Research and development programme 1988

    International Nuclear Information System (INIS)

    1987-01-01

    A general survey of planned activities and developmental trends of the nuclear research centre is followed by a more detailed account of projects and goals. The various institutes and laboratories are presented together with their specific task schedules. (UA) [de

  4. The stake of the French electro-nuclear programme

    International Nuclear Information System (INIS)

    Boiteux, Marcel

    1975-01-01

    At the end of the century, neither classic resources nor so-called ''new'' energies will be able to satisfy France's energetical needs. According to this statement -and taking into account the progressive reduction of the world petroleum resources -it is estimated that industrialized countries have no other choice than developping nuclear energy. What could be then the consequences for France of such an important option. Strengthening of its energetical independence, saving in foreign currencies and a lowering of its financial load, for the ''nuclear'' KWh is about twice cheaper than the ''classic'' one. Beyond arguments often justified but sometimes also unreasoned feeding the discussion about nuclear option validity it is considered that the real choice to which France is confronted is either to have ressort to nuclear energy - with all the unavoidable problems it raises but having nothing to do with the dismaying descriptions having been made - or to endanger seriously its economic and social development [fr

  5. Karlsruhe Nuclear Research Center. Research and development programme 1989

    International Nuclear Information System (INIS)

    1988-01-01

    The R and D activities of the KfK are classified in 10 main research activities: 1) Project fast breeder; 2) separation nozzle method; 3) project nuclear fusion; 4) project reprocessing and waste processing; 5) ultimate storage; 6) environment and safety; 7) solid-state and materials research; 8) nuclear and elementary particle physics; 9) microtechnics e.g. X-ray lithography; 10) materials handling. (HP) [de

  6. India's nuclear energy programme and future power need

    International Nuclear Information System (INIS)

    Pal, M.K.

    2010-01-01

    Critics of the recently negotiated 123 Nuclear Agreement between India and the United States of America often cite its retrograde effects on India's longstanding policy of non-alignment in foreign relations. The major part of this article will, therefore, is devoted to various aspects of DAE's performance, areas and problems that need more attention, their future plan on stepping up the production of nuclear energy by a big factor beyond their indigenous reach, and the consequent imperative and compulsion of opening the doors to the international market for bulk purchases. India's access to the international market for nuclear energy was barred because of our refusal to sign the nuclear non-proliferation treaty (NPT). Hence, when George Bush, ex-President of U.S.A., offered to sign a bilateral treaty with India, opening the door for nuclear and other strategic co-operation, the offer was welcome by the DAE and the Government of India with open arms. However, obligations under the rules of the International Atomic Energy Agency (IAEA), of which India is a member, still required applying to the Body for their approval so that India could approach the Consortium of nuclear supplier countries for their agreement to do business with India without raising any hindrance arising from NPT and Comprehensive Test Ban Treaty (CTBT)

  7. Planning and development of nuclear power programmes in the Federal Republic of Germany

    International Nuclear Information System (INIS)

    Haunschild, H.H.

    1983-01-01

    The development of the peaceful utilization of nuclear science and technology in the Federal Republic of Germany started in 1955. It concentrated on the development of nuclear energy with its important potential for energy supply, in order to cover the growing energy demand of the recovering economy, and on the application of nuclear radiation and radioactive isotopes in various areas of science and technology such as biology, medicine, chemistry, physics, materials research and development. From the beginning, the nuclear energy programme was a joint undertaking of government, industry and science. To achieve the necessary impetus and to supplement the activities of industry and universities, several nuclear research centres, in particular at Juelich and Karlsruhe, were founded. This comprehensive approach was the basis for the following rapid development of nuclear technology, as well as for its competitive structure and its safety record. With regard to nuclear energy utilization for electricity generation, heat supply, and ship propulsion a broad range of reactor concepts such as light- and heavy-water reactors, high-temperature reactors, and fast-breeder reactors was examined. Today, nuclear energy meets about 17% of the country's electricity demand. Fifteen nuclear power plants with a capacity of about 10,000 MW(e) are in operation; 11 plants with a total capacity of about 12,000 MW(e) are under construction, and the construction of another 10 plants is definitely planned. Activities in uranium enrichment, fuel element fabrication, and reprocessing have reached the industrial stage. The paper indicates possible future trends of the nuclear programme. The successful development of a national nuclear energy programme goes in parallel with broad international co-operation. Therefore the efforts to re-establish a stable system for co-operation in nuclear commerce and technology, based on international safeguards, should be strengthened

  8. Pressurised water reactor. A critique of the Government's nuclear power programme

    Energy Technology Data Exchange (ETDEWEB)

    Flood, M; Chudleigh, R; Conroy, C

    1981-01-01

    The subject is covered in sections, entitled: energy forecasts - their decline and fall (Department of Energy; electricity supply industry; the writing on the wall); nuclear economics - how the dream dissolved (Britain's programme - off to a bad start; the government's programme -a catastrophe about to be repeated; the cost of a British PWR; a new choice - nuclear power versus insulation); PWR safety - the unresolvable problem (one in a million (query); fundamental weaknesses; consequences of an accident; unresolved safety problems; the select committee's findings); a new energy strategy - catering for our needs (energy efficiency; district heating/combined heat and power; solar heating; liquid fuels; the international context); conclusions.

  9. Programme of basic nuclear research and associated fields 1977-1981

    International Nuclear Information System (INIS)

    1978-01-01

    Nuclear research and development have been intensively pursued in West Germany by the Government and the Laender since 1955. In this period, the aims and official measures for fostering the research and use of nuclear power for peaceful purposes were laid down in four nuclear programmes. The 4th Nuclear Programme covers the period 1973 to 1976. From 1977, nuclear development became part of the energy research programme which was published by the West German Government in the spring of 1977. The basic nuclear research, however, was regarded as part of a total concept for fostering basic research (to be developed). While all the activities of research in the natural sciences and arts fostered by the West German Ministry of Research and Technology were to be co-ordinated in a more schematic form in the plan for 'Basic Research', it is the aim of the present statement to take stock of the present situation in 'Basic Nuclear Research' including the associated fields of 'Nuclear Solid Research' and 'Synchrotron Radiation', to analyse their structure, to describe the scientific aims for the next five years and to determine the total financial requirements. The basis for determining the financial programme worked out by the expert committee on 'Physical Research in the Nuclear Field' and the other committees in this field. The plans are in agreement with the medium term plan of the West German Ministry of Research and Technology (at 27.10.1977) and their contents correspond to the state of affairs at the end of 1977. (orig./UA) [de

  10. Manpower requirements for nuclear power programmes in nations of intermediate capacity

    International Nuclear Information System (INIS)

    Cantarell, I.; Cerrolaza, J.A.; Llado, J.M.

    1980-01-01

    A study is made of the manpower required for initiating and carrying out a nuclear power programme in countries which have not developed their own nuclear technology but where the technical and economic level is such to permit a substantial input from local industry. The discussion is based on Spanish experience. The three basic elements in a nuclear programme are taken to be the operating company, the regulating authority and the engineering firm involved. The role of each of these is briefly considered and the manpower requirements during the design, construction and operational phases of a power station are evaluated. A short account is also given of the manpower requirements of other enterprises such as those involved in the civil engineering, the assembly and construction control. The variations in the labour force are described with the aim of deriving estimates of the number of people involved in the development of a nuclear power programme as a function of time: actual numbers are given for the case of the Spanish national energy plan. A brief description is given of the various courses on nuclear science and engineering provided in Spain and the requirements laid down by the regulations. A short account is given of Spanish nuclear development, with emphasis on the work carried out by the Nuclear Energy Board, not only as a research organization but also in its promotional and training capacities and as a source of personnel for industry. Finally, some comments are made on the possibilities opened up by international co-operation. (author)

  11. The economics of nuclear power programmes in the United Kingdom

    International Nuclear Information System (INIS)

    Jones, P.L.

    1984-01-01

    In Chapter 1 an overview of the technology involved in the operation of various nuclear reactor types, both thermal and fast breeder, is provided, and the operations that comprise the alternative nuclear fuel cycles examined. Chapter 2 traces the historical development of the uranium market and highlights the effect that institutional arrangements such as the formation of a cartel has had on the market price of uranium. The prospects for increased uranium exploration activity and likely demand scenarios are then reviewed. In Chapter 3 the economic viability of reprocessing 'spent' nuclear fuel in the UK is analysed within the context of the decision to proceed with the construction of the thermal-oxide reprocessing plant (THORP) at Windscale in Cumbria. The various radioactive waste substances emanating from nuclear fuel-cycle operations undertaken in the UK are described in Chapter 4 and the prospects for their safe management and disposal examined. Chapter 5 provides an economic appraisal of both coal and nuclear-fuelled electricity generating plant based on the criterion of social cost. The results are used as the data-input for an appraisal of the investment in generating plant that will be required in the UK to supply four different electricity demand scenarios. The conclusions are discussed in Chapter 6. (author)

  12. SAFIR. The Finnish research programme on nuclear power plant safety 2003-2006. Executive summary

    International Nuclear Information System (INIS)

    Puska, E.

    2006-12-01

    Major part of Finnish public research on nuclear power plant safety during the years 2003-2006 has been carried out in the SAFIR programme. The programme has been administrated by the steering group that was nominated by the Ministry of Trade and Industry (KTM). The steering group of SAFIR has consisted of representatives from Radiation and Nuclear Safety Authority (STUK), Ministry of Trade and Industry (KTM), Technical Research Centre of Finland (VTT), Teollisuuden Voima Oy (TVO), Fortum Power and Heat Oy, Fortum Nuclear Services Oy (Fortum), Finnish Funding Agency for Technology and Innovation (Tekes), Helsinki University of Technology (TKK) and Lappeenranta University of Technology (LTY). The key research areas of SAFIR have been (1) reactor fuel and core, (2) reactor circuit and structural safety, (3) containment and process safety functions, that was divided in 2005 into (3a) thermal hydraulics and (3b) severe accidents, (4) automation, control room and IT, (5) organisations and safety management and (6) risk-informed safety management. The research programme has included annually from 20 up to 24 research projects, whose volume has varied from a few person months to several person years. The total volume of the programme during the four year period 2003-2006 has been 19.7 million euros and 148 person years. The research in the programme has been carried out primarily by Technical Research Centre of Finland (VTT). Other research units responsible for the projects include Lappeenranta University of Technology, Fortum Nuclear Services Oy, Helsinki University of Technology and RAMSE Consulting Oy. In addition, there have been a few minor subcontractors in some projects. The programme management structure has consisted of the steering group, a reference group in each of the seven research areas and a number of ad hoc groups in the various research areas. This report gives a short summary of the results of the SAFIR programme for the period January 2003 - November

  13. The power of the will and the French nuclear programme; Volontarisme du programme nucleaire francais

    Energy Technology Data Exchange (ETDEWEB)

    Boureille, P. [Ministre de la Defense, Dept. Marine, Service Historique de la Defense, 75 - Paris (France)

    2010-03-15

    Using certain key episodes in the development of the French nuclear deterrent as examples, the author illustrates the extent to which boldness of decision-making, combined with far-thinking and resolute vision, is the foundation of any international defence policy built for the long term. (author)

  14. Dismantling at the CEA's Nuclear Energy Division: strategy and programmes

    International Nuclear Information System (INIS)

    Lecomte, C.; Prunele, D. de; Rozain, J.P.; Nokhamzon, J.G.; Tallec, M.

    2008-01-01

    The CEA's Nuclear Energy Division (DEN) nuclear facilities currently include seventeen reactors and thirty six other miscellaneous facilities, particularly laboratories, fuel processing units and facilities specific to waste management. Some of these are currently being dismantled or must be dismantled soon so that the DEN, the Nuclear Energy Division, can construct new equipment and thus have available a range of R and D facilities in line with the issues of the nuclear industry of the future. At CEA, the first nuclear facility dismantling operations go back several dozen years and involve numerous and varied facilities. The first operations of any significance took place in the 1960's and 1970's and covered, for example, the first plutonium plant at Fontenay-aux-Roses (total dismantling) and small research reactors or critical models - CESAR and PEGGY at Cadarache and MINERVE at Fontenay-aux Roses (civil engineering cleaned up and kept). At La Hague, the dismantling of AT1, a pilot workshop used by the CEA during the 1970's to process irradiated fuels from fast neutron reactors, was completed in March 2001 (IAEA former stage 3, excluding civil engineering demolition). On the other hand, during this period of first dismantling, the intermediate-sized reactors (G1, Rapsodie) were only partially dismantled after shut down, mainly due to the lack of graphite and sodium waste management routes at the time. About twenty facilities were thus dealt with up to 2001, in other words about half of all the nuclear facilities shut down permanently before this date. (authors)

  15. Human Resource Development for Nuclear Power Programme in Uganda

    International Nuclear Information System (INIS)

    Henry, Ovona

    2014-01-01

    Conclusions: Despite the effort by the Government to ensure reliable and available access to electricity which is crucial to the socio – economic development, the use of hydro power, biomass and oil, geothermal and peat alone would not meet the target of the vision 2040. There is need to identifies nuclear energy as a potential option for meeting the energy deficit. Development of nuclear energy for power generation needs decision making, preparation and preparatory work which involve human resource development process, strengthening the legislation and regulatory framework, stakeholders’ involvement and public acceptance campaign

  16. The Community's research and development programme on decommissioning of nuclear installations (1989-1993). Annual progress report 1991

    International Nuclear Information System (INIS)

    1992-01-01

    This is the second annual progress report of the European Community's programme (1989-93) of research on decommissioning of nuclear installations. It shows the status of the programme on 31 December 1991. This second progress report summarizes the objectives, scope and work programme of the 76 research contracts concluded, as well as the progress of work achieved and the results obtained in 1991

  17. Indian nuclear power programme – Past, present and future

    Indian Academy of Sciences (India)

    and processing of uranium, construction of plants to produce heavy water and ... In May 1956, a decision was taken to set-up a pilot plant at AEET for ... The development of most of these reactor systems is an integrated result of detailed under- .... NPCIL has engineered the methodology and strategies for Nuclear Power ...

  18. Programme RAE: software that automates data acquisition in nuclear spectroscopy

    International Nuclear Information System (INIS)

    Bellido, Luis F.

    1995-07-01

    A software for automatic acquisition and storing of nuclear spectra was developed. This program is to be used in a system composed of a radiation detector, a Spectrum-ACE or ADCAM and the Maestro II emulation software. In this paper the operating mode is fully described and several examples are given. (author). 2 refs

  19. The power of the will and the French nuclear programme

    International Nuclear Information System (INIS)

    Boureille, P.

    2010-01-01

    Using certain key episodes in the development of the French nuclear deterrent as examples, the author illustrates the extent to which boldness of decision-making, combined with far-thinking and resolute vision, is the foundation of any international defence policy built for the long term. (author)

  20. Enabling legislation and regulatory determinations for a nuclear power programme

    International Nuclear Information System (INIS)

    Ha-Vinh, Phuong

    1975-01-01

    Broad definition of the scope of enabling legislation, identification of branches of laws involved in the licensing and regulatory control, overview of some typical licensing practices and provisions, some specific legislative or regulatory requirements including financial security to over nuclear liability. (HP) [de

  1. The Community's research and development programme on decommissioning of nuclear power plants

    International Nuclear Information System (INIS)

    1982-01-01

    The programme, adopted by the Council of the European Communities, seeks to promote a number of research and development projects as well as the identification of guiding principles. The projects concern the following subjects: long-term integrity of buildings and systems; decontaminations for decommissioning purposes; dismantling techniques; treatment of specific waste materials (steel, concrete and graphite); large transport containers for radioactive waste arising from decommissioning of nuclear power plants in the Community; and influence of nuclear power plant design features on decommissioning

  2. How an integrated change programme has accelerated the reduction in high hazard nuclear facilities at Sellafield

    International Nuclear Information System (INIS)

    Mackintosh, Angela

    2013-01-01

    For over five decades the Sellafield Site has been central to the UK's nuclear programme. Now operated by Sellafield Ltd, under the management of Parent Body Organisation Nuclear Management Partners (NMP), a consortium of URS Washington Division, AMEC and AREVA is focussed on the decommissioning of historical facilities. When Decommissioning commenced in the late 1980's the site focus at that time was on commercial reprocessing and waste management. Now through the implementation of a company change programme, emphasis has shifted towards accelerated risk and hazard reduction of degraded legacy plants with nuclear inventory whilst ensuring value for money for the customer, the Nuclear Decommissioning Authority. This paper will describe the management success by the Site owners in delivering a successful change programme. The paper will explain how the site has transitioned to the INPO Standard Nuclear Performance Model (SNPM) and how through the use of a change maturity matrix has contributed to the accelerated reduction in high risk high hazard nuclear facilities. The paper will explain in detail how the Decommissioning Programme Office has facilitated and coordinated the Governance and assured delivery of the change plan and how successful application of visual management has aided the communication of its progress. Finally, the paper will discuss how the Delivery Schedules have proved critical for presenting the change plan to Key Stakeholders, Government Owners and Powerful Regulators. Overall, this paper provides an insight into how a massive change programme is being managed within one of the world's highest regulated industries. (authors)

  3. How an integrated change programme has accelerated the reduction in high hazard nuclear facilities at Sellafield

    Energy Technology Data Exchange (ETDEWEB)

    Mackintosh, Angela [Change Manager, Decommissioning, Sellafield Ltd, Seascale, Cumbria (United Kingdom)

    2013-07-01

    For over five decades the Sellafield Site has been central to the UK's nuclear programme. Now operated by Sellafield Ltd, under the management of Parent Body Organisation Nuclear Management Partners (NMP), a consortium of URS Washington Division, AMEC and AREVA is focussed on the decommissioning of historical facilities. When Decommissioning commenced in the late 1980's the site focus at that time was on commercial reprocessing and waste management. Now through the implementation of a company change programme, emphasis has shifted towards accelerated risk and hazard reduction of degraded legacy plants with nuclear inventory whilst ensuring value for money for the customer, the Nuclear Decommissioning Authority. This paper will describe the management success by the Site owners in delivering a successful change programme. The paper will explain how the site has transitioned to the INPO Standard Nuclear Performance Model (SNPM) and how through the use of a change maturity matrix has contributed to the accelerated reduction in high risk high hazard nuclear facilities. The paper will explain in detail how the Decommissioning Programme Office has facilitated and coordinated the Governance and assured delivery of the change plan and how successful application of visual management has aided the communication of its progress. Finally, the paper will discuss how the Delivery Schedules have proved critical for presenting the change plan to Key Stakeholders, Government Owners and Powerful Regulators. Overall, this paper provides an insight into how a massive change programme is being managed within one of the world's highest regulated industries. (authors)

  4. TELEMAN - an European community research and development programme on robotics in the nuclear industry

    International Nuclear Information System (INIS)

    Tolley, B.; Robertson, B.

    1991-01-01

    The TELEMAN Programme is a five year cost-shared research programme covering remote handling in hazardous and disordered nuclear environments. It is supported within the current research and development of the European Communities. TELEMAN's strategic objective is to develop advanced teleoperators that respond to the needs of the nuclear industry. Its technical objective is to strengthen the scientific and engineering bases upon which the design of teleoperators for use throughout the nuclear industry rests. This will be done by providing new solutions to problems of manipulation, material transport and mobile surveillance in nuclear environments and by demonstrating their feasibility. Motivation for such a programme lies in the potential teleoperators have to improve the separation of workers from radioactive equipment. This technology will also enable plant operators and public authorities to deal more effectively with nuclear abnormal incidents and increase gains in productivity, mainly in the repair and maintenance area. Community support is justified by the cost of the reliability and autonomy required for the nuclear teleoperator, the need to rationalise R and D investment in an area of increasing industrial potential and a common interest in coherent responses to emergencies. (author)

  5. RATU2 - The Finnish research programme on the structural integrity of nuclear power plants. Synthesis of achievements 1995-1998

    International Nuclear Information System (INIS)

    Solin, J.; Sarkimo, M.; Asikainen, M.; Aavall, Aa.

    1998-01-01

    The symposium summarises the scientific and technical achievements within the Finnish Research programme on the structural integrity of nuclear power plants (RATU2). The programme began in 1995 and will be accomplished at the end of 1998. The annual volume of this programme represented approximately 6 % of the total nuclear energy R and D in Finland. The research programme was mainly publicly funded and supplied impartial expertise for the regulation of nuclear energy. It also played an important role in the education of new experts, technology transfer and the international exchange of scientific results. (orig.)

  6. Publicly administrated nuclear waste management research programme 1994-1996. Final report

    Energy Technology Data Exchange (ETDEWEB)

    Vuori, S. [ed.] [VTT Energy, Espoo (Finland)

    1997-09-01

    The main objective of the JYT-programme has been to provide the authorities with independent information and research results relevant for the safety of nuclear waste management. The main emphasis in this research programme has been devoted to the final disposal of spent fuel. The whole area of the research programme has been subdivided into following main topic areas: (1) bedrock structure and stability, rock investigation methods and characteristics and flow of ground water, (2) release of radionuclides from a repository and subsequent transport in the bedrock, (3) performance and safety assessment of repositories and other phases of nuclear waste management, (4) natural analogue studies, (5) waste management technology and costs and (6) socio political and other societal issues and environmental impact assessment.

  7. Separating civil and military nuclear programmes in the UK and France; a feasibility study

    International Nuclear Information System (INIS)

    Hart, David

    1987-01-01

    In recent years there has been considerable concern shown by the general public and the trade unions over the connection between the civil and military nuclear programmes. This paper is the result of research to determine the feasibility of separating the two in the UK and France. The result of the study is that it is technically and economically feasible to adopt a policy of separation. The costs are not overwhelming, rather the difficulty lies in assessing the intangible benefits of such a programme, and in overcoming any political impediments to its adoption. The major political fear is that adopting a separation programme would put that nation at a disadvantage with respect to other nuclear weapon states. (author)

  8. Publicly administrated nuclear waste management research programme 1994-1996. Final report

    International Nuclear Information System (INIS)

    Vuori, S.

    1997-09-01

    The main objective of the JYT-programme has been to provide the authorities with independent information and research results relevant for the safety of nuclear waste management. The main emphasis in this research programme has been devoted to the final disposal of spent fuel. The whole area of the research programme has been subdivided into following main topic areas: (1) bedrock structure and stability, rock investigation methods and characteristics and flow of ground water, (2) release of radionuclides from a repository and subsequent transport in the bedrock, (3) performance and safety assessment of repositories and other phases of nuclear waste management, (4) natural analogue studies, (5) waste management technology and costs and (6) socio political and other societal issues and environmental impact assessment

  9. The Nuclear Safeguards and Security Activities under Euratom Research and Training Programme

    International Nuclear Information System (INIS)

    Abousahl, S.; Palajova, Z.; Janssens, W.A.M.; Luetzenkirchen, K.; Goncalves, J.G.M.; Aregbe, Y.; )

    2015-01-01

    Nuclear safeguards and security are absolute priorities for the EU. At technical level, the Joint Research Centre (JRC) as the European Commission's in-house science service plays an important role in the field of nuclear research, training and education that include nuclear safety, safeguards and security. The JRC's nuclear research activities are defined in a Council Regulation on the research and training programme of the European Atomic Energy Community. The JRC works closely with EC safeguards authority, whose mission is to ensure that nuclear material within the EU is not diverted from its intended use according to Euratom treaty. Technologies, methodologies and trainings are developed according to the Euratom Safeguards inspectorate's needs. In the area of nuclear security, the JRC contributes to the development of specific expertise in the field of nuclear forensics and border security detection as well as related training efforts for first front-line responders and national experts. The JRC provides its expert support for the implementation of internal EU action plans mainly in the field of radiological and nuclear security. At an international level, the JRC cooperates with the IAEA mainly through the EC support programme on the control of nuclear materials and facilities in order to avoid proliferation or diversion. Close cooperation with IAEA nuclear security is developed through the recent signature of a dedicated practical arrangement. Key partnerships have also been developed in the field of safeguards and security with the US-DoE, Russia, Japan and China. In addition, JRC contributes significantly to the EU nuclear safeguards and security outreach activities implemented under the Instrument for Nuclear Safety Cooperation and Instrument contributing to Stability and Peace. In this paper we will highlight some of the JRC contributions to the enhancement of nuclear safeguards and security at EU and international levels. (author)

  10. Russia, USA set to complete nuclear safety programme ahead of schedule

    CERN Multimedia

    2003-01-01

    "The amount of work done by the United States and Russia on the implementation of the programme for security, account and control of nuclear materials has increased three-fold in 2003 as compared with the previous year. The two countries are going to complete it by 2008, two years earlier than initially planned" (2 paragraphs).

  11. Elements for designing ALARA programmes for the maintenance and routine operations of nuclear facilities

    International Nuclear Information System (INIS)

    Lefaure, C.; Croft, J.R.

    1991-01-01

    This article briefly reviews the three fundamental elements for designing ALARA programmes for the maintenance and routine operations of nuclear facilities. These are the need for commitment of all parties involved, the need for specific ALARA organizational structures and the systematic use of ALARA tools. (UK)

  12. Indian nuclear power programme with pressurised heavy water reactors

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1992-09-01

    This compilation is a part of ongoing efforts by Nuclear Power Corporation (NPC) to enable persons: to visit the plants under construction and operation to see for themselves adoption of new and advanced techniques; to have contact with the realities of NPC`s facilities; to familiarize themselves with the regulatory aspects on radiological and environmental protection; and assess for themselves the extent of thrust and importance given to overall safety. figs., tabs.

  13. IAEA programme on water chemistry in nuclear power plants

    International Nuclear Information System (INIS)

    Nechaev, A.F.; Skjoeldebrand, R.

    1988-01-01

    The paper reviews the past future efforts of the IAEA, directed to ensure optimal water chemistry regimes in nuclear power plants. Corrosion of structural materials resulting from the interaction of the coolant with the internal surfaces comprising the primary heat transfer and auxiliary circuits of water reactors, creates two main problems. The first is an operational problem resulting in an increase in the core pressure drop or overheating of the fuel elements induced by crud buildup on the fuel cladding. The second problem is related to occupational radiation exposures arising from contamination of out-of-flux surfaces by corrosion products activated in the reactor core. These are the problems of reliability and safety which together with economics could be considered as the 'three whales' of nuclear power. The main goals of international cooperation in reactor water chemistry are: (1) to create a balanced and well-grounded methodological basis for corresponding regulatory and engineering solutions on a national level and (2) to improve 'the models and predictive capability of specialists for conditions that are different from or perhaps just beyond the realm of experience'. Continuing efforts are required to guarantee the highest reliability and safety standards under favorable economic indices of nuclear power plants, and to obtain understanding of such significant potential for solving the remaining problems. (Nogami, K.)

  14. The Nordic programme for nuclear safety 1990-1993

    International Nuclear Information System (INIS)

    1992-02-01

    The description of planned projects concerning nuclear safety is divided under the headings of readiness for action in situations of abnormal radiation, nuclear wastes and deposition, radioecology, and reactor safety - professional emergency-readiness. Coordination initiatives are also dealt with. In addition to this a survey of projects, coordinators and project leaders and a description of suggested new measures for nuclear safety are given. Under the first heading the subjects dealt with are spreading and local consequences, strategies, measuring methods and data exchange and management for decision-makers, evaluation, harmonization and effecting of plans, public information, a nordic emergency action exercise and reduction data connected with contaminated areas. The second heading covers criteria for classification of radioactive material, experiences in demolition of uranium-cleaning plants, information management, waste management in the case of field deposition with radioactivity from past reactor accidents and climatological and geological processes of significance for long-duration safety. Subjects under the third heading of radioecology cover training, quality assurance, aquatic radioecology, agricultural and natural ecosystems. Subjects under reactor safety include safety evaluation, the course of serious accidents, and data on neighbour-reactor system's conditions of safety. (AB)

  15. RATU - Nuclear power plant structural safety research programme

    International Nuclear Information System (INIS)

    Rintamaa, R.

    1992-07-01

    Studies on the structural materials in nuclear power plants create the experimental data and background information necessary for the structural integrity assessments of mechanical components. The research is carried out by developing experimental fracture mechanics methods including statistical analysis methods of materials property data, and by studying material ageing and, in particular, mechanisms of material deterioration due to neutron irradiation, corrosion and water chemistry. Besides material studies, new testing methods and sensors for measurement of loading and water chemistry parameters have been developed. The monitoring data obtained in real power plants has been used to simulate more precisely the real environment during laboratory tests. The research on structural analysis has focused on extending and verifying the analysis capabilities for structural assessments of nuclear power plants. A widely applicable system including various computational fracture assessment methods has been created with which different structural problems can be solved reliably and effectively. Research on reliability assessment of maintenance in nuclear power plants is directed to practical case studies on components and structures of safety importance, and to the development of models for maintenance related decision support. A systematic analysis of motor-operated valve has been performed

  16. Realizing vision of Dr. Homi Bhabha - first stage of nuclear power programme

    International Nuclear Information System (INIS)

    Bhardwaj, S.A.

    2009-01-01

    Full text: Dr. Homi Bhabha had a vision to harness nuclear energy for peaceful uses of mankind. Considering typical nuclear resources in the country, Dr Bhabha conceptualized the three stage nuclear power programme and gave a road map for its implementation. The robustness of the vision is such that the programme has not undergone a change in last five decades. The first stage of the three-stage programme, based on natural uranium fuelled Pressurised Heavy Water Reactors (PHWRs) has been precursor to the nuclear power programme in India. This paper describes the developments in the last five decades. The establishment of research laboratories and reactors, training school for the manpower needs, industrial infrastructure and establishment of regulatory framework are briefly described. Setting up of first nuclear power reactor in the country as turnkey project and experience on operation of these reactors in India are discussed. The learning phase consisting of setting up of first PHWR in technical collaboration with Canada and design of 220 MWe PHWRs for MAPS is described. The safety features consistent with development of nuclear power globally were incorporated in Narora design and this became a standardized 220 MWe reactor of which many PHWRs of 220 MWe were set up. The experiences with operation of these small size reactors leading to internationally best operational experience in the year 2002 are discussed. The efforts of plant life extension, in-core maintenance jobs and other renovation and modernization jobs are discussed. The increase in unit size of 540 MWe, of which two reactors have been already set up, is explained in detail. The economies of scale demanded increase in the unit size and design of 700 MWe PHWR has been established and the salient features of this design are also discussed in detail. Eight reactors of 700 MWe each would complete the first stage of about 10,000 MWe PHWR programme and plans for setting up of these reactors are discussed

  17. Indian experience in the training of manpower for nuclear power programme

    International Nuclear Information System (INIS)

    Iyengar, P.K.; Damodaran, K.K.; Sarma, M.S.R.; Wagadarikar, V.K.

    1977-01-01

    In India manpower training for the nuclear power programme started several years before the introduction of nuclear power plants. Early efforts were concentrated on developing manpower in basic sciences related to nuclear power; for example, nuclear physics, chemistry, metallurgy of nuclear materials, aspects of chemical engineering etc. The setting up of the research centre viz. Atomic Energy Establishment Trombay, now named the Bhabha Atomic Research Centre, was an important step in this direction. A programme of design and construction of research reactors and its utilization formed the backbone of manpower development. This enabled the first batch of engineers and scientists to be trained on the design and operation in the programmes connected with research reactors and use of isotopes in industry, agriculture and medicine. The next step was to establish a Training School in the Bhabha Atomic Research Centre in which fresh graduates from the Universities could be given courses both in their own disciplines and in other inter-connected disciplines of nuclear sciences. About 200 such graduates are being trained every year since 1957. An inter-disciplinary approach with teaching by working scientists and engineers and the attachment for short periods to the research laboratories is the framework of this training programme. At present about 3000 graduates from this Training School are involved in various capacities in India's nuclear power programme. With the commissioning of the first power reactors, it became necessary to conceive of training engineers, scientists and technicians, particularly for operation and maintenance of such systems on a larger scale. For this purpose, a separate training institute at Rajasthan Atomic Power Project near Rana Pratapsagar was set up. Models, simulators and courses, particularly emphasizing the heavy water system of reactors was introduced. In addition, a number of craftsmen for servicing equipment have also been trained as

  18. Some aspects of programmable digital systems usage in nuclear power plants

    International Nuclear Information System (INIS)

    Mandic, D.; Smolej, M.; Sucic, B.

    2004-01-01

    During the operation of the NPP Krsko - NEK and other nuclear power plants, it has been recognized that certain issues related to the usage of digital equipment and associated software in NPP technological process protection, control and monitoring, are usually not adequately addressed in the existing programs and procedures. Moreover, often the problems related to the programmable digital systems usage are not understood correctly, which means that they can not be treated properly. Owing to the specifics of the programmable digital systems usage they have to be treated in a different way than other plant equipment and related documentation. The term as well as the process of Process Computers Configuration Control was introduced to control, among other issues, three 10CFR50 Appendix B quality requirements related to the Process Computers application in NPP: Design Control, Document Control, Identification and Control of Materials, Parts and Components. Based on the experience from NEK and published experience from other NPP and other organizations, this paper sheds light on specifics of the programmable digital systems usage in nuclear power plants. The wording Programmable Digital Systems was used rather than Process Computers, to emphasize wide area of applicability of this term: from simple digital components with burned-in programs to the PLC (Programmable Logic Controllers) and large process computer systems. In order to satisfy requirements of the Process Computer Configuration Control, specific characteristics and specific problems related to the usage of programmable digital systems require specific treatment of these issues. This paper describes those specific characteristics and traditional misunderstandings, false beliefs, false expectations and common errors that are most frequently committed in the life cycle of the programmable digital systems, as well as consequences and problems that could develop. The paper also refers to the regulations, industry

  19. RD and D-Programme 2004. Programme for research, development and demonstration of methods for the management and disposal of nuclear waste, including social science research

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2004-09-01

    SKB (the Swedish Nuclear Fuel and Waste Management Co), which is owned by the companies that operate the Swedish nuclear power plants, has been assigned the task of managing and disposing of the spent nuclear fuel from the reactors. The Nuclear Activities Act requires a programme of comprehensive research and development and other measures that are needed to manage and dispose of nuclear waste in a safe manner and to decommission and dismantle the nuclear power plants. SKB is now presenting RD and D-Programme 2004 in fulfilment of this requirement. The programme describes SKB's plans for the period 2005-2010. The period of immediate concern is 2005-2007. The level of detail for the three subsequent years is naturally lower.The programme provides a basis for designing systems for safe management and disposal of the radioactive waste from the nuclear power plants. SKB's plan is to implement deep disposal of the spent fuel in accordance with the KBS-3 method. In the RD and D-Programme we describe our activities and planning for this line of action and the work that is being conducted on alternative methods. Review of the programme can contribute valuable outside viewpoints. The regulatory authorities and the Government can clarify how they look upon different parts of the programme and stipulate guidelines for the future. Municipalities and other stakeholders can, after studying the programme, offer their viewpoints to SKB, the regulatory authorities or the Government.The goal for the period up to the end of 2008 is to be able to submit permit applications for the encapsulation plant and the deep repository. This RD and D-Programme therefore differs from the preceding ones in that it concentrates on questions relating to technology development for these facilities. The programmes for safety assessment and research on the long-term processes that take place in the deep repository are then linked together with the programmes for technology development. Another new

  20. RD and D-Programme 2004. Programme for research, development and demonstration of methods for the management and disposal of nuclear waste, including social science research

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2004-09-01

    SKB (the Swedish Nuclear Fuel and Waste Management Co), which is owned by the companies that operate the Swedish nuclear power plants, has been assigned the task of managing and disposing of the spent nuclear fuel from the reactors. The Nuclear Activities Act requires a programme of comprehensive research and development and other measures that are needed to manage and dispose of nuclear waste in a safe manner and to decommission and dismantle the nuclear power plants. SKB is now presenting RD and D-Programme 2004 in fulfilment of this requirement. The programme describes SKB's plans for the period 2005-2010. The period of immediate concern is 2005-2007. The level of detail for the three subsequent years is naturally lower.The programme provides a basis for designing systems for safe management and disposal of the radioactive waste from the nuclear power plants. SKB's plan is to implement deep disposal of the spent fuel in accordance with the KBS-3 method. In the RD and D-Programme we describe our activities and planning for this line of action and the work that is being conducted on alternative methods. Review of the programme can contribute valuable outside viewpoints. The regulatory authorities and the Government can clarify how they look upon different parts of the programme and stipulate guidelines for the future. Municipalities and other stakeholders can, after studying the programme, offer their viewpoints to SKB, the regulatory authorities or the Government.The goal for the period up to the end of 2008 is to be able to submit permit applications for the encapsulation plant and the deep repository. This RD and D-Programme therefore differs from the preceding ones in that it concentrates on questions relating to technology development for these facilities. The programmes for safety assessment and research on the long-term processes that take place in the deep repository are then linked together with the programmes for technology development. Another

  1. RD and D-Programme 2004. Programme for research, development and demonstration of methods for the management and disposal of nuclear waste, including social science research

    International Nuclear Information System (INIS)

    2004-09-01

    SKB (the Swedish Nuclear Fuel and Waste Management Co), which is owned by the companies that operate the Swedish nuclear power plants, has been assigned the task of managing and disposing of the spent nuclear fuel from the reactors. The Nuclear Activities Act requires a programme of comprehensive research and development and other measures that are needed to manage and dispose of nuclear waste in a safe manner and to decommission and dismantle the nuclear power plants. SKB is now presenting RD and D-Programme 2004 in fulfilment of this requirement. The programme describes SKB's plans for the period 2005-2010. The period of immediate concern is 2005-2007. The level of detail for the three subsequent years is naturally lower.The programme provides a basis for designing systems for safe management and disposal of the radioactive waste from the nuclear power plants. SKB's plan is to implement deep disposal of the spent fuel in accordance with the KBS-3 method. In the RD and D-Programme we describe our activities and planning for this line of action and the work that is being conducted on alternative methods. Review of the programme can contribute valuable outside viewpoints. The regulatory authorities and the Government can clarify how they look upon different parts of the programme and stipulate guidelines for the future. Municipalities and other stakeholders can, after studying the programme, offer their viewpoints to SKB, the regulatory authorities or the Government.The goal for the period up to the end of 2008 is to be able to submit permit applications for the encapsulation plant and the deep repository. This RD and D-Programme therefore differs from the preceding ones in that it concentrates on questions relating to technology development for these facilities. The programmes for safety assessment and research on the long-term processes that take place in the deep repository are then linked together with the programmes for technology development. Another new

  2. Human Resources Development for Rooppur Nuclear Power Programme in Bangladesh

    International Nuclear Information System (INIS)

    Hossain, Md. Kabir

    2014-01-01

    Conclusions: • Bangladesh faces a huge challenge in implementing the Rooppur NPP and its total nuclear power; • A preliminary assessment has been chalked out a plan to find out methods that can be applied to find out our gaps and then fill them up; • Bangladesh seeks cooperation from the Russian Federation in the form assistance package like National training courses, Seminar/Workshop, Expert Mission/Review and other form of bilateral arrangements in establishing infrastructure for “Rooppur NPP” building;

  3. Indian programme on molten salt cooled nuclear reactors

    International Nuclear Information System (INIS)

    DuIera, I.V.; Vijayan, P.K.; Sinha, R.K.

    2013-01-01

    Bhabha Atomic Research Centre (BARC) is developing a 600 MWth pebble bed high temperature reactor, cooled by natural circulation of molten fluoride salts and is capable of supplying process heat at 1000 ℃ to facilitate hydrogen production by splitting water. BARC has also initiated studies for a reactor concept in which salts of molten fluoride fuel and coolant in fluid form, flows through the reactor core of graphite moderator, resulting in nuclear fission within the molten salt. For thorium fuel cycle, this concept is very attractive, since the fuel can be re-processed on-line, enabling it to be an efficient neutron breeder. (author)

  4. Nuclear power plants seismic review programme in Spain

    International Nuclear Information System (INIS)

    Sanchez Cabanero, J.G.; Jimenez Juan, A.

    1995-01-01

    This presentation deals with seismic design and seismic reevaluation of Spanish operating nuclear power plants. The Spanish NPPs owners Probabilistic seismic hazard study requires an independent and deep review of methodology, modelling techniques, data management and method of eliciting in order to make decision on its acceptability. It reflects the opinion of only one expert tem and it would be necessary to involve more expert opinions to consider the uncertainties. It is proposed to evaluate the probabilistic seismic hazard study and the seismic categorisation

  5. Reference sources for radionuclide calibrations in nuclear programmes

    International Nuclear Information System (INIS)

    Almeida, M.C.M. de; Delgado, J.U.; Poledna, R.; Silva, R.L. da; Oliveira, E.M. de; Di Prinzio, M.A.R.

    2009-01-01

    The radionuclide metrology laboratories aim to provide radioactive standards for detector calibrations in nuclear safety areas. To produce the reference sources to be furnished to users the following standards of 57 Co, 60 Co, 133 Ba, 241 Am, 152 Eu and 166 Ho are commonly used. In this work was made a verifying of the uncertainties obtained for the two methods: comparative (sample-standards) and efficiency curve. The total uncertainties obtained by sample-standard method varied from 0.4 to 1.2% (k = 1). The results using efficiency curve method to the same radioisotopes and same conditions are between 0.9 to 2.2% (k = 1). (author)

  6. An overview of review guidelines for HDL programmable devices in nuclear safety systems

    International Nuclear Information System (INIS)

    Komanduri, Raghavan; Srivani, L.; Thirugnana Murthy, D.

    2013-01-01

    HDL programmable devices viz. CPLDs and FPGAs are increasingly being used to implement digital designs in the I and C systems performing safety functions of nuclear power plants. Synthesizable RTL descriptions manually written in HDLs are the first step in developing industry standard large scale digital designs. The reliability of the implementation is determined by the methodologies followed by the designer during development. Very few guidelines on HPD design practices, specific to nuclear industry are available. This paper presents an overview of the existing guidelines such as IEC 62566 and U.S. NRC's 'Review guidelines for FPGAs in nuclear power plant safety systems'. (author)

  7. The regulatory evaluation of radiation protection training programmes at Canadian nuclear power plants

    International Nuclear Information System (INIS)

    Legare, M.; Tennant, D.

    1996-01-01

    The responsibility for providing the necessary assurance that the use of nuclear energy in Canada does not pose undue risk to health, safety, security and the environment is vested with the Atomic Energy Control Board (AECB). This responsibility has led the Operator Certification Division of the AECB to develop methods to obtain assurance that nuclear power plant operations personnel are well trained and adequately competent to perform their duties. The features of the AECB approach to evaluation of training programmes based on a systematic approach to training is described. An overview of the Canadian nuclear power plants' radiation protection qualification levels is given. The developing evaluation process is contributing to the improvement of licensee radiation protection training programmes. This is making possible the transfer of part of the responsibility for licensed personnel radiation protection qualification assessment to the licensees, thus enabling a reduction in the operator certification division formal qualification activities. (author)

  8. RATU Nuclear power plant structural safety research programme 1990-1994. Final report

    International Nuclear Information System (INIS)

    Rintamaa, R.; Sarkimo, M.

    1995-12-01

    The major part of nuclear energy research in Finland has been organized as five-year nationally coordinated research programmes. The research programme on the Nuclear Power Plant Structural Safety was carried out during the period from 1990 to 1994. The total volume was about 76 person-years and the expenditure about 49 million FIM. Studies on the structural materials in nuclear power plants created the experimental data and background information necessary for the structural integrity assessments of mechanical components. The research was carried out by developing experimental fracture mechanics methods including statistical analysis methods of material property data, and by studying material ageing and, in particular, mechanisms of material deterioration due to neutron irradiation, corrosion and water chemistry. Besides material studies, new testing methods and sensors for the measurement of loading and water chemistry parameters have been developed

  9. Radiological impact of the management of radioactive waste arising from the Argentine Nuclear Programme

    International Nuclear Information System (INIS)

    Migliori de Beninson, A.; Cancio, D.

    1984-01-01

    The Argentine nuclear programme, as it stands at present, provides for the construction of four nuclear power plants in addition to those of Atucha I and Embalse and for the establishment of such fuel cycle facilities as are required to supply all of these plants. This paper evaluates the radiological impact (collective dose commitment) expected from the management of the radioactive wastes arising in the facilities mentioned above throughout the useful life of the reactors. The maximum individual doses to be expected as a result of the planned high-level-waste repository are also estimated. The evaluations presented are partly specific to the sites under consideration, but they also include estimates of the total collective dose commitments resulting from the management of radioactive waste under the Argentine nuclear programme. (author)

  10. Advanced concepts for waste management and nuclear energy production in the EURATOM 5. framework programme

    International Nuclear Information System (INIS)

    Hugon, M.; Bhatnagar, V.P.; Martin Bermejon, J.

    2002-01-01

    This paper summarises the objectives of the research projects on partitioning and transmutation (P and T) of long-lived radionuclides in nuclear waste and advanced systems for nuclear energy production in the key action on nuclear fission of the EURATOM 5. Framework Programme (FP5) (1998-2002). As these FP5 projects cover the main aspects of P and T, they should provide a basis for evaluating the practicability, on an industrial scale, of P and T for reducing the amount of long-lived radionuclides to be disposed of. Concerning advanced concepts, a cluster of projects is addressing the key technical issues to be solved before implementing high-temperature reactors (HTRs) commercially for energy production. Finally, the European Commissions proposal fora New Framework Programme (2002-2006) is briefly outlined. (authors)

  11. Advanced concepts for waste management and nuclear energy production in the EURATOM fifth framework programme

    International Nuclear Information System (INIS)

    Hugon, M.; Bhatnagar, V.P.; Martin Bermejo, J.

    2001-01-01

    This paper summarises the objectives of the research projects on Partitioning and Transmutation (P and T) of long lived radionuclides in nuclear waste and advanced systems for nuclear energy production in the key action on nuclear fission of the EURATOM Fifth Framework Programme (FP5) (1998-2002). As these FP5 projects cover the main aspects of P and T, they should provide a basis for evaluating the practicability, on an industrial scale, of P and T for reducing the amount of long lived radionuclides to be disposed of. Concerning advanced concepts, a cluster of projects is addressing the key technical issues to be solved before implementing High Temperature Reactors (HTRs) commercially for energy production. Finally, the European Commission(tm)s proposal for a New Framework Programme (2002-2006) is briefly outlined. (author)

  12. Experience with respect to dose limitation in nuclear fuel service operations in the United Kingdom supporting civil nuclear power programmes

    International Nuclear Information System (INIS)

    Kennedy, J.W.

    1983-01-01

    Within the United Kingdom, the nuclear power generation programme is supported by nuclear fuel services including uranium enrichment, fuel fabrication and reprocessing, operated by British Nuclear Fuels Limited (BNFL). These have entailed the processing of large quantities of uranium and of plutonium and fission products arising in the course of irradiation of fuel in nuclear power stations and have necessitated substantial programmes for the radiological protection of the public and of the workers employed in the industry. This paper presents and reviews the statistics of doses recorded in the various sectors of nuclear fuel services operations against the background of the standards to which the industry is required to operate. A description is given of the development of BNFL policy in keeping with the objective of being recognized as among those industries regarded as safe and the resource implications of measures to reduce doses received by workers are reviewed in the light of experience. Finally, the paper reviews the epidemiological data which have been, and continue to be, collected for workers who have been employed in these nuclear fuel services. (author)

  13. Financial aspects of nuclear power programmes from the experience of the Foratom Member Countries

    International Nuclear Information System (INIS)

    Riverola Pelayo, R.

    1977-01-01

    This paper reviews the financial aspects of the nuclear power programme from the experience of the Foratom Member countries. To appreciate the magnitude of the financial requirement the investments for the nuclear programme over the period 1976-85 are related to gross national product and gross capital formation. An examination is made of the sources and systems of financing for nuclear power stations and for all stages of the fuel cycle. The importance of interest during construction of the nuclear plant is considered in detail as, with the lengthening of construction times, this has now become a major factor in the total cost of a nuclear station. The possible accounting conventions under which interest during construction can be treated are examined and a study is made of the investment profile, the cost of money and the effect of inflation. The fiscal aspects of nuclear finance are studied with reference to national regulations and amortization rules. The amortization of nuclear installations also presents certain problems associated with their dismantling once their useful life is over, and this raises the question of the need to create a reserve fund which can commence with the startup of the power plant. For the fuel cycle a distinction can be made between areas of high (economic) risk such as in the prospecting and mining of uranium and the reprocessing of irradiated fuel, and those areas of normal risk such as the manufacture of fuel elements. The difficulties of obtaining credit for the first phase should be considered. (author)

  14. Financial aspects of nuclear power programmes from the experience of the FORATOM member countries

    International Nuclear Information System (INIS)

    Riverola-Pelayo, R.

    1977-01-01

    This paper reviews the financial aspects of nuclear power programme from the experience of the FORATOM member countries. To appreciate the magnitude of the financial requirement, the investments for the nuclear programme over the period 1976-85 are related to gross national product and gross capital formation. An examination is made of the sources and systems of financing for nuclear power stations and for all stages of the fuel cycle. The importance of interest during construction of nuclear plant is considered in detail as, with the lengthening of construction times, this has now become a major factor in the total cost of a nuclear station. The possible accounting conventions under which interest during construction can be treated are examined and a study is made of the investment profile, the cost of money and the effect of inflation. The fiscal aspects of nuclear finance are studied with reference to national regulations and amortization rules. The amortization of nuclear installations also presents certain problems associated with their dismantling once their useful life is over and this raises the question of the need to create a reserve fund which can commence with the startup of the power plant. For the fuel cycle, a distinction can be made between phases of high (economic) risk such as in the prospection and mining of uranium and the reprocessing of irradiated fuel, and those areas of normal risk such as the manufacture of fuel elements. The difficulties of obtaining credit for the first phase should be considered

  15. Research programme on the conditioning of nuclear power waste

    International Nuclear Information System (INIS)

    Hultgren, Aa.

    1981-01-01

    Main parts of this programme have included the use of zeolites and titanates to improve reactor waste treatment, the fractionation of high level reprocessing waste by extraction, and a study of liquid partition chromotographic technique for the removal of impurities from reactor cooling circuits. Preparation of large crystal zeolites has been continued and refined. For titanate production new routes are tried to produce material of a form suitable for use in a sorption process. The possibility of lithium-7 recovery from spent PWR resins in the elution process is under study. Final products from different routes of heat treatment of loaded zeolites and titanates are characterized and compared. In parallell to this work a full-scale system is under study including transport, system design, integrated process flowsheets and cost estimates. The aim is to have basis early in 1982 to decide on the merits of a plant at the planned repository for low and medium level waste (SFR), to be commissioned around 1990. In the high level waste fractionation project, a demonstration of the developed process has been performed on a fission product solution from the reprocessing of low burn-up fuel. Disregarding some equipment malfunction the design goal of better than 99.99 % actinide removal from the high level waste waste solution was reached. The basic chemistry of the process seems to be quite tolerant against reasonable flow rate deviations in the extraction cycles. Also the concluding sorption step on mordenite-titanate worked quite well. The small scale experiments on liquid partition chromatographic techniques have included studies of the capacity of various carrier materials treated with NH 4 DEHP or Aliquat-336 to sorb radioactive impurities from reactor water, both in the laboratory and at the Ringhals-1 BWR. (author)

  16. Building capacity through leadership development programmes in nuclear industry

    International Nuclear Information System (INIS)

    Afonin, A.; Terentyeva, T.

    2014-01-01

    «Tournament of Emerging Professionals» (TEMP) – an effective tool for selecting and developing talented students. Aim: to select high-potential graduates from key Rosatom universities through a multi-stage competition and employ them at Rosatom enterprises (NPPs, fuel plants, research institutes etc). Key objectives: 1. To provide opportunities for graduates and students to apply theoretical; technical knowledge while working on real case-studies and projects provided by Rosatom enterprises; 2. To popularize nuclear industry and to motivate high-potential young people with technical education to work in Rosatom and its enterprises; 3. To involve subject matter experts and TOP-managers of Rosatom into interactions with high-potential students and graduates

  17. Discussion forum for researchers in nuclear geology. Programme and abstracts

    International Nuclear Information System (INIS)

    Brynard, H.J.

    1986-11-01

    The Atomic Energy Corporation of SA Ltd (AEC) sponsors research in nuclear geology at several South African universities with a view to delineating target areas for uranium prospecting by mining companies. In order to ensure the efficient co-ordination of this research an annual meeting is held where sponsored researchers and other organizations report on their progress during the year. This ensures valuable cross-pollination of ideas, and an input from the mining industry is gained as to which direction future research should take. The results of the researchers reported on at these meetings is not necessarily complete and the abstracts in this volume should therefore not be regarded as conclusive. In this discussion forum uranium in granites and uranium in sedimentory deposits are covered. The geochemical anomalies of uranium as well as the geohydrology and its application in defining uranium are also discussed

  18. Reference sources for radionuclide calibrations in nuclear programmes

    Energy Technology Data Exchange (ETDEWEB)

    Almeida, M.C.M. de; Delgado, J.U.; Poledna, R.; Silva, R.L. da; Oliveira, E.M. de; Di Prinzio, M.A.R., E-mail: marcandida@yahoo.com.b [Instituto de Radioprotecao e Dosimetria (IRD/CNEN-RJ), Rio de Janeiro, RJ (Brazil). Lab. Nacional de Metrologia das Radiacoes Ionizantes (LNMRI)

    2009-07-01

    The radionuclide metrology laboratories aim to provide radioactive standards for detector calibrations in nuclear safety areas. To produce the reference sources to be furnished to users the following standards of {sup 57}Co, {sup 60}Co, {sup 133}Ba, {sup 241}Am, {sup 152}Eu and {sup 166}Ho are commonly used. In this work was made a verifying of the uncertainties obtained for the two methods: comparative (sample-standards) and efficiency curve. The total uncertainties obtained by sample-standard method varied from 0.4 to 1.2% (k = 1). The results using efficiency curve method to the same radioisotopes and same conditions are between 0.9 to 2.2% (k = 1). (author)

  19. Research Projects at Chulalongkorn University for the Master Degree Programme in Nuclear Security and Safeguard

    International Nuclear Information System (INIS)

    Nilsuwankosit, S.

    2015-01-01

    The Department of Nuclear Engineering, Faculty of Engineering, Chulalongkorn University, Thailand, began its master degree programme in nuclear security and safeguard in November 2013 with the support from the CBRN-Center of Excellence, European Union. This programme was planned as a way to raise the awareness of various local agencies in ASEAN countries regarding the threat of CBRN events. In the long run, the programme will also serve as the platform to develop the human resource and to provide the professional assistance required to counter such threat in the region. The programme closely follows the guideline as given by the IAEA and employs its materials as the main source of references. The first batch of 20 students came from countries in the ASEAN community. Due to the nature of the program, each student is required to conduct the research and a thesis based on such research is to be submitted as part of the requirement for the graduation. Currently, the research subjects that are readily available to the students can be classified into 5 categories: 1. subjects with neutron generator, 2. subjects with nuclear electronics and instruments, 3. subjects with industrial applications, 4. subjects with computer simulations, and 5. subjects with policy research. (author)

  20. The Relevance of Metal Recycling for Nuclear Industry Decommissioning Programmes

    Energy Technology Data Exchange (ETDEWEB)

    O' Sullivan, P.J., E-mail: nea@nea.fr [OECD Nuclear Energy Agency, Paris (France)

    2011-07-15

    The large amount of scrap metal arising from the decommissioning of nuclear facilities may present significant problems in the event that the facility owners seek to implement a management strategy based largely or fully on disposal in dedicated disposal facilities. Depending on whether disposal facilities currently exist or need to be developed, this option can be very expensive. Also, public reluctance to accept the expansion of existing disposal facilities, or the siting of new ones, mean that the disposal option should be used only after a wide consideration of all available management options. A comparison of health, environmental and socio-economic impacts of the recycling of lightly contaminated scrap metal, as compared with equivalent impacts associated with the production of replacement material, suggests that recycling has significant overall advantages. With present-day technologies, a large proportion of the metal waste from decommissioning can be decontaminated to clearance levels because most of the contamination is on or near the surface of the metal. In purely economic terms, it makes little sense for lightly contaminated scrap metal from decommissioning, which tends to be of high quality, to be removed from the supply chain and replaced with metal from newly-mined ore. In many countries, the metal recycling industry remains reluctant to accept metal from decommissioning. In Germany, the recycling industry and the decommissioning industry have worked together to develop an approach whereby such material is accepted for melting and the recycled material and is then used for certain defined end uses. Sweden also uses dedicated melting facilities for the recycling of metal from the nuclear industry. Following this approach, the needs of the decommissioning industry are being met in a way that also addresses the needs of the recycling industry. (author)

  1. The NKS-B Programme for Nordic cooperation on nuclear and radiological emergency preparedness, including measurement strategies, radioecology and waste management

    DEFF Research Database (Denmark)

    Andersson, Kasper Grann; Leino, Kaisu; Magnússon, Sigurður M.

    2014-01-01

    The NKS platform for Nordic cooperation and competence maintenance in nuclear and radiological safety comprises two parallel programmes: the NKS-R programme on nuclear reactor safety and the NKS-B programme on emergency preparedness. This paper introduces the NKS-B programme and its current...

  2. Nuclear energy in metallurgy

    Energy Technology Data Exchange (ETDEWEB)

    Jirak, Z; Malik, J; Vrba, J

    1976-01-01

    The present power situation and its estimated development with a view to metallurgy is presented. The possibilities of the development of Czechoslovak metallurgy are described with regard to conventional fuels and to nuclear power applications. The programme of the use of nuclear power in countries with a highly developed metallurgical industry, such as Japan, the FRG, etc., is presented and the technical pre-requisites for the use of nuclear power in metallurgy, namely the use of high temperature reactors and their incorporation in nuclear metallurgical complexes are discussed. The problems are indicated of the selection of suitable materials for high temperature reactors and the experience is described with the operation of such equipment. The results are given of the analysis of 10 variants of the model of a nuclear metallurgical complex manufacturing 1000 tons of sponge iron per day and having four main technological circuits (the helium circuit, the steam circuit, the reduction gas circuit and the cycle of metallurgical processes). An estimate is given of the capital costs of building a high temperature reactor, a power plant and a metallurgical complex with the reactor. The costs are also given of steel and power production in a nuclear metallurgical complex.

  3. Current status of LTO licensing programme for Bohunice nuclear power plant

    International Nuclear Information System (INIS)

    Borak, J.; Kupca, L.

    2012-01-01

    The objective of long term operation (LTO) licensing programme for Bohunice nuclear power plant is to demonstrate that the relevant structures and components shall perform their functions throughout the entire LTO period during which they shall meet all the relevant safety requirements. All the activities-which should result in utility's request to obtain the licence for LTO-must be performed in line with the relevant legal basis. As of May 2012, the anticipated duration of currently running programme is thirteen months. All relevant documentation, required by the established legal basis, shall be submitted to the licensing authority one year before the Unit 3 design life expiry. (author)

  4. Programme for the Environmental Control at the Swedish Nuclear Facilities, Revision

    International Nuclear Information System (INIS)

    Linden, Ann-Marie

    2004-12-01

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

  5. Nuclear power programmes and medium term projections in the OECD area

    International Nuclear Information System (INIS)

    Miida, J.; Haeussermann, W.; Mankin, S.

    1977-01-01

    The paper describes nuclear power growth forecasts up to 1985 on an individual country basis for the OECD area, based on present nuclear programmes. For the period between 1985 and the year 2000, no individual countries' estimates are given. The projections for this period are subdivided into three main areas: OECD Europe, North America and OECD Pacific Region. These projections are derived from the presently prevailing estimates concerning total energy growth, the increasing share of electricity requirements in total energy requirements and the growth of the nuclear share in electrical installed capacity. The basic assumptions are discussed and the combination of various possibilities results in upper and lower growth limits, which should include the most likely development. An attempt is also made to describe probable scenarios of nuclear reactor strategies, taking into account developments under way in the OECD area. Finally, the factors liable to influence nuclear power growth in a positive or negative way are briefly analysed

  6. Meddling in the KBS Programme and Swedish Success in Nuclear Waste Management

    Energy Technology Data Exchange (ETDEWEB)

    Elam, Mark (Univ. of Goeteborg, Goeteborg (Sweden)), e-mail: mark.elam@sts.gu.se; Sundqvist, Goeran (Univ. of Oslo, Oslo (Norway))

    2010-09-15

    In this paper the intention is to analyse and re/describe the qualities that underlie the current fame and good standing of Swedish nuclear waste management (the so-called KBS Programme). Inspired by work in the actor-network theory tradition, we want to argue that the success of the KBS Programme can be best accounted for with reference to qualities which are the reverse of those you might otherwise expect. While you might imagine its good name to be ascribable to the constancy, solidity and singularity of the solution being advanced, we want to argue that it is rather the infidelity, fluidity and heterogeneity of this solution that can best account for the leading position of Swedish nuclear waste management today. In fact, we wish to assert that it is through the effacement of the inherent importance of the latter set of qualities, that the KBS Programme has been able to promote a vision of itself as successfully imbued with the former set. The enduring template for Swedish nuclear waste management was established in 1977 through the Nuclear Stipulation Act. This gave rise to the cultivation of a new expertise within the Swedish nuclear industry of demonstrating indubitable solutions to nuclear waste problems close at hand. Thus, while it may appear that the KBS Programme has always been about the conception, and step by step implementation of a completely coherent and largely unvarying approach to the geological disposal of nuclear waste, this can be seen as effacing another reality. Bringing this other reality back into view, we see that for the KBS Programme, attaining the goal of the geological disposal of nuclear waste has never been as important as maintaining the ability to demonstrate its attainability. The KBS Programme is firstly a long-running programme in the material semiotics of nuclear fuel safety and the production of palpable signs of the accomplishment of geological disposal close at hand. This production of palpable signs has extended to the

  7. Meddling in the KBS Programme and Swedish Success in Nuclear Waste Management

    International Nuclear Information System (INIS)

    Elam, Mark; Sundqvist, Goeran

    2010-09-01

    In this paper the intention is to analyse and re/describe the qualities that underlie the current fame and good standing of Swedish nuclear waste management (the so-called KBS Programme). Inspired by work in the actor-network theory tradition, we want to argue that the success of the KBS Programme can be best accounted for with reference to qualities which are the reverse of those you might otherwise expect. While you might imagine its good name to be ascribable to the constancy, solidity and singularity of the solution being advanced, we want to argue that it is rather the infidelity, fluidity and heterogeneity of this solution that can best account for the leading position of Swedish nuclear waste management today. In fact, we wish to assert that it is through the effacement of the inherent importance of the latter set of qualities, that the KBS Programme has been able to promote a vision of itself as successfully imbued with the former set. The enduring template for Swedish nuclear waste management was established in 1977 through the Nuclear Stipulation Act. This gave rise to the cultivation of a new expertise within the Swedish nuclear industry of demonstrating indubitable solutions to nuclear waste problems close at hand. Thus, while it may appear that the KBS Programme has always been about the conception, and step by step implementation of a completely coherent and largely unvarying approach to the geological disposal of nuclear waste, this can be seen as effacing another reality. Bringing this other reality back into view, we see that for the KBS Programme, attaining the goal of the geological disposal of nuclear waste has never been as important as maintaining the ability to demonstrate its attainability. The KBS Programme is firstly a long-running programme in the material semiotics of nuclear fuel safety and the production of palpable signs of the accomplishment of geological disposal close at hand. This production of palpable signs has extended to the

  8. Modelling of critical functions of nuclear reactors using Fild Programmable Gate Array; Modelagem de funcoes criticas de reatores nucleares utilizando Fild Programmable Gate Array

    Energy Technology Data Exchange (ETDEWEB)

    Teixeira, Pamela Iara Nolasco

    2016-07-01

    This paper proposes the development of a method using FPGA for critical security functions of a nuclear reactor. It was implemented two critical safety functions in VHDL, which is a way to describe, through a program, the behavior of a circuit or digital component. Two critical security functions, FCS Core Cooling, responsible for cooling the reactor core in the charts of the plant and also in the event of accidents involving loss of coolant and FCS Heat Transfer, responsible for cooling the reactor core in the event an accident with loss of coolant were implemented. In this Dissertation it was chosen the use of FPGA, because - due to the effects of aging, obsolescence issues, environmental degradation and mechanical failures - nuclear power plants need to replace their older systems by new ones based on digital technology. The technologies obtained using a system described in hardware language can be implemented in a programmable device, having the advantage of changing the code at any time. (author)

  9. Compensation for the victims of the Marshall Islands nuclear testing programme: the Marshall Islands Nuclear Claims Tribunal

    International Nuclear Information System (INIS)

    Briscoe, W.

    1992-01-01

    The Marshall Islands Nuclear Claims Tribunal was established in 1988 pursuant to legislation enacted by the Republic of the Marshall Islands as part of its obligations under the Compact of Free Association between it and the United States (ratified 1986) and an associated Compact implementation agreement. The Tribunal is generally considered to be the last hope for compensation for a large number of Marshallese who claim to have suffered injury or damage as a result of the United States Nuclear Testing Programme in the Marshall Islands, 1946 - 1958. Under the Compact, the United States admitted liability for injuries and damages suffered by Marshallese as a result of the Testing Programme and made provision for the payment of compensation. In return, the Republic agreed to espouse, on behalf of it and its citizens, all current and future claims for compensation against the United States. The Tribunal has been given a most challenging and unique assignment: - to identify and compensate the victims of the Testing Programme, with a potentially limited sum of money, an indefinite number of victims, and with cultural, environmental and political circumstances which are not altogether conducive to Western concepts associated with compensating people for damages and personal injuries suffered as a result of a wrongful act. The paper will describe the Tribunal's role in compensating the victims of the Testing Programme. It will highlight a number of legal, social and cultural difficulties in establishing and operating a scheme to compensate people for damages and injuries suffered or commenced up to forty years previously. (author)

  10. Non-Destructive Techniques in the Tacis and Phare Nuclear Safety Programmes

    International Nuclear Information System (INIS)

    Bieth, Michel

    2002-01-01

    Decisions regarding the verification of design plant lifetime and potential license renewal periods involve a determination of the component and circuit condition. In Service Inspection of key reactor components becomes a crucial consideration for continued safe plant operation. The determination of the equipment properties by Non Destructive Techniques during periodic intervals is an important aspect of the assessment of fitness-for-service and safe operation of nuclear power plants The Tacis and Phare were established since 1991 by the European Union as support mechanisms through which projects could be identified and addressed satisfactorily. In Nuclear Safety, the countries mainly concerned are Russia, Ukraine, Armenia, and Kazakhstan for the Tacis programme, and Bulgaria, Czech Republic, Hungary, Slovak Republic, Lithuania, Romania and Slovenia for the Phare programme. The Tacis and Phare programs concerning the Nuclear Power Plants consist of: - On Site Assistance and Operational Safety, - Design Safety, - Regulatory Authorities, - Waste management, and are focused on reactor safety issues, contributing to the improvement in the safety of East European reactors and providing technology and safety culture transfer. The main parts of these programmes are related to the On-Site Assistance and to the Design Safety of VVER and RBMK Nuclear power plants where Non Destructive Techniques for In Service Inspection of the primary circuit components are addressed. (authors)

  11. New and recently finalised activities within the NKS Programmes for Nordic cooperation on nuclear reactor safety and emergency preparedness

    DEFF Research Database (Denmark)

    Andgren, Karin; Andersson, Kasper Grann; Magnússon, Sigurður M.

    2015-01-01

    Over the years, NKS has provided funding for hundreds of research activities in fields comprising reactor safety, decommissioning, nuclear and radiological emergency preparedness, and management of radioactive waste. Advanced technologies and methods developed under the NKS framework have been used...... within the Nordic countries as well as internationally. Two programme areas are defined under the NKS platform: The NKS-R programme on nuclear reactor safety and the NKS-B programme on emergency preparedness. Three articles, giving an introduction to NKS and its two programmes, were published...

  12. Radiation processing applications in the Czechoslovak water treatment technologies

    International Nuclear Information System (INIS)

    Vacek, K.; Pastuszek, F.; Sedlacek, M.

    1986-01-01

    The regeneration of biologically clogged water wells by radiation proved to be a successful and economically beneficial process among other promising applications of ionizing radiation in the water supply technology. The application conditions and experience are mentioned. The potential pathogenic Mycobacteria occuring in the warm washing and bathing water are resistant against usual chlorine and ozone concentrations. The radiation sensitivity of Mycobacteria allowed to suggest a device for their destroying by radiation. Some toxic substances in the underground water can be efficiently degraded by gamma radiation directly in the wells drilled as a hydraulic barrier surrounding the contaminated land area. Substantial decrease of CN - concentration and C.O.D. value was observed in water pumped from such well equipped with cobalt sources and charcoal. The removing of pathogenic contamination remains to be the main goal of radiation processing in the water purification technologies. The decrease of liquid sludge specific filter resistance and sedimentation acceleration by irradiation have a minor technological importance. The hygienization of sludge cake from the mechanical belt filter press by electron beam appears to be the optimum application in the Czechoslovak conditions. The potatoes and barley crop yields from experimental plots treated with sludge were higher in comparison with using the manure. Biological sludge from the municipal and food industry water purification plants contains nutritive components. The proper hygienization is a necessary condition for using them as a livestock feed supplement. Feeding experiments with broilers and pigs confirmed the possibility of partial (e.g. 50%) replacement of soya-, bone, or fish flour in feed mixtures by dried sludge hygienized either by heat or by the irradiation. (author)

  13. Radiation processing applications in the Czechoslovak water treatment technologies

    Science.gov (United States)

    Vacek, K.; Pastuszek, F.; Sedláček, M.

    The regeneration of biologically clogged water wells by radiation proved to be a successful and economically beneficial process among other promising applications of ionizing radiation in the water supply technology. The application conditions and experience are mentioned. The potential pathogenic Mycobacteria occuring in the warm washing and bathing water are resistant against usual chlorine and ozone concentrations. The radiation sensitivity of Mycobacteria allowed to suggest a device for their destroying by radiation. Some toxic substances in the underground water can be efficiently degraded by gamma radiation directly in the wells drilled as a hydraulic barrier surrounding the contaminated land area. Substantial decrease of CN - concentration and C.O.D. value was observed in water pumped from such well equipped with cobalt sources and charcoal. The removing of pathogenic contamination remains to be the main goal of radiation processing in the water purification technologies. The decrease of liquid sludge specific filter resistance and sedimentation acceleration by irradiation have a minor technological importance. The hygienization of sludge cake from the mechanical belt filter press by electron beam appears to be the optimum application in the Czechoslovak conditions. The potatoes and barley crop yields from experimental plots treated with sludge were higher in comparison with using the manure. Biological sludge from the municipal and food industry water purification plants contains nutritive components. The proper hygienization is a necessary condition for using them as a livestock feed supplement. Feeding experiments with broilers and pigs confirmed the possibility of partial (e.g. 50%) replacement of soya-, bone- or fish flour in feed mixtures by dried sludge hygienized either by heat or by the irradiation.

  14. Personnel dosimetry methods introduced in the Czechoslovak national laboratories

    International Nuclear Information System (INIS)

    Trousil, J.; Singer, J.; Kokta, L.; Prouza, Z.

    1979-01-01

    Personnel dosimetry methods are described that were developed in the Institute for Research, Production and Application of Radioisotopes and that have been or will be introduced in the national personnel dosimetry service. In Czechoslovakia, workers exposed to a radiation risk are divided into two groups, according to the level of the risk. The criterion is the possibility of exceeding one tenth of the MPD. For the higher risk group, a complex dose meter is usually used for dosimetry of photon and beta radiation; it contains a film dose meter and a radiothermoluminescent (RTL) glass dose meter. The RTL glass dose meter also serves as an accident dose meter. For neutron dosimetry, a dose meter comprising a solid-state track detector in combination with fissionable foils has been introduced. For accident dosimetry, a silicon diode of Czechoslovak production is used. For the lower risk group, only the introduction of an RTL dose meter is foreseen. There will be a three month control period; for neutron dosimetry, the track detector in combination with fissionable foils is retained. For measurements of hand doses, a themoluminescent ring dose meter has been introduced. The dose meters are described, giving information on the types of detectors employed, measurement techniques and descriptions of the basic characteristics of the instruments, their basic dosimetric parameters and the dose and energy ranges which can be measured. The results of international comparisons are presented; these have served to confirm the measurement precision. In conclusion, some questions of dose-meter calibration are summarized, and the problems of dose measurement in mixed fields of neutrons and gamma rays are discussed. (author)

  15. Expanding Nuclear Power Programmes - Romanian experience: Master - Nuclear Materials and Technologies Educational Plan

    International Nuclear Information System (INIS)

    Valeca, S.; Valeca, M.

    2012-01-01

    The main objectives of the Master Nuclear Materials and Technologies Educational Plan are: 1. To deliver higher education and training in the following specific domains, such as: Powders Technology and Ceramic Materials, Techniques of Structural Analysis, Composite Materials, Semiconductor Materials and Components, Metals and Metallic Alloys, Optoelectronic Materials and Devices, Nuclear Materials, The Engineering of Special Nuclear Materials, 2. To train managers of the Nuclear Waste Products and Nuclear Safety, 3. To qualify in ICT Systems for Nuclear Process Guidance, 4. To qualify in Environmental Protection System at the Level of Nuclear Power Stations, 5. To train managers for Quality Assurance of Nuclear Energetic Processes, 6. To deliver higher education and training regarding the International Treatises, Conventions and Settlements in force in the field of nuclear related activities. (author)

  16. Regulatory issues on using programmable logic device in nuclear power plants

    International Nuclear Information System (INIS)

    Park, G. Y.; Yu, Y. J.; Kim, H. T.; Kwon, Y. I.; Park, H. S.; Jeong, C. H.

    2012-01-01

    For replacing obsolete analog equipment in nuclear power plant, the Programmable Logic Devices (PLDs) using Hardware Description Language (HDL) have been widely adopted in digitalized Instrumentation and Control (I and C) systems because of its flexibility. For safety reviews on Nuclear Power Plants (NPPs,) qualifying digitalized safety I and C system using PLDs is an important issue. As an effort to provide regulatory position on using PLDs in safety I and C system, there is a research project to provide the regulatory positions against emerging issues involved with digitalisation of I and C system including using PLDs. Therefore, this paper addresses the important considerations for using PLDs in safety I and C systems such as diversity, independence and qualification, etc. In this point, this study focuses on technical reports for Field Programmable Gate Array (FPGA) from EPRI,. U.S. NRC, and relevant technical standards

  17. Regulatory issues on using programmable logic device in nuclear power plants

    Energy Technology Data Exchange (ETDEWEB)

    Park, G. Y.; Yu, Y. J.; Kim, H. T.; Kwon, Y. I.; Park, H. S.; Jeong, C. H. [Korea Institute of Nuclear Safety, Daejeon (Korea, Republic of)

    2012-10-15

    For replacing obsolete analog equipment in nuclear power plant, the Programmable Logic Devices (PLDs) using Hardware Description Language (HDL) have been widely adopted in digitalized Instrumentation and Control (I and C) systems because of its flexibility. For safety reviews on Nuclear Power Plants (NPPs,) qualifying digitalized safety I and C system using PLDs is an important issue. As an effort to provide regulatory position on using PLDs in safety I and C system, there is a research project to provide the regulatory positions against emerging issues involved with digitalisation of I and C system including using PLDs. Therefore, this paper addresses the important considerations for using PLDs in safety I and C systems such as diversity, independence and qualification, etc. In this point, this study focuses on technical reports for Field Programmable Gate Array (FPGA) from EPRI,. U.S. NRC, and relevant technical standards.

  18. Best Practices in the Management of an Operating Experience Programme at Nuclear Power Plants

    International Nuclear Information System (INIS)

    2010-08-01

    The IAEA Fundamental Safety Principles (IAEA Safety Standards Series No. SF-1) state the need for operating organizations to establish a programme for the feedback and analysis of operating experience in nuclear power plants. Such a programme ensures that operating experience is analysed, events important to safety are reviewed in depth, lessons learned are disseminated to the staff of the organization and to the relevant national and international organizations and corrective actions are effectively implemented. In IAEA Operational Safety Review Team (OSART) and Peer Review of the effectiveness of the Operational Safety Performance Experience Review (PROSPER) missions, weaknesses in the management of operating experience (OE) programmes have been identified as one of the root causes of the recurrence of events. This publication has been developed to provide advice and assistance to nuclear installation managers and related institutions, including contractors and support organizations, to strengthen and enhance the management of their OE processes. In this publication, a number of barriers to the successful management of an OE programme have been identified. Managers are encouraged to review and evaluate these barriers with a view to identifying and eliminating them within their own organizations

  19. RDandD Programme 2010. Programme for research, development and demonstration of methods for the management and disposal of nuclear waste

    International Nuclear Information System (INIS)

    2010-09-01

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

  20. The nuclear engineering programmes at the Royal Military College of Canada. Part II

    Energy Technology Data Exchange (ETDEWEB)

    Bonin, H.W. [Royal Military College of Canada, Dept. of Chemistry and Chemical Engineering, Kingston, Ontario (Canada)

    2002-08-01

    The coverage of the activities within the nuclear science and engineering programmes at RMC reveals the dynamism of the College which is still growing at a fast rate. Being the only completely bilingual university in Canada and a true national institution gathering students and staff from all parts of the country. RMC continues in its mission to support the Canadian Forces, the Department of National Defence, the people of Canada and Canadian Industry that includes the nuclear sector. It is in this spirit that the staff has been actively involved with organizations such as the Canadian Nuclear Society and the Canadian Nuclear Association, having hosted four of the Student conferences and three major topical conferences of the CNS.

  1. Five years of partnership programme between German and East European nuclear power plant operators

    International Nuclear Information System (INIS)

    Kraemer, P.

    1995-01-01

    In a jointly adopted communique in August 1992 the regulations governing the partnerships were laid down. The following principles are given priority: bilateral exchange of operating experience on the basis of equal partnership; the knowledge gained from the exchange of experience is used to improve the operation and safety of the respective partner plant; the partnership programme is free from commercial interests and does not include transfer of funds. Since the establishment of the first partnership relations (Biblis) with an east european nuclear power plant (Balakowo) late in April 1990, a total of 126 reciprocal visits was paid, 82 of which to German nuclear power plants. The balance of the efforts made by German nuclear power plant operators to integrate east european nuclear plant operators can be considered positive. (orig./HP) [de

  2. The nuclear engineering programmes at the Royal Military College of Canada. Part II

    International Nuclear Information System (INIS)

    Bonin, H.W.

    2002-01-01

    The coverage of the activities within the nuclear science and engineering programmes at RMC reveals the dynamism of the College which is still growing at a fast rate. Being the only completely bilingual university in Canada and a true national institution gathering students and staff from all parts of the country. RMC continues in its mission to support the Canadian Forces, the Department of National Defence, the people of Canada and Canadian Industry that includes the nuclear sector. It is in this spirit that the staff has been actively involved with organizations such as the Canadian Nuclear Society and the Canadian Nuclear Association, having hosted four of the Student conferences and three major topical conferences of the CNS

  3. Options for Management of Spent Fuel and Radioactive Waste for Countries Developing New Nuclear Power Programmes

    International Nuclear Information System (INIS)

    2013-01-01

    One of the IAEA's statutory objectives is to 'seek to accelerate and enlarge the contribution of atomic energy to peace, health and prosperity throughout the world.' One way this objective is achieved is through the publication of a range of technical series. Two of these are the IAEA Nuclear Energy Series and the IAEA Safety Standards Series. According to Article III.A.6 of the IAEA Statute, the safety standards establish 'standards of safety for protection of health and minimization of danger to life and property'. The safety standards include the Safety Fundamentals, Safety Requirements and Safety Guides. These standards are written primarily in a regulatory style, and are binding on the IAEA for its own programmes. The principal users are the regulatory bodies in Member States and other national authorities. The IAEA Nuclear Energy Series comprises reports designed to encourage and assist R and D on, and application of, nuclear energy for peaceful uses. This includes practical examples to be used by owners and operators of utilities in Member States, implementing organizations, academia, and government officials, among others. This information is presented in guides, reports on technology status and advances, and best practices for peaceful uses of nuclear energy based on inputs from international experts. The IAEA Nuclear Energy Series complements the IAEA Safety Standards Series. Today, numerous countries are considering construction of their first nuclear power plant or the expansion of a small nuclear power programme, and many of these countries have limited experience in managing radioactive waste and spent nuclear fuel. They often have limited information about available technologies and approaches for safe and long term management of radioactive waste and spent nuclear fuel arising from power reactors. The lack of basic know-how and of a credible waste management strategy could present a major challenge or even an obstruction for countries wishing to

  4. Complex programmable logic device based alarm sequencer for nuclear power plants

    International Nuclear Information System (INIS)

    Khedkar, Ravindra; Solomon, J. Selva; KrishnaKumar, B.

    2001-01-01

    Complex Programmable Logic Device based Alarm Sequencer is an instrument, which detects alarms, memorizes them and displays the sequences of occurrence of alarms. It caters to sixteen alarm signals and distinguishes the sequence among any two alarms with a time resolution of 1 ms. The system described has been designed for continuous operation in process plants, nuclear power plants etc. The system has been tested and found to be working satisfactorily. (author)

  5. Overview on recent results of the VTT's research programme on assuring nuclear power plant structural safety

    International Nuclear Information System (INIS)

    Rintamaa, R.; Aaltonen, P.; Kauppinen, P.; Keinaenen, H.; Talja, H.; Valo, M.; Wallin, K.; Toerroenen, K.

    1994-01-01

    An overview of the Finnish national research programme on the Nuclear Power Plant Structural Safety, being carried out from 1990 to 1994, is presented. The focus of this paper is on recent results in the areas of experimental and computational fracture mechanics, material deterioration due to neutron irradiation, corrosion and water chemistry, nondestructive testing methods and procedures, and verification of structural integrity assessment methods by large scale component tests. (author). 21 refs, 21 figs, 2 tabs

  6. FLATT - a computer programme for calculating flow and temperature transients in nuclear fuels

    International Nuclear Information System (INIS)

    Venkat Raj, V.; Koranne, S.M.

    1976-01-01

    FLATT is a computer code written in Fortran language for BESM-6 computer. The code calculates the flow transients in the coolant circuit of a nuclear reactor, caused by pump failure, and the consequent temperature transients in the fuel, clad, and the coolant. In addition any desired flow transient can be fed into the programme and the resulting temperature transients can be calculated. A case study is also presented. (author)

  7. Finnish experiences on licensing and using of programmable digital systems in nuclear power plants

    International Nuclear Information System (INIS)

    Haapanen, P.; Maskuniitty, M.; Heimburger, H.; Hall, L.E.; Manninen, T.

    1993-01-01

    Finnish utility companies, Imatran Voima Oy (IVO) and Teollisuuden Voima (TVO), and the licensing authority, the Finnish Centre for Radiation and Nuclear Safety (STUK), are preparing for a new nuclear power plant in Finland. Plant vendors are proposing programmable digital automation systems for both the safety-related and the operational I and C (instrumentation and control) systems in this new unit. Also in existing plant units the replacement of certain old analog systems with state-of-the-art digital ones will become necessary in the years to come. Licensing of programmable systems for safety critical applications requires a new approach due to the special properties and failure modes of these systems. The major difficulties seem to be in the assessment and quantification of software reliability. The Technical Research Centre of Finland has in co-operation with the authority and the utilities conducted a project (AJA) to develop domestically applicable licensing requirements, guidelines and practices. International standards, guidelines and licensing practices have been analyzed in order to specify national licensing requirements. The paper describes and discusses the findings and experiences of the AJA project so far. The experience in introducing advanced programmable digital control and computer systems in the operating nuclear power plants will be covered briefly. Although these systems are not safety-related but systems of more general interest regarding nuclear safety, some routines regarding the licensing of safety- related systems have been followed. In these backfitting and replacement projects some experience have been gained in how to license safety-related programmable systems. (Author) 31 refs., 2 figs

  8. Specification for a total quality assurance programme for nuclear power plants

    International Nuclear Information System (INIS)

    1980-01-01

    This British Standard specifies principles for the establishment and implementation of quality assurance programmes during all phases of design, procurement, fabrication, construction, commissioning, operation, maintenance and decommissioning of structures, systems and components of nuclear power plants. These principles apply to activities affecting the quality of items, such as designing, purchasing, fabricating, handling, shipping, storing, cleaning, erecting, installing, testing, commissioning, operating, inspecting, maintaining, repairing, refuelling, modifying and, eventually decommissioning. (author)

  9. The discharge of radioactive effluents from the nuclear power programme into western waters of Great Britain

    International Nuclear Information System (INIS)

    Allday, C.

    1977-01-01

    A brief account is presented of the British nuclear power programme and the types of radioactive effluent that arise from the power stations and from the Windscale reprocessing plant. Routes by which these effluents could affect human populations, and radiation dose limits which have been laid down, are discussed. The discharge of permitted amounts of activity into western coastal waters of Great Britain, and the requirements for monitoring the discharges, are described. (U.K.)

  10. The application of modern project management principles and processes in major nuclear decommissioning programmes

    International Nuclear Information System (INIS)

    Bayliss, C. R.

    2003-01-01

    The UKAEA has embarked upon an accelerated programme of decommissioning works. This has resulted in a review of its project management systems and processes. This paper describes these processes and their application to nuclear decommissioning and associated new build construction projects. Efficiencies from these processes are necessary. In addition this paper describes how UKAEA, where appropriate, utilizes modern forms of alliance contract so as to work in partnership with its contractors. (author)

  11. Aspects of nuclear waste management after a 4-year Nordic programme

    International Nuclear Information System (INIS)

    Moberg, L.

    1990-01-01

    Six areas of concern in nuclear waste management have been dealt with in a four-year Nordic research programme. They include work in two international projects, Hydrocoin dealing with modelling of groundwater flow in crystalline rock, and Biomovs, concerned with biosphere models. Geologic questions of importance to the prediction of future behaviour are examined. Waste quantities from the decommissioning of nuclear power stations are estimated, and total amounts of waste to be transported in the Nordic countries are evaluated. Waste amounts from a hypothetical reactor accident are also calculated. (author)

  12. Overview of CNES-CEA joint programme on space nuclear Brayton systems

    International Nuclear Information System (INIS)

    Carre, F.; Proust, E.; Chaudourne, S.; Keirle, P.; Tilliette, Z.; Vrillon, B.

    1990-01-01

    In 1982, a cooperative programme on space nuclear power systems was initiated between the French Centre National d'Etudes Spatiales (CNES) and the Commissariat a l'Energie Atomique (CEA), to assess the feasibility, lead time, cost, competitiveness and development prospects for space nuclear power systems (SPS) in the 20 to 200 kWe range. The present three-year study phase is primarily oriented toward the assessment of various reactor candidate technologies and system design options for nuclear SPS in the 20 kWe class, which corresponds to the expected power needs of the first European space missions, anticipated to begin in 2005. This paper presents an overview of the present programme phase, with emphasis on design studies of three reference design concepts for 20 kWe turboelectric nuclear power systems selected so as to cover a wide range of reactor temperatures and corresponding technologies. The systems differ mainly in their nuclear reactors which are: the Liquid Metal Fast Breeder derivative or UO 2 /Na/Stainless steel -650 0 C; the High Temperature Gas-cooled derivative or UO 2 /direct cycle/super alloys - 850 0 C; and the UN/Li/MoRe alloy - 1120 0 C. All three systems use a Brayton cycle with recuperation for power conversion. (author)

  13. Research and development efforts in the implementation of nuclear power programme in Indonesia

    International Nuclear Information System (INIS)

    Suhaemi, T.

    1986-04-01

    Research and development efforts in the implementation of nuclear power programme in Indonesia are presented. According to Indonesia Law, the National Atomic Energy Agency (BATAN) is an official body which is reponsible for all aspects of nuclear development. In implementing the nuclear power, BATAN together with the State Electricity Corporation (PLN) have pioneered the introduction of nuclear power plant in Indonesia by carrying out various activities, studies, seminars, workshops and report writings. A nuclear power planning study was carried out jointly with the International Atomic Energy Agency. The feasibility studies were also carried out by NIRA, an Italian consultant firm in cooperation with BATAN and PLN. To improve research and development, BATAN has established 5 research nuclear centres which function as centres of basic and applied research, isotope and radiation application, standardization and calibration and uranium exploration. Nowadays BATAN is constructing a sophisticated and multidisciplinary complex at Serpong near Jakarta. It is hoped that the participation of the national industry can be synchronized to the construction of the first nuclear power in Indonesia. To endorse the movement towards the industrial and technological future, the National Centre for Research, Science and Technology (known as PUSPITEK) has been established. There will be 12 different laboratories providing facilities for research and development of all aspects of technology. For training manpower, BATAN has established the Education and Training Centre (PUSDIKLAT). BATAN has also collaborated with universities, such as Gadjahmada University in Yogyakarta, in establishing Nuclear Engineering Division in the School of Engineering. 6 refs, 3 figs

  14. EDF decommissioning programme: A global commitment to safety, environment and cost efficiency of nuclear energy

    International Nuclear Information System (INIS)

    Chatry, Jean-Paul

    2002-01-01

    Nowadays, decommissioning of nuclear power plants has become a key issue for nuclear industry in Europe. The phasing out of nuclear energy in Germany, Belgium and Sweden, as well as the early closure of nuclear units in applicant countries in the frame of EU enlargement, has largely contributed to consider decommissioning as the next challenge to face. The situation is slightly different in France: nuclear energy is still considered as a safe, cost-effective and environment friendly energy source and EDF is still working on the development of a new generation of reactor to replace the existing one. Nevertheless, to achieve this objective, it will be necessary to get the support of political decision-makers and the acceptance of public opinion. The increasing mobilisation of EDF for the decommissioning of its already shutdown NPPs shows its willingness to demonstrate its capacity to control the nuclear life cycle from end to end. The successful implementation of its decommissioning programme will not mean the end of nuclear energy as an efficient way to generate electricity but it will constitute a prerequisite for the erection of new nuclear power plants in France

  15. Dismantling and rehabilitation programme of nuclear and radioactive facilities at the Spanish Research Centre (CIEMAT)

    International Nuclear Information System (INIS)

    Diaz Diaz, J.L.; Lopez Jimenez, J.

    2002-01-01

    Ciemat was gradually proceeding to the decommissioning of its more than 60 historical facilities. At present, a general decommissioning programme has been established that includes, to a different extent, all radioactive and nuclear facilities and their areas of influence, particularly those related to the front-end and back-end of the nuclear fuel cycle, hot cells and three experimental reactors. The purpose of the programme is to manage a model of a research centre integrating, on one side, a set of radioactive and conventional facilities and laboratories, and, on the other, a small area temporarily classified as a nuclear facility dedicated to the radioactive wastes management and providing an interim storage for materials under safeguards. The largest part of the radioactive wastes produced will be sent to El Cabril, a near surface disposal facility for low and intermediate level wastes, and the rest will be temporarily stored at Ciemat. This paper presents the main features of the programme and the lessons learned in its execution so far. (author)

  16. Meeting the physics design challenges of modern LWRs being inducted into the Indian nuclear power programme

    International Nuclear Information System (INIS)

    Jagannathan, V.; Pal, Usha; Karthikeyan, R.; Raj, Devesh; Srivastava, Argala; Khan, Suhail Ahmad

    2007-01-01

    Indian nuclear power programme started with the two Boiling Water Reactors (BWR) of 210 MWe capacity at Tarapur. Two VVER-1000 MWe reactors which are Pressurized Water Reactors (PWR) of Russian design are being constructed at Kudankulam, Tamilnadu and are expected to be commissioned by end 2008. There may be also a possibility of inducting some western PWRs in future. These reactors belong to the category of light water reactors (LWR). The LWRs are compact and have complex physical characteristics distinctly different from those of the Pressurized Heavy Water Reactors (PHWR) which, currently form the mainstay of our indigenous nuclear power programme. The physics design and analysis capability for the modern LWRs (BWR, PWR and VVER) has been developed at Light Water Reactors Physics Section, BARC. This paper presents the current state of art in this key technology area to meet the physics design and operation challenges when LWRs would be inducted in a major way into the Indian nuclear power programme and commence operating in the coming decades. (author)

  17. The Nordic programme for nuclear safety 1990-1993. Plan for 1993

    International Nuclear Information System (INIS)

    1993-04-01

    In 1993 the fourth Nordic Nuclear Safety Research programme will be concluded with final reports on all of the eighteen projects. Each report will contain the results of the work carried out which has taken four years to complete and, at the same time, give a more general survey of the Northern countries' competence within the fields of emergency readiness in situations of abnormal radiation, radioactive waste and its disposal, radioecology and nuclear reactor safety - accessibility of appropriate information. Some of the reports will be published in the form of reference books or in the form of databases of direct assistance to the authorities. A number of seminars will be held so that the results and professional level of the reports can be discussed. The coordinators' and project leaders' plans for these activities are presented with the the amounts of money that project organizers have asked the Nordic Nuclear Safety Research programme to finance them with. During 1993 the plans for the programme starting in 1994 must be laid, and future researchers, project leaders, involved organizations and sponsors determined. (AB)

  18. RDandD Programme 2007. Programme for research, development and demonstration of methods for the management and disposal of nuclear waste

    International Nuclear Information System (INIS)

    2007-09-01

    The programme describes in general terms the planned measures and the facilities that are needed for the task, with a focus on the plans for the period 2008-2013. The period of immediate concern is 2008-2010. The level of detail for the three subsequent years is naturally lower. The programme provides a basis for designing systems to manage and dispose of the radioactive waste from the nuclear power plants. SKB intends to dispose of the spent nuclear fuel in accordance with the KBS-3 method. In the RDandD Programme we describe our activities and the planning for it. We also deal with societal research and other methods for disposal of spent nuclear fuel. The planning for low- and intermediate-level waste, as well as for the societal research, is presented in separate parts. The upcoming review of the programme can contribute valuable outside viewpoints. The regulatory authorities and the Government can clarify how they view different parts of the activity. Municipalities and other stakeholders can, after studying the programme, offer their viewpoints to SKB, the regulatory authorities or the Government. The most important milestone during the coming three-year period is to submit applications under the Nuclear Activities Act for the final repository for spent nuclear fuel and under the Environmental Code for the final repository system. RDandD programme 2007 therefore focuses on the technology development that is needed to realize the final repository for spent nuclear fuel. The site investigations in Forsmark and Laxemar will be concluded in 2007. The work of compiling the applications for the final repository is under way. In contrast to the immediately preceding programmes, RDandD Programme 2007 therefore also contains a summary of the site investigation phase and a look ahead at the steps that remain before the final repository can be put into operation. RDandD Programme 2007 consists of six parts: Part I SKB's plan of action; Part II Final repository for spent

  19. RDandD Programme 2007. Programme for research, development and demonstration of methods for the management and disposal of nuclear waste

    Energy Technology Data Exchange (ETDEWEB)

    2007-09-15

    The programme describes in general terms the planned measures and the facilities that are needed for the task, with a focus on the plans for the period 2008-2013. The period of immediate concern is 2008-2010. The level of detail for the three subsequent years is naturally lower. The programme provides a basis for designing systems to manage and dispose of the radioactive waste from the nuclear power plants. SKB intends to dispose of the spent nuclear fuel in accordance with the KBS-3 method. In the RDandD Programme we describe our activities and the planning for it. We also deal with societal research and other methods for disposal of spent nuclear fuel. The planning for low- and intermediate-level waste, as well as for the societal research, is presented in separate parts. The upcoming review of the programme can contribute valuable outside viewpoints. The regulatory authorities and the Government can clarify how they view different parts of the activity. Municipalities and other stakeholders can, after studying the programme, offer their viewpoints to SKB, the regulatory authorities or the Government. The most important milestone during the coming three-year period is to submit applications under the Nuclear Activities Act for the final repository for spent nuclear fuel and under the Environmental Code for the final repository system. RDandD programme 2007 therefore focuses on the technology development that is needed to realize the final repository for spent nuclear fuel. The site investigations in Forsmark and Laxemar will be concluded in 2007. The work of compiling the applications for the final repository is under way. In contrast to the immediately preceding programmes, RDandD Programme 2007 therefore also contains a summary of the site investigation phase and a look ahead at the steps that remain before the final repository can be put into operation. RDandD Programme 2007 consists of six parts: Part I SKB's plan of action; Part II Final repository for spent

  20. RDandD Programme 2007. Programme for research, development and demonstration of methods for the management and disposal of nuclear waste

    Energy Technology Data Exchange (ETDEWEB)

    2007-09-15

    The programme describes in general terms the planned measures and the facilities that are needed for the task, with a focus on the plans for the period 2008-2013. The period of immediate concern is 2008-2010. The level of detail for the three subsequent years is naturally lower. The programme provides a basis for designing systems to manage and dispose of the radioactive waste from the nuclear power plants. SKB intends to dispose of the spent nuclear fuel in accordance with the KBS-3 method. In the RDandD Programme we describe our activities and the planning for it. We also deal with societal research and other methods for disposal of spent nuclear fuel. The planning for low- and intermediate-level waste, as well as for the societal research, is presented in separate parts. The upcoming review of the programme can contribute valuable outside viewpoints. The regulatory authorities and the Government can clarify how they view different parts of the activity. Municipalities and other stakeholders can, after studying the programme, offer their viewpoints to SKB, the regulatory authorities or the Government. The most important milestone during the coming three-year period is to submit applications under the Nuclear Activities Act for the final repository for spent nuclear fuel and under the Environmental Code for the final repository system. RDandD programme 2007 therefore focuses on the technology development that is needed to realize the final repository for spent nuclear fuel. The site investigations in Forsmark and Laxemar will be concluded in 2007. The work of compiling the applications for the final repository is under way. In contrast to the immediately preceding programmes, RDandD Programme 2007 therefore also contains a summary of the site investigation phase and a look ahead at the steps that remain before the final repository can be put into operation. RDandD Programme 2007 consists of six parts: Part I SKB's plan of action; Part II Final repository for

  1. Revolution by the Law. Transformation of the Czechoslovak Federal Assembly 1989-1990

    Czech Academy of Sciences Publication Activity Database

    Roubal, Petr

    2015-01-01

    Roč. 55, č. 3 (2015), s. 60-83 ISSN 0353-0329 R&D Projects: GA ČR(CZ) GAP410/11/0423 Institutional support: RVO:68378114 Keywords : Czechoslovak Federal Assembly * the Velvet Revolution * Civic Forum Subject RIV: AB - History

  2. The Community's research and development programme on decommissioning of nuclear installations. Second annual progress report (year 1986)

    International Nuclear Information System (INIS)

    1987-01-01

    This is the second annual progress report of the European Community's programme (1984-88) of research on the decommissioning of nuclear installations. It shows the status of the programme on 31 December 1986. This second progress report describes the objectives, scope and work programme of the 58 research contracts concluded, as well as the progress of work achieved and the results obtained in 1986

  3. The community's research and development programme on decommissioning of nuclear power plants. Third annual progress report (year 1982)

    International Nuclear Information System (INIS)

    1984-01-01

    This is the third progress report of the European Community's programme (1979-83) of research on the decommissioning of nuclear power plants. It covers the year 1982 and follows the 1980 and 1981 reports (EUR 7440, EUR 8343). Since 1982 was a very active year of research under the programme, this report contains a large amount of results. Besides, the work programmes of some additional research contracts, awarded through 1982, are described

  4. Research on nuclear energy within the European Commission Research Framework Programme

    International Nuclear Information System (INIS)

    Forsstroem, H.

    2000-01-01

    The strategic goal of the 5 th EURATOM RTD Framework Programme (FP5) is to help exploit the full potential of nuclear energy in a sustainable manner, by making current technologies even safer and more economical and by exploring promising new concepts. The programme covers nuclear fusion, nuclear fission and radiation protection. Part of the programme on nuclear fission and radiation protection is being implemented through ''indirect actions'', i.e. research co-sponsored (up to 50% of total costs) and co-ordinated by DG RESEARCH of the European Commission (EC) but carried out by external public and private organisations as multi-partner projects. The budget available for these indirect actions during FP5 (1998-2002) is 191 MEuro. The programme covers four different areas: safety of existing reactors, including plant life management, severe accident management and development of evolutionary systems; safety of the fuel cycle, including radioactive waste management and disposal, partitioning and transmutation and decommissioning of nuclear installation; safety of future systems, including new or revisited reactor or fuel cycle concepts; radiation protection and radiological sciences, including both basic radiobiology and radiophysics and issues connected to the application of radiation protection. After the first calls for proposals of FP5, which were evaluated in 1999 about 140 research projects have been selected for funding and is now in the process of starting. In parallel the research projects that were supported in the 4th Framework Programme (1994 - 1998) are coming to an end, and being reported, at the same time as the first thoughts on the 6 t h FP are discussed.An important new component for the future research in Europe is the concept of a European Research Area (ERA). The purpose of ERA is to create better overall framework conditions for research in Europe. Some of the concepts being discussed in this context are networking of centres of excellence, a

  5. Objectives and limitations of scientific studies with reference to the Swedish R ampersand D programme 1992 for handling and final disposal of nuclear waste

    International Nuclear Information System (INIS)

    Sjoeblom, R.; Dverstorp, B.; Wingefors, S.

    1994-01-01

    The Swedish Nuclear Power Inspectorate (SKI) has recently concluded its evaluation of the Swedish programme for the development of a system for the management of nuclear waste. The programme was compiled and issued by the Swedish Nuclear Fuel and Waste Management Company (SKB). In this process of programme formulation and review, considerable attention has been paid to the question of how scientific studies should be directed and performed in order to provide the support needed in the programme

  6. Nuclear process heat at high temperature: Application, realization and development programme

    International Nuclear Information System (INIS)

    Sammeck, K.H.; Fischer, R.

    1976-01-01

    Studies in the Federal Republic of Germany (FRG), the USA and the United Kingdom have shown that high-temperature helium energy from an HTR can advantageously be utilized for coal gasification and other fossil fuel conversion processes, and that a substantial demand for substitute natural gas (SNG) can be expected in the future. These results are based on plant design studies, economic assessments and basic development efforts in the field of coal gasification with nuclear heat, which in the FRG were carried out by Arbeitsgemeinschaft Nukleare Prozesswaerme (ANP)-members, HRB and KFA Juelich. Nuclear process plants are based on different gasification processes, resulting in different concepts of the nuclear heat system. In the case of hydro-gasification it is expected that steam reformers, arranged within the primary circuit of the reactor, will be heated directly by the primary helium. In the case of steam gasification, the high-temperature energy must be transferred to the gasification process via an intermediate circuit which is coupled to a gasifier outside the containment. In both cases the design of the nuclear reactor resembles an HTR for electricity generation. The main objectives of the development of nuclear process heat are to increase the helium outlet temperature of the reactor up to 950 0 C, to develop metallic alloys for high-temperature components such as heat exchangers, to design and construct a hot-gas duct, a steam reformer and a helium-helium heat exchanger and to develop the gasification processes. The nuclear safety regulations and the interface problems between the reactor, the process plant and the electricity generating plant have to be considered thoroughly. The Arbeitsgemeinschaft Nukleare Prozesswaerme and HRB started a development programme, in close collaboration with KFA Juelich, which will lead to the construction of a prototype plant for coal gasification with nuclear heat within 5 to 5 1/2 years. A survey of the main objectives

  7. Capacity building in nuclear science and technology through the IAEA fellowship and scientific visit programme for Malaysia

    International Nuclear Information System (INIS)

    Saliza Jam; Ainul Hayati Daud

    2005-01-01

    Malaysia participates actively in the IAEA Technical Co-operation Programme (TCP) since it becomes a member to IAEA in 1969. The primary objective of the programme is to assist member states in achieving self-reliance in nuclear science and technology by strengthening human resource and the institutions. Human resource development has always been considered to be the most important sector cross-cutting all national programme areas. One of the technical assistance offers under the IAEA Technical Co-operation Programme (TCP) is the fellowship and scientific visits programme. This report analyses the development of capacity building in Malaysia through the IAEA fellowship and scientific visit programme during the period of 2003-2005. It also describes the success and challenges encountered during the implementation of the programme. (Author)

  8. Developing Curriculum of Nuclear Civil Engineering Degree Programme at Graduate Level

    International Nuclear Information System (INIS)

    Iqbal, J.

    2016-01-01

    Full text: The paper suggests the introduction of a new degree, namely nuclear civil engineering at graduate level for better utilization of civil engineers in nuclear power plant (NPP) design and construction. At present, both nuclear engineering and civil engineering degrees are offered at undergraduate and graduate levels in numerous renowned universities of the world. However, when a civil engineer, even after completion of nuclear engineering at postgraduate level, undertakes an assignment related to NPP design, he comes across various problems which are not covered in the present curricula. For instance, NPPs’ siting issues, design of pre-stressed concrete containment against loads of loss of coolant accident (LOCA), various impulsive and impactive loads (e.g., detonations, aircraft crash analysis, etc.) and shielding calculations are some of the core issues during nuclear power plant design. The paper highlights the importance of introduction of nuclear civil engineering degree at the graduate level. Besides, the contents of the proposed course work have also been discussed. Keeping in view the fact that, currently, no such degree is offered in any university of the world, the paper explores useful avenues to human resource development for introducing and expanding nuclear power programmes. (author

  9. Collective statement on major nuclear safety research facilities and programmes at risk

    International Nuclear Information System (INIS)

    2001-01-01

    Nuclear safety research remains necessary, since nuclear power programmes are dynamic. In addition to maintaining in-depth competencies, its aim is to provide information to plant designers, operators and regulators in support of the resolution of safety issues, to strengthen confidence in their solution and their implementation, and also to anticipate problems of potential significance. New fields of research open up as a result of plant ageing, plant life extension, plant up-rating, optimisation of plant economics and the associated need to further reduce uncertainties in safety margins quantification. The safety evaluation of future reactor systems being developed or considered in several Member countries also requires new research efforts. Accordingly, Member countries are encouraged to support efforts to maintain key research data, facilities and programmes through national support of international co-operation and funding. This should be under-pinned by development of short-, medium- and long-term strategic visions of the needs of the nuclear safety research community, including a strong component of international collaboration given the international nature of nuclear safety issues. (author)

  10. RATU2. The Finnish research programme on the structural integrity of nuclear power plants. Interim report 1995 - April 1997

    International Nuclear Information System (INIS)

    Solin, J.; Sarkimo, M.; Asikainen, M.

    1997-06-01

    The projects within the Finnish public funded research programme on the structural integrity of nuclear power plants (RATU2) are briefly introduced and the scientific and technical results obtained during the first two years, 1995-April 1997, are summarised in this report. The RATU2 programme was started in 1995 and will be continued until 1998. In 1996 this programme represented 6 % of the nuclear energy R and D in Finland. The research programme is mainly publicly funded and supplies impartial expertise for the regulation of nuclear energy. It also plays an important role in the education of new experts, technology transfer and international exchange of scientific results. The programme is organised into five research projects on the following topics: Material degradation in the reactor environment, Reliability of nondestructive inspections of nuclear power plants, Structural analyses for nuclear power plant components, Maintenance strategies and dependability, and Fire safety. The ageing of the structures and components in the Finnish nuclear power plants is one of the main issues to be considered when safety and economic operation of the plants is evaluated. At the same time, ways are being sought to extend the lifetime of components. The first half of the RATU2 research programme has already brought significant scientific findings and useful applications for ensuring the reliability of NPP components. New technology has been transferred to domestic use through active participation to international co-operation. On the other hand, international acceptance of the results has provided valuable feedback and benchmarking. (orig.)

  11. RATU2. The Finnish research programme on the structural integrity of nuclear power plants. Interim report 1995 - April 1997

    Energy Technology Data Exchange (ETDEWEB)

    Solin, J; Sarkimo, M; Asikainen, M [VTT Manufacturing Technology, Espoo (Finland). Materials and Structural Integrity; eds.

    1997-06-01

    The projects within the Finnish public funded research programme on the structural integrity of nuclear power plants (RATU2) are briefly introduced and the scientific and technical results obtained during the first two years, 1995-April 1997, are summarised in this report. The RATU2 programme was started in 1995 and will be continued until 1998. In 1996 this programme represented 6 % of the nuclear energy R and D in Finland. The research programme is mainly publicly funded and supplies impartial expertise for the regulation of nuclear energy. It also plays an important role in the education of new experts, technology transfer and international exchange of scientific results. The programme is organised into five research projects on the following topics: Material degradation in the reactor environment, Reliability of nondestructive inspections of nuclear power plants, Structural analyses for nuclear power plant components, Maintenance strategies and dependability, and Fire safety. The ageing of the structures and components in the Finnish nuclear power plants is one of the main issues to be considered when safety and economic operation of the plants is evaluated. At the same time, ways are being sought to extend the lifetime of components. The first half of the RATU2 research programme has already brought significant scientific findings and useful applications for ensuring the reliability of NPP components. New technology has been transferred to domestic use through active participation to international co-operation. On the other hand, international acceptance of the results has provided valuable feedback and benchmarking. (orig.). 112 refs.

  12. Experience with the use of programmable logic controllers in nuclear safety applications. Final report

    International Nuclear Information System (INIS)

    Brown, E.M.; Stofko, M.J.

    1995-03-01

    This report describes the implementation and experience with Programmable Logic Controllers (PLC) for nuclear safety applications. Two applications are described. The first is an Anticipated Transient Without Scram (ATWS) mitigation system provided as a Diverse Auxiliary Feedwater Actuation System (DAFAS). It was implemented at Arizona Public Service's Palo Verde Nuclear Generating Station and has been in commercial operation since early 1992. The second system described is an Emergency Diesel Generator Bus Load Sequencer installed at Florida Power and Light's Turkey Point Nuclear Power Plant. This system was installed as part of an upgrade to the emergency power system in 1988. The experience gained in the design, development, implementation and qualification of these systems will be beneficial to utilities that are considering the utilization of PLCs for their plant applications

  13. The Transparency Programme of the Swedish National Council for Nuclear Waste. A Status Report

    Energy Technology Data Exchange (ETDEWEB)

    Andersson, Kjell (Karita Research AB, Taeby (Sweden)), E-Mail: kjell.andersson@karita.se

    2009-12-15

    In this paper the activities of the Transparency Programme of the Swedish National Council for Nuclear Waste have been explored. Comparisons have been made with other activities using the same transparency approach and observations made from different reports that deal with the programme or parts of it have been taken into account. Obviously, to make firm conclusions to what extent the aims of the Transparency Programme have been achieved a formal review should be done. It seems evident however that the programme has vitalized the overall dialogue about the Swedish nuclear waste management programme and that the hearings held have raised the awareness about issues that have been dealt with such as value-laden aspects of disposals methods, feasibility of certain alternatives, the need for clarification of how regulatory criteria can be applied and the use of research on governance processes. Stakeholders seem to have appreciated the overall organization and the stretching that took place during the hearings held. For possible future activities, the observations made about the antagonism between certain parties which has existed since a long time ago and the common language and culture need to be taken into account. The core problem, however, is to reach out to the political decision makers at the national level, especially since the time distance between hearings held so far and critical government decisions is at least six years which put a high demand on the reporting system. Taking the experiences from other transparency projects into account, the Council might consider the possibility to establish a reference group with participation from different stakeholders and politicians who could have a role for conveying results to wider groups. One observer has concluded that the reporting from the Transparency Programme should be open in the sense that it should not make conclusions on the issues as such (e.g. if a certain disposal method is to prefer or not). Instead

  14. The Transparency Programme of the Swedish National Council for Nuclear Waste. A Status Report

    International Nuclear Information System (INIS)

    Andersson, Kjell

    2009-12-01

    In this paper the activities of the Transparency Programme of the Swedish National Council for Nuclear Waste have been explored. Comparisons have been made with other activities using the same transparency approach and observations made from different reports that deal with the programme or parts of it have been taken into account. Obviously, to make firm conclusions to what extent the aims of the Transparency Programme have been achieved a formal review should be done. It seems evident however that the programme has vitalized the overall dialogue about the Swedish nuclear waste management programme and that the hearings held have raised the awareness about issues that have been dealt with such as value-laden aspects of disposals methods, feasibility of certain alternatives, the need for clarification of how regulatory criteria can be applied and the use of research on governance processes. Stakeholders seem to have appreciated the overall organization and the stretching that took place during the hearings held. For possible future activities, the observations made about the antagonism between certain parties which has existed since a long time ago and the common language and culture need to be taken into account. The core problem, however, is to reach out to the political decision makers at the national level, especially since the time distance between hearings held so far and critical government decisions is at least six years which put a high demand on the reporting system. Taking the experiences from other transparency projects into account, the Council might consider the possibility to establish a reference group with participation from different stakeholders and politicians who could have a role for conveying results to wider groups. One observer has concluded that the reporting from the Transparency Programme should be open in the sense that it should not make conclusions on the issues as such (e.g. if a certain disposal method is to prefer or not). Instead

  15. The programme 'fission product deposition' at the IRB of Juelich nuclear research centre

    International Nuclear Information System (INIS)

    Gottaut, H.; Iniotakis, N.; Malinowski, J.; Muenchow, K.H.; Sackmann, B.

    1976-01-01

    The transport and deposition behaviour of the non-gaseous fission and activation products in the primary circuit of HTR-type reactors determines the possibility of inspection and maintenance of single components of the primary circuit as well as the safety of the reactor in normal operation and during accidents. For the investigation of these problems, the programme 'fission product deposition' was started at Juelich nuclear research centre in 1969 in cooperation with a number of industrial firms. The programme covers in-pile and out-of-pile experiments, in which the HTR conditions are simulated as realistically as possible, as well as various laboratory experiments and extensive theoretical studies. It is the objective of this work to establish a realistic physical model and computer programme with which the transport and deposition of nuclides in the primary circuit of HTR reactors can be calculated in advance. A report is given on the experimental and theoretical studies carried out at the IRB of Juelich nuclear research centre. (orig./AK) [de

  16. Technology transfer on long-term radioactive waste management - a feasible option for small nuclear programmes?

    International Nuclear Information System (INIS)

    Mele, I.; Mathieson, J.

    2007-01-01

    The EU project CATT - Co-operation and technology transfer on long-term radioactive waste management for Member States with small nuclear programmes investigated the feasibility of countries with small nuclear programmes implementing long-term radioactive waste management solutions within their national borders, through collaboration on technology transfer with those countries with advanced disposal concepts. The main project objective was to analyse the existing capabilities of technology owning Member States and the corresponding requirements of potential technology acquiring Member States and, based on the findings, to develop a number of possible collaboration models and scenarios that could be used in a technology transfer scheme. The project CATT was performed as a specific support action under the EU sixth framework programme and it brought together waste management organisations from six EU Member States: UK, Bulgaria, Germany, Lithuania, Slovenia and Sweden. In addition, the EC Joint Research Centre from the Netherlands also participated as a full partner. The paper summarises the analyses performed and the results obtained within the project. (author)

  17. Co-ordinated research programme on nuclear techniques for toxic elements in foodstuffs

    International Nuclear Information System (INIS)

    1990-01-01

    This Co-ordinated Research Programme (CRP) was started by the Agency in 1985, within the framework of the Regional Cooperative Agreement for Research, Development and Training Related to Nuclear Science and Technology in the Asia and Pacific Region (RCA). Its main purpose has been to obtain comparative data on existing elemental concentrations of potentially toxic elements in foodstuffs in various Asian countries. The elements to be studied include the potentially most toxic trace elements (As, Cd, Hg, Pb, Se) as well as others of relevance to national monitoring programmes, such as Br, Cr, Cu, Fe, I, Mn, Sb, Tl, and Zn. An important supplementary purpose of the programme is to help establish analytical expertise for work of this kind in the individual countries. Scientists from several RCA Member States have participated in it, namely from Australia, Bangladesh, China, India, Indonesia, Japan, Malaysia, Pakistan, Thailand, and also from institutes in several countries outside the region, i.e., Argentina, Brazil, Jamaica and The Netherlands. This report summarizes the discussions that took place during the third and final Research Co-ordination Meeting (RCM) for the programme from 20-24 November 1989, in Jakarta, Indonesia. This document includes the progress reports presented by the participants as well as discussions and conclusions drawn from the meeting

  18. Building Technical Capability for the Development of Nuclear Power Programme: Uganda's Experience

    International Nuclear Information System (INIS)

    Jagenu, A.

    2012-01-01

    The Republic of Uganda is a landlocked country in East Africa with a population of about 33 million. It lies along the equator and is bordered on the east by Kenya, north by Sudan, west by the Democratic Republic of the Congo, southwest by Rwanda, and south by Tanzania. Uganda has continued to suffer power shortage, mainly due to slow investment in the power sector as well as unreliable rainfall. To supplement the power supply, it has contracted independent power producers to supply electricity from fossil fuels. The Thermal power is expensive and contributes to emission of large amount of carbon dioxide - a major greenhouse gas causing global warming. The total estimated electricity generation potential is in the long term will be about 5300MW. In view of the increasingly energy needs and urgent environmental concerns related to power production using fossil fuels, the government recognizes that nuclear technology will play important role in future sustainable energy systems. The Government is therefore considering nuclear energy as part of the future energy mix. However, Uganda is not yet having the capacity to build a nuclear power plant, but is making earnest efforts to prepare for nuclear power programme. These include putting in place appropriate legislation and capacity building in nuclear power technology, implementing human resources development plan, which involves recruiting fresh graduate and sending them abroad for further studies in nuclear science and technology for power generation and regulations, and infrastructure requirement.

  19. Transfer of radioactive waste management expertise from Switzerland to other countries with small nuclear power programmes

    International Nuclear Information System (INIS)

    McKinley, I.; Birkhaeuser, Ph.; Kickmaier, W.; Vomvoris, S.; Zuidema, P.

    2000-01-01

    A legal requirement which coupled demonstration of the feasibility of nuclear waste disposal to the extension of reactor operational licenses beyond 1985 acted to force rapid development of the Swiss radioactive waste management programme. Over a period of almost 30 years and at a cost of approximately 800 M CHF Nagra has become established as a centre of excellence in this field. Resources include highly experienced manpower, literature and databases supporting development of national repositories for L/ILW and HLW/TRU and state-of-the-art R and D infrastructure (including 2 underground laboratories, hot-laboratory facilities at PSI (Paul Scherrer Institute), modelling groups at universities etc.). This paper reviews Nagra's experience and considers various ways in which expertise can be transferred to other small countries to minimise duplication of effort and optimise development of their own national programmes. (author)

  20. Publicly administrated nuclear waste management research programme 1994-1996. General plan for the research programme and research plan for 1994

    International Nuclear Information System (INIS)

    1994-01-01

    The nuclear energy legislation of Finland includes detailed stipulations concerning nuclear waste management. Each producer of nuclear waste is responsible for the safe handling, management and disposal of the waste, and for the financing of these operations. The authorities supervise and control the implementation of the national waste management programme and set the necessary safety and other requirements. The principal goal of the JYT programme is to provide the authorities with information and research results relevant for the safety of nuclear waste management in order to support the various activities of the authorities. The whole field of the research programme is subdivided into the following main topic areas: (1) bedrock structure and stability, rock investigation methods, and characteristics and flow of groundwater, (2) release of radionuclides from a repository and subsequent migration in the bedrock, (3) performance and safety assessment of repositories and other phases of nuclear waste management (4) natural analogue studies, (5) waste management technology and costs and (6) sociopolitical and other societal issues and environmental impact assessment

  1. Preliminary Assessment of Heavy-Water Thorium Reactors in the Brazilian Nuclear Programme

    Energy Technology Data Exchange (ETDEWEB)

    Salvo Brito, S. de; Lepecki, W. P.S. [Instituto de Pesquisas Radioativas, Belo Horizonte (Brazil)

    1968-04-15

    Since December 1965, the Instituto de Pesquisas Radioativas has been studying for the Brazilian Nuclear Energy Commission the feasibility of a thorium reactor programme in Brazil; since June 1966, the programme has been developed in close co-operation with the French Atomic Energy Commission. A reference conceptual design of a heavy-water-cooled and -moderated thorium converter reactor has been developed. The main features of that concept are the use of a prestressed-concrete pressure vessel, integrated arrangement of the primary circuit and the possibility of on-load fuel management. Economic competitiveness could be the result of high compactness, low capital costs and low fuel consumption. The technology involved is not very sophisticated; intensive engineering development work must be done in areas like fuel charge machine, concrete vessel insulation, and proper design of heat exchangers, but it is the feeling of the Group that these problems could be solved without seriously compromising the economic feasibility of the concept. Preliminary studies were made on the alternative use of enriched uranium or plutonium as a feed for the programme; in the latter case, plutonium could be produced in natural uranium reactors of the same type. The general conditions favouring each of these approaches to the thorium cycle have been determined, in particular those related to the costs of the fissile materials in the world market and to the country's policy related to nuclear fuel imports. The results of the preliminary studies are very encouraging and could justify the beginning of a research and development programme leading to the construction of a prototype in the 1970's. (author)

  2. Eu-funded nuclear research on plant life management in the 4. and 5. framework programme

    International Nuclear Information System (INIS)

    Lemaitre, P.; Van Goethem, G.

    2001-01-01

    In this paper an overview will be given of the European Union EURATOM research in the field of plant life management and ageing of structural components. The results obtained so far in the projects executed under the 5. framework programme (FP-5/1999-2002) will be presented and discussed in detail. The objectives of the 5. framework programme, which is end-user driven, are: 1) to develop a common basis for the continued safe operation and prolonging the safe operational life-spans of existing nuclear installations; 2) to develop better methods for their inspection, maintenance and management (both in terms of performance and occupational exposure). The following three sections were proposed under this heading of the work programme: Integrity of equipment and structures, on-line monitoring, inspection and maintenance, and organisation and management of safety. Besides the traditional technological challenges, socio-economic concerns are also taken on board, such as public acceptance and cost of the nuclear option as well as plant simplification and man-technology-organisation interaction. An additional challenge for the EU consists of the enlargements process towards Central and Eastern European Countries in the coming years. Therefore FP5 pays attention also to plant safety assessments of VVER reactors and to the spreading of the new safety culture in these candidate countries in co-operation with similar activities run at the Commission especially under the programmes of Tacis/Phare and of the Joint Research Centre (JRC). In the area of plant life management so far 18 projects have been selected for funding by the European Commission. Most of them are costs shared actions, which means that the European Commission on the one hand and the project partners on the other hand provide each 50 % of the necessary funding. The total contract value of the selected projects is about 18 million euros. (authors)

  3. Eu-funded nuclear research on plant life management in the 4. and 5. framework programme

    Energy Technology Data Exchange (ETDEWEB)

    Lemaitre, P.; Van Goethem, G. [European Commission, Dir. General Research, Bruxelles (Belgium)

    2001-07-01

    In this paper an overview will be given of the European Union EURATOM research in the field of plant life management and ageing of structural components. The results obtained so far in the projects executed under the 5. framework programme (FP-5/1999-2002) will be presented and discussed in detail. The objectives of the 5. framework programme, which is end-user driven, are: 1) to develop a common basis for the continued safe operation and prolonging the safe operational life-spans of existing nuclear installations; 2) to develop better methods for their inspection, maintenance and management (both in terms of performance and occupational exposure). The following three sections were proposed under this heading of the work programme: Integrity of equipment and structures, on-line monitoring, inspection and maintenance, and organisation and management of safety. Besides the traditional technological challenges, socio-economic concerns are also taken on board, such as public acceptance and cost of the nuclear option as well as plant simplification and man-technology-organisation interaction. An additional challenge for the EU consists of the enlargements process towards Central and Eastern European Countries in the coming years. Therefore FP5 pays attention also to plant safety assessments of VVER reactors and to the spreading of the new safety culture in these candidate countries in co-operation with similar activities run at the Commission especially under the programmes of Tacis/Phare and of the Joint Research Centre (JRC). In the area of plant life management so far 18 projects have been selected for funding by the European Commission. Most of them are costs shared actions, which means that the European Commission on the one hand and the project partners on the other hand provide each 50 % of the necessary funding. The total contract value of the selected projects is about 18 million euros. (authors)

  4. Research plan on programmable automation systems in nuclear power plants (OHA) in 1995-1998

    International Nuclear Information System (INIS)

    Haapanen, P.; Pulkkinen, U.; Korhonen, J.

    1995-05-01

    The main purpose of nuclear energy research is to ensure the safety and continued development of Finnish nuclear power plants - a task which places high demands on expertise needed to support the work of public authorities and power companies. A factor necessarily influencing the orientation of the research is the Parliament's decision of late 1993 against further nuclear capacity in the country. Therefore the main emphasis of research shall be directed towards the ensuring the safety of existing plants and the continuous development of their safety along the progress of the science and technology. Anyhow, the preparedness for constructing new plants shall also be preserved. The utilization of programmable digital automation technology for the safety critical functions is the most significant change in the new plants, but also in existing plants this technology will be used for replacing and complementing the ageing automation systems. The safety evaluation of programmable digital systems can not be based on methods applied to conventional analog systems but new evaluation methods and tools must be developed for the assessing of their acceptability. (5 refs., 1 fig., 2 tabs.)

  5. Nuclear data for waste transmutation in the EURATOM RTD fifth framework programme

    International Nuclear Information System (INIS)

    Bhatnagar, V.P.; Hugon, M.

    2002-01-01

    For the design of an Accelerator Driven Sub-critical System (ADS), nuclear cross section data are required over a wide energy range for the spallation target and structural materials. The paper summarises the EURATOM RTD Fifth Framework (FP5) Programme structure, nuclear data projects and the international collaboration in this field including that with International Science and Technology Centre (ISTC), Moscow. Two shared cost projects (HINDAS, total budget: 3.26 MEuro and n TOF ND ADS, 6.52 MEuro) in the EURATOM FP5 Programme aim to provide the above required data by performing experiments at most of the major accelerator facilities across Europe. The first project, HINDAS, will carry out basic cross section measurements, nuclear model simulations and data evaluations in the 20-200 MeV energy region and beyond for iron, lead and uranium. The second project, n TOF ND ADS, aims at the production, evaluation and dissemination of neutron cross sections for most of the radioisotopes (actinides and long-lived fission products) that are being considered for transmutation in the energy range from 1 eV up to 250 MeV. (author)

  6. The ethical implications of nuclear power in Czechoslovakia

    International Nuclear Information System (INIS)

    Komarek, A.

    1991-01-01

    Editor of the journal, the Czechoslovak Atomic Energy Commission (CSAEC) is opening up a discussion on the basic problems of nuclear power in Czechoslovakia. Renowned authorities from the Czechoslovak political and professional community have been invited to contribute. Initiator of the discussion, the author of the paper formulated 5 principal tasks of Czechoslovak nuclear industry for the nearest period to come. CSAEC should only retain the function of State Surveillance over Nuclear Safety; the lowest permissible degree of nuclear safety should be defined for Czechoslovakia; Czechoslovak nuclear law should be modified so as to be compatible with the EC and not only with the IAEA; after completing the first two units of the Temelin nuclear power plant, links of the Czechoslovak nuclear industry should be established to some Western firm; and attitude to the feasibility of further operation of the Bohunice V-1 nuclear power plant and to the conditions of operation of the V-2 nuclear power plant should be formulated. (Z.M.)

  7. The Role of a Short-Term Education Programme in International Nuclear Human Resource Development and Knowledge Management

    International Nuclear Information System (INIS)

    Murakami, K.; Uesaka, M.

    2016-01-01

    Full text: The Nuclear Energy Management School is proposed as a good tool to structure the experiences of industries. The importance of a short-term international education programme for gathering knowledge regarding nuclear embarkation projects is discussed in this paper. The results of evaluating education efficiency from 2013 to 2016 will also be introduced in this presentation (or poster). (author

  8. Modernization programme for nuclear power plant units with VVER-1000 in Ukraine

    International Nuclear Information System (INIS)

    Shenderovich, V.

    1997-01-01

    All Ukrainian nuclear power plants with WWER type reactors are briefly described from the safety point of view. Information is given on the design and construction of the units. The main goals of upgrading are: elimination of incompliances with current safety standards, improvement of the reliability of safety significant systems, equipment and elements, and implementation of IAEA recommendations. A list of actions making up the large upgrading programme is given; it includes 181 measures to be taken. At present the measures are being designed in order to find appropriate engineering solutions, to develop technical specifications for new equipment, and to ensure precise cost estimation. (M.D.)

  9. Electricite de France Strategy for its nuclear power plants' decommissioning programme

    International Nuclear Information System (INIS)

    Knockaert, J.M.; Gatineau, J.P.

    1992-01-01

    Although final shutdown of the first large PWR Power Stations should not occur before 2015, Electricity of France is nevertheless directly concerned by the decommissioning of its nuclear plants. The shutdown programme of the gas-graphite units is in progress and the medium-power PWR plant (300 MWe) installed at Chooz in the Ardennes will be finally shutdown at the end of 1991. This solution requires EDF to have a policy available which enables it to simultaneously run the double operation 'Plant shutdown-decommissioning' and 'New constructions-increasing available power' from both the technical and financial viewpoints. (author)

  10. RD and D Programme 98. Treatment and final disposal of nuclear waste. Programme for research, development and demonstration of encapsulation and geological disposal

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1998-09-01

    RD and D-Programme 98 is intended to provide an overview of SKBs activities and plans. The detailed research programme is presented in a separate background report. In parallel with RDD-Programme 98, SKB is publishing a number of reports that provide a more thorough background and a more detailed account, particularly on those issues that the Government mentioned in its decision regarding RD and D-Programme 95. The programme is divided into two parts: Background and Execution. The background part begins with a chapter on the basic premises. It deals with general principles, laws and the properties of the waste. The facilities that exist today for dealing with the nuclear waste are also described in the introductory chapter. The two following chapters have to do with the choice between different methods for disposing of nuclear waste and with the KBS-3 method, which SKB has chosen as its main alternative. These two chapters provide a broader account of both the KBS-3 method and different alternative methods than previous RD and D-programmes. The background part concludes with a chapter about the long-term safety of the deep repository. The second part, Execution, begins with an overview of SKBs strategy and the main features of the programme, both for the next few years and further in the future. The plans for siting, technology and safety assessment are then presented in greater detail. This is followed by an overview of our plans for supportive research and development, including continued R and D on other methods than the KBS-3 method. The programme concludes with a chapter on decommissioning of nuclear facilities. An important part of the ongoing and planned work is consultation on environmental impact assessments. A first draft of the contents of future environmental impact statements is therefore provided. By attaching it to RD and D-Programme 98, SKB wishes to give all reviewing bodies an opportunity to offer their viewpoints at an early stage on what future

  11. RD and D Programme 98. Treatment and final disposal of nuclear waste. Programme for research, development and demonstration of encapsulation and geological disposal

    International Nuclear Information System (INIS)

    1998-09-01

    RD and D-Programme 98 is intended to provide an overview of SKBs activities and plans. The detailed research programme is presented in a separate background report. In parallel with RDD-Programme 98, SKB is publishing a number of reports that provide a more thorough background and a more detailed account, particularly on those issues that the Government mentioned in its decision regarding RD and D-Programme 95. The programme is divided into two parts: Background and Execution. The background part begins with a chapter on the basic premises. It deals with general principles, laws and the properties of the waste. The facilities that exist today for dealing with the nuclear waste are also described in the introductory chapter. The two following chapters have to do with the choice between different methods for disposing of nuclear waste and with the KBS-3 method, which SKB has chosen as its main alternative. These two chapters provide a broader account of both the KBS-3 method and different alternative methods than previous RD and D-programmes. The background part concludes with a chapter about the long-term safety of the deep repository. The second part, Execution, begins with an overview of SKBs strategy and the main features of the programme, both for the next few years and further in the future. The plans for siting, technology and safety assessment are then presented in greater detail. This is followed by an overview of our plans for supportive research and development, including continued R and D on other methods than the KBS-3 method. The programme concludes with a chapter on decommissioning of nuclear facilities. An important part of the ongoing and planned work is consultation on environmental impact assessments. A first draft of the contents of future environmental impact statements is therefore provided. By attaching it to RD and D-Programme 98, SKB wishes to give all reviewing bodies an opportunity to offer their viewpoints at an early stage on what future

  12. Preparation of Act on State Surveillance of Nuclear Safety of Nuclear Installations

    International Nuclear Information System (INIS)

    Kyncl, J.

    1983-01-01

    The Czechoslovak Government Decree no. 179 of June 1982 approved the principles underlying the first Czechoslovak legal norm to complexly resolve the problem of State surveillance of nuclear safety of nuclear installations. In the introduction the law will define the concept of nuclear safety of nuclear installations and will justify the reasons for which it has to be assured. The individual parts of the law will deal with the establishment of State surveillance of nuclear safety, the tasks of the Czechoslovak Atomic Energy Commission in this area, the control activity of Commission personnel, the measures taken against responsible organizations and personnel for failing to observe their duties, the obligations of bodies and organizations, and the cooperation between inspection bodies. (A.K.)

  13. Launching a nuclear nower programme in a developing country - Technical and Scientific Support Organisations (TSO) in capacity building

    International Nuclear Information System (INIS)

    Ngotho, E.M.

    2010-01-01

    The need for involvement of Technical and Scientific Support Organisations (TSO) in developing countries intending to launch a nuclear power programme (NPP) cannot be overemphasized. In an International Conference on Topical Issues in Nuclear Installation Safety held in 2008, Mumbai, India, I presented a paper entitled 'Launching a Nuclear Power Programme - a third world country's perspective' - IAEA-CN-158/9. I pointed out some real constraints encountered by a developing country while trying to introduce a nuclear power programme. This was inadequate base infrastructure, financial incapability and lack of skilled manpower. Granted there are areas where the role of TSOs is minimal like in carrying the actual cost of infrastructure but their input in areas of technology, evaluation, assessment and skills development cannot be gainsaid. (author)

  14. Modelling of critical functions of nuclear reactors using Fild Programmable Gate Array

    International Nuclear Information System (INIS)

    Teixeira, Pamela Iara Nolasco

    2016-01-01

    This paper proposes the development of a method using FPGA for critical security functions of a nuclear reactor. It was implemented two critical safety functions in VHDL, which is a way to describe, through a program, the behavior of a circuit or digital component. Two critical security functions, FCS Core Cooling, responsible for cooling the reactor core in the charts of the plant and also in the event of accidents involving loss of coolant and FCS Heat Transfer, responsible for cooling the reactor core in the event an accident with loss of coolant were implemented. In this Dissertation it was chosen the use of FPGA, because - due to the effects of aging, obsolescence issues, environmental degradation and mechanical failures - nuclear power plants need to replace their older systems by new ones based on digital technology. The technologies obtained using a system described in hardware language can be implemented in a programmable device, having the advantage of changing the code at any time. (author)

  15. A distance assisted training programme for nuclear medicine technologists methodology and international experience

    International Nuclear Information System (INIS)

    Patterson, Heather

    2002-01-01

    The Distance Assisted Training Programme for Nuclear Medicine Technologists (DAT) has been developed and coordinated through West mead Hospital, Sydney and directed under the auspices of the International Atomic Energy Agency (IAEA). The objective of the program is to provide primarily developing countries with teaching resources for development of technologist education and a framework for the delivery of training courses that can be adapted to best suit local need. Careful planning and development of learning materials, translation to several languages and program implementation have resulted in >400 technologists in 24 countries currently participating in the course of study within Asia, Latin America and Africa. The development and implementation of suitable assessment techniques has provided a structure for technologists to attain a common basic standard in competencies across the regions. Graduates have better opportunities to further their education as well as contribute to improved use of advancing technologies in nuclear medicine (Au)

  16. Strengthening Technical Specialist Training for an Expanding Nuclear Power Programme in the UK

    International Nuclear Information System (INIS)

    Robertson, John L.

    2014-01-01

    NTSTS: Future Plans: • Introduce new pathway in Nuclear Reactor Operations into FD/BEng (Plant Engineering) programmes. • Outline curriculum based on INPOs Nuclear Uniform Curriculum for Power Plant Technician, Maintenance and Non-licensed Operations Personnel. • Procurement of generic Pressurised Water Reactor Simulation Suite – due for delivery/commissioning by Sep 2014 • Gen 2 has established a partnership with Tecnatom SA of Spain – experienced in operator training for PWR and BWR. • Proposals to establish a bespoke Reactor Operations Training Centre (ROTC) close to NuGen’s planned AP1000 new build at Moorside, West Cumbria. • In longer term, ROTC could house full scope AP1000 simulator for licensed operator training

  17. The Nordic programme for nuclear safety 1990-1993. Report for 1992

    International Nuclear Information System (INIS)

    1993-04-01

    The annual report contains the coordinators' summary of the results so far achieved by the in all 18 current projects in which 200 persons are taking part. In some cases the project leader's account is included. An overview is given of the programme's costs and orders during 1992 in relation to the subsidies given to the individual projects. The fields covered by these projects are emergency readiness in radiation situations which are not normal, nuclear wastes and their disposal, radioecology, reactor safety - knowledge readiness, and coordination efforts. An economical overview is given and English summaries of the projects presented at the summer meeting in 1992 are presented. A list of the names of the members of the Nordic Nuclear Safety Research members in the syndicate and reference groups is included in the publication, and a brief description is to be found of the institution's activities. (AB) (78 refs.)

  18. On-Going Nuclear Physics and Technology Research Programmes in Europe

    International Nuclear Information System (INIS)

    Vaz, Pedro

    2007-01-01

    Innovative nuclear technology applications have emerged in recent years and triggered an unprecedented interest of different communities of scientists worldwide, concerned by the multidisciplinary scientific, technical and engineering aspects of such applications. ADS (Accelerator Driven Systems, for the transmutation of highly radiotoxic nuclear waste), EA (Energy Amplifiers, for the production of energy), Spallation Neutron Sources (for multiple applications such as in Bio-Sciences, Medicine, Material Science), Radioactive Ion Beams (of relevance for fundamental Nuclear Physics and Astrophysics, for applications in Medicine, amongst many others) are examples of applications that address a set of common multidisciplinary, leading edge and cross-cutting issues and research topics. Other applications being considered for High-Energy Physics purposes consist on facilities aiming at producing intense neutrino beams.The sustainability of nuclear energy as an economically competitive, environmentally friend and proliferation resistant technology to meet mankind's growing energy demand has imposed in recent years the consideration of new (Generation IV) or non-conventional types of nuclear reactors, operating with non-standard coolants, higher-energy neutron spectra, higher temperatures, amongst other issues. The safety and operational aspects of these nuclear energy systems share with the nuclear technology applications previously referred (ADS, EA, SNS, etc.) a set of common scientific and technical issues.In this paper, the scientific, technical and engineering topics and issues of relevance for the implementation and deployment of some of the systems previously described are briefly presented. A set of selected major on-going R and D programmes and experiments involving international collaborations of scientists and consortia of institutions are succinctly described

  19. Targets and criteria for the effective participation of national industry in a domestic nuclear power programme

    International Nuclear Information System (INIS)

    Py, J.P.

    1986-01-01

    The interest in maximum use of national resource is common to all countries, the highly industrialized as well as the developing ones. Although benefits can be expected from national participation in a domestic nuclear power programme and may not be limited to this programme, such national participation is restricted by constraining factors: economic, financial, technical and political. Considering the various natures of activities - design, procurement, manufacturing, erection -, their technical difficulties, their potential spin-off effects on the overall industrial development of a country, the paper reviews the materials and components of a nuclear power plants which can be selected as targets for domestic production. The paper also reviews criteria which must be considered in setting these Target materials and components in order to overcome restricting factors to national participation such as cost of national products, financing, investment capability, adequate market size, availability of qualified manpower, industrial capability and quality standards, availability of technology and know-how, conflicts of interests. Some concrete examples drawn from previous experience will illustrate France efforts to overcome these limiting factors [fr

  20. Cooling towers of nuclear power plants

    International Nuclear Information System (INIS)

    Mikyska, L.

    1986-01-01

    The specifications are given of cooling towers of foreign nuclear power plants and a comparison is made with specifications of cooling towers with natural draught in Czechoslovak nuclear power plants. Shortcomings are pointed out in the design of cooling towers of Czechoslovak nuclear power plants which have been derived from conventional power plant design. The main differences are in the adjustment of the towers for winter operation and in the designed spray intensity. The comparison of selected parameters is expressed graphically. (J.B.)

  1. Qualification of Programmable Electronic System (PES) equipment based on international nuclear I and C standards

    International Nuclear Information System (INIS)

    De Grosbois, J.; Hepburn, G. A.; Olmstead, R.; Goble, W.; Kumar, V.

    2006-01-01

    Nuclear power plants (NPPs) are increasingly faced with the challenge of qualifying procured equipment, sub-components, and systems that contain digital programmed electronics for use in safety-related applications. Referred to as a 'programmable electronic system' (PES), such equipment typically contains both complex logic that is vulnerable to systematic design faults, and low voltage electronics hardware that is subject to random faults. Procured PES products or components are often only commercial grade, yet can offer reliable cost effective alternatives to custom-designed or nuclear qualified equipment, provided they can be shown to meet the quality assurance, functional safety, environmental, and reliability requirements of a particular application. The process of confirming this is referred to as application-specific product qualification (ASPQ) and can be challenging and costly. This paper provides an overview of an approach that has been developed at Atomic Energy Canada Limited (AECL) and successfully applied to PES equipment intended for use in domestic Candu R 6 nuclear power plants and special purpose reactors at Chalk River Laboratories. The approach has evolved over the past decade and has recently been adapted to be consistent with, and take advantage of new standards that are applicable to nuclear safety-related I and C systems. Also discussed are how recognized third-party safety-certifications of PES equipment to International Electrotechnical Commission (IEC) standards, and the assessment methods employed, may be used to reduce ASPQ effort. (authors)

  2. Application and Misapplication of the Czechoslovak STP Cipher During WWII – Report on an Unpublished Manuscript

    Czech Academy of Sciences Publication Activity Database

    Porubský, Štefan

    2017-01-01

    Roč. 70, č. 1 (2017), s. 41-91 ISSN 1210-3195 Institutional support: RVO:67985807 Keywords : STP cipher * Josef Růžek * Karol Cigáň * František Moravec * Czechoslovak military cryptography * Word War II Subject RIV: BA - General Mathematics OBOR OECD: Computer sciences, information science, bioinformathics (hardware development to be 2.2, social aspect to be 5.8) https://tatra.mat.savba.sk/paper.php?id_paper=1412

  3. Being a Modern Christian and Worker in the Czechoslovak National State (1918–1938)

    Czech Academy of Sciences Publication Activity Database

    Jemelka, Martin

    2017-01-01

    Roč. 57, č. 3 (2017), s. 97-113 ISSN 0353-0329 R&D Projects: GA ČR GA16-04364S Institutional support: RVO:67985921 Keywords : Czechoslovak Church, 1918-1938 * workers Subject RIV: AB - History OBOR OECD: History (history of science and technology to be 6.3, history of specific sciences to be under the respective headings)

  4. Quality assurance for safety in nuclear power plants and other nuclear installations. Code and safety guides Q1-Q14. A publication within the NUSS programme

    International Nuclear Information System (INIS)

    1996-01-01

    The code provides the basic requirements for establishing and implementing quality assurance programmes for the stages of siting, design, construction, commissioning, operation and decommissioning of nuclear power plants. These basic requirements apply to all individuals and organizations, including designers, suppliers, constructors, manufacturers and operators. The basic quality assurance requirements presented in this Code also apply, with appropriate modifications, to nuclear installations other than nuclear power plants

  5. Annual report 1999. NKS-programme 1998-2001[Nordic Nuclear Safety Programme]; Aarsrapport 1999. NKS-programmet 1998-2001

    Energy Technology Data Exchange (ETDEWEB)

    Bennerstedt, T. [ed.

    2000-02-01

    The Nordic nuclear safety programme consists of projects within the areas of risk assessment, reactor safety, waste, emergency preparedness, and environmental consequences. The annual report presents results and economic issues in relation to approved project plans and budgets. Also the more important reports, agreements, seminars, meetings etc are listed. Participating organisations and persons are mentioned, and the total national contributions (besides NKS- own means) to research are stated. (EHS)

  6. JRC/IE support activities to PHARE nuclear safety programmes. Dissemination of PHARE project results

    International Nuclear Information System (INIS)

    Ranguelova, V.; Pla, P.; Rieg, C.; Bieth, M.

    2005-01-01

    Nuclear safety in Europe is one of European Union's primary concerns, therefore the European Union decided to take a prominent role to help the New Independent States and countries of Central and Eastern Europe to ensure the safety of their nuclear reactors. The European Union TACIS and PHARE programmes in nuclear safety have been undertaken since 1990. The European Commission's Directorate General External Relations (EC DG RELEX) and, Directorate General Europe Aid Co-operation Office (EC DG AIDCO), are responsible for programming and management of implementation of TACIS projects. Directorate General Enlargement (EC DG ELARG) is responsible for programming PHARE programmes, but implementation of most projects has been decentralised since 1999 budget year to the Beneficiary countries. DG ELARG acts as backstopping for the relevant EC Delegations. In these activities, the TSSTP Unit at the JRC/IE in Petten, The Netherlands, is a technical and scientific adviser of DG RELEX and DG AIDCO and provides support to DG ELARG for very specific technical issues. Several PHARE projects aiming at improving nuclear safety have been successfully implemented for a number of plants from Central and Eastern Europe. In some cases major safety issues have been addressed by means of multi-country projects and results have been disseminated to the rest of the nuclear community. Although a lot of information has been exchanged at a bilateral level, further effort is needed to collect the project results in a systematic way and make them available by means of the internet. At present the TSSTP Unit is implementing two projects for dissemination of PHARE project results. This activity will take a better advantage of today's communication technologies and ensure the management of the acquired knowledge through preservation and user-friendly access and retrieval of the project results. The paper provides an outline of the TSSTP Unit relevant knowledge preservation initiative, a description

  7. Status of Nuclear Science Education and the Needs for Competency Based Education at the Beginning of Nuclear Power Programme in Turkey

    International Nuclear Information System (INIS)

    Yücel, H.

    2016-01-01

    Full text: In Turkey, in recent years, public opinion is mostly positive towards the establishment of NPPs because electricity demand is ever-increasing with a growing population and developing economy. For peaceful nuclear energy use, Turkey ratified the NPT in 1979 and has had a safeguards agreement, and its Additional Protocol since 2001. However, Turkey has not accumulated the essential nuclear knowledge and experience until now. The present nuclear education and training programmes are not focused on nuclear safety and power technology. There is lack of competencies concerned with measuring and monitoring, instrumentation and control for a safe operation of a reactor, and other specific nuclear equipment and facilities on site. The urgent needs should be determined to commence a competency based education in which the younger generations will instill confidence to nuclear technology. In nuclear training and education programs, it should be given a priority to nuclear safety and security culture. This should be a key requirement for newcomers to nuclear technology. In this presentation, the present status of nuclear science education in Turkey is discussed briefly and the fundamental arguments are dealt to focus on competency based nuclear education. Within international community, Turkey can seek collaborations and can consider the new challenges to tackle with the present difficulties in nuclear education programmes as a newcomer country. (author

  8. IAEA's technical co-operation programme and its role in assisting member states in the safe utilisation of nuclear power

    International Nuclear Information System (INIS)

    Reed, J.

    2000-01-01

    In this contribution the author deals with the technical co-operation projects of the IAEA. The Agency's technical co-operation programme is a most welcome mechanism for the transfer of nuclear technology, and to developing countries it is certainly the most attractive side of the Agency, since it is through this programme that the IAEA can contribute to the solution of their problems through the provision of know-how, technology and training. (authors)

  9. Cost Effective Ways of Implementing Nuclear Power Programme in African Countries

    International Nuclear Information System (INIS)

    Aderojua, Abraham; Choi, Kwang Sik

    2011-01-01

    still growing fast and hence are characterized by a foreseeable increase in electricity demand to drive the factors of production. 1.3 Objective of this Paper The purpose of this paper is to explore the efficient means of building nuclear power plants and associated infra structure in African countries. The concept adopted in this paper to achieve efficient allocation of resources is sharing of infrastructural items. The paper lists examples of sharing arrangement on the African continent for other purposes other than nuclear power programme. This is an attempt to justify the workability of the concept for nuclear power programme. Mention has also been made of similar sharing arrangement in other countries for the purpose of nuclear power programme. The factors that will enhance the success of sharing concept in African countries have also been highlighted

  10. South Africa [National and regional programmes on the production of hydrogen using nuclear energy

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2013-03-15

    for the development of a national nuclear policy in 2007, South Africa decided for the promotion of an ambitious nuclear power plant construction programme. It has been projected that an additional 40 GW of electricity will be required over the next 20 years in South Africa. By 2030, nuclear energy should provide 30% of electricity in South Africa, from a fleet of LWRs and HTGRs.

  11. The role of national consultant services industries to support the first nuclear power plant programme in Indonesia

    International Nuclear Information System (INIS)

    Dharu Dewi; Sahala Lumbanraja; Sriyana

    2007-01-01

    Study has been done which concerning the role of Indonesian National Consultant Services Industries to support the First Nuclear Power Plant (NPP) Programme in Indonesia. NPP programme activities will be success if the studies should be started with good planning. To obtain the optimal results, the opportunity and the role of national consultants should be considered to the localization of NPP Programme to be bigger. Utilizing of national consultants services can be expected to become second opinion which is to play important role in socialization of NPP Programme. The Government and NPP Project Owner's candidate should analysis, plan and implement the Nuclear Power Plant Programme activities, started from identification of the available national consultants, considering the national consults procurement process, definition of scope of works of national consultants activities, carry out the selection of national consultants, evaluation, monitoring and supervision so that the utilizing of national consultants will give benefit more effective, efficient, economic appropriate objectives and good quality. This study to assess the structure and type of national consultants, works package which can be done by national consultants, selection methods of national consultants, constraints of national consultants and enhancing of the role of national consultants to involve and support in the nuclear power plant programme in Indonesia. The research methods are literature study, consultation with resource person and exploring of website/internet. (author)

  12. Strengths, weaknesses, opportunities and threats – swot analysis regarding the romanian participation in euratom programmes on nuclear safety topic

    International Nuclear Information System (INIS)

    Apostol, M.; Constantin, M.; Diaconu, D.

    2013-01-01

    In the frame of FP7 - NEWLANCER project, SWOT analysis (Strengths, Weaknesses, Opportunities and Threats) was performed by each partner from New Member States (NMS) in order to provide valuable input for the development of policies aimed to increase the participation of the NMS in Euratom programmes on the following topics: Generation III and IV systems and materials, Nuclear safety, Radioprotection, Radioactive waste management, and Education and training. The final objective of SWOT analysis performed by National Expert Groups on Nuclear Safety (NS) topic was to propose strategies, in order to reduce the influence of identified negative factors and to enhance influence of identified positive factors, regarding Romanian participation in Euratom programmes. (authors)

  13. YKAe - Research programme on nuclear power plant systems behaviour and operational aspects of safety

    International Nuclear Information System (INIS)

    Mattila, L.; Vanttola, T.

    1992-01-01

    The major part of nuclear energy research in Finland has been organised as five-year nationally coordinated research programs. The research programme on Systems Behaviour and Operational Aspects of Safety is under way during 1990-1994. Its annual volume has been about 35 person-years and its annual expenditure about FIM 18 million. Studies in the field on safe operational margins of nuclear fuel and reactor core concentrate on fuel high burn-up behaviour, VVER fuel experiments, and reactor core behaviour in complex reactivity transients such as 3-D phenomena and ATWS events. The PACTEL facility is used for the thermal hydraulic studies of the Loviisa type reactors (scaled 1:305). Validation of accident analysis codes is carried out by participation in international standard problems. Advanced foreign computer codes for severe reactor accidents are implemented, modified as needed and applied to level-2 PSAs and the improvement of accident management procedures. Fire simulation methods are tested using data from experiments in the German HDR facility. A nuclear plant analyzer for efficient safety analyses is being developed using the APROS process simulation environment. Computerized operator support systems are being studied in cooperation with the OECD Halden Project. The basic factors affecting plant operator activities and the development of their competence are being investigated. A comprehensive system for the control of plant operational safety is being developed by combining living PSA and safety indicators

  14. Manpower development for nuclear power programme. China. Project findings and recommendations

    International Nuclear Information System (INIS)

    Csik, B.J.

    1992-01-01

    The United Nations Development Program (UNDP) project was conceived in April 1985, implementation was started on preliminary authorization by summer 1986, and it was approved and signed in early 1987. The duration was originally planned for three years with a UNDP input of US$ 1,657.500 (including Government cost sharing of US$ 280,000). The project is now essentially completed with a few items still pending, though committed as firmly planned, and the current cost estimate is US$ 1,707.617. The objective of the project was to assist in establishing long-term training programmes in two training centres in the People's Republic of China (Qinshan and Suzhou) and strengthen the training capabilities at these centres. The two centres are intended to provide specialized comprehensive training in basic and applied nuclear power engineering disciplines as well as in construction, operation and maintenance of nuclear power plants to technical personnel assigned to the nuclear power plants in the People's Republic of China

  15. Developing a programme on molecular nuclear medicine. Proceedings of a technical meeting

    International Nuclear Information System (INIS)

    2007-07-01

    been increasingly applied for revealing the different profiles of normal and affected cells or tissues and also for the following-up treatment of certain diseases like minimal residual disease (MRD). The detection of changes in the level of transcription of certain genes using this approach has been a useful tool for the early detection of disease, improving the patient survival. At the Technical Meeting on Developing a Medium to Long Term Programme on Molecular Nuclear Medicine, held in Vienna, 29 November - 1 December 2004, certain areas were selected as the best candidates to be included in the IAEA's programme in relation to their applicability and potential to improve human health. The IAEA will continue supporting training activities and fellowships, and encouraging developing Member States to take advantage of the use of isotopic advanced molecular techniques for the resolution of their health problems. This TECDOC contains useful information for health workers in the nuclear medicine and molecular biology fields. Previous IAEA publications, Nuclear Medicine Resources Manual (STI/PUB/1198), Radionuclides in Molecular Technology for Diagnosis of Communicable Diseases (IAEA-TECDOC-748), In Vitro Radionuclide Techniques in Medical Diagnosis (IAEA-TECDOC-1001) and Organization of a Radioisotope Based Molecular Biology Laboratory (IAEA-TECDOC-1528), are separately focused on nuclear medicine and molecular biology techniques applied to human diseases, while the present publication provides presentations on the advances of molecular nuclear medicine techniques

  16. The Swedish Nuclear Power Inspectorate's Review Statement and Evaluation of the Swedish Nuclear Fuel and Waste Management Co's RD and D Programme 2001

    International Nuclear Information System (INIS)

    2002-09-01

    According to the Act on Nuclear Activities, the holder of a licence to operate a nuclear reactor must adopt all necessary measures to manage and dispose of spent nuclear fuel and nuclear waste. The Act stipulates requirements on a research programme which is to be submitted to the competent regulatory authority once every three years. The Swedish Nuclear Power Inspectorate (SKI) is the competent authority that evaluates and reviews the programme. SKI distributes the programme to a wide circle of reviewing bodies for comment, including authorities, municipalities, universities and NGOs. The Swedish programme for final disposal of spent nuclear fuel started about 25 years ago. According to the Swedish Nuclear Waste Management Co. (SKB), the planned repository will not be closed until sometime in the 2050's. A series of decisions must be made before this goal is attained. The decision process can therefore be described as a multi-stage process. During each stages, safety will be evaluated and there is a possibility of taking additional time for development work or of selecting improved solutions. SKI's task is to ensure safety compliance throughout all of these stages. In its decision in January 2000, the Government explained that the Programme for Research, Development and Demonstration for the Treatment and Final Disposal of Nuclear Waste (RD and D Programme 98) complied with legislative requirements but that certain supplementary reporting should be conducted by SKB and submitted no later than when the next programme, in accordance with paragraph 12 of the Act on Nuclear Activities, was prepared (September 2001). The supplementary reporting requested by the Government, and which was submitted by SKB to SKI in December 2000, dealt with issues relating to method selection, site selection and the site investigation programme. SKI submitted its review of the supplement to the Government in June 2001 and the Government made a decision on the matter on November 1, 2001

  17. Application of Field Programmable Gate Arrays in Instrumentation and Control Systems of Nuclear Power Plants

    International Nuclear Information System (INIS)

    2016-01-01

    Field programmable gate arrays (FPGAs) are gaining increased attention worldwide for application in nuclear power plant (NPP) instrumentation and control (I&C) systems, particularly for safety and safety related applications, but also for non-safety ones. NPP operators and equipment suppliers see potential advantages of FPGA based digital I&C systems as compared to microprocessor based applications. This is because FPGA based systems can be made simpler, more testable and less reliant on complex software (e.g. operating systems), and are easier to qualify for safety and safety related applications. This publication results from IAEA consultancy meetings covering the various aspects, including design, qualification, implementation, licensing, and operation, of FPGA based I&C systems in NPPs

  18. Radioecological studies tied to the French nuclear power station programme: aims, nature and mode of execution

    International Nuclear Information System (INIS)

    Delile, G.

    1980-01-01

    Under present French practice, assessing the effects of radioactive discharges due to the various likely accident situations comes under 'L'Analyse de Surete Nucleaire' (Nuclear Safety Analysis). The assessment of radioactive discharges relating to normal working comes within the framework of radioecologic studies. Radioecology studies are undertkaen for every power station project. They consist in: - studying what is to be done with radioelements discharged as liquids or gases, - estimating their impact on the populations in the areas of influence of the power station and checking that this impact is permissible, - establishing a surveillance measuring programme for checking against the predictions made and, if required, determining the modifications to be made to the facilities or to their method of operation [fr

  19. The design of nuclear magnetic resonance programmable pulsed source based SOPC

    International Nuclear Information System (INIS)

    Zhang Qingshun; Zhang Yakun; Wang Wenli

    2012-01-01

    The design of pulse source in the equipment of pulsed Nuclear Magnetic Resonance is studied based on SOPC. The strong processing power of Nios Ⅱ embedded processor and the design flexibility of FPGA are fully used. The SOPC system is built. The overall design plan for the pulse source is described. The design of programmable multi-pulse generation logic user-defined components in the FPGA is introduced mainly. Part of the implementation program and the task logic simulation waveforms are presented. The pulse source has better application value because a clear, stable and good quality multi-pulse output waveform can be shown on the oscilloscope finally. The system software and hardware are easy to be modified and upgraded, meeting different application of pulsed NMR pulse sequence in variety of requirements. (authors)

  20. The role of the nuclear programme in the development of the Romanian power system

    International Nuclear Information System (INIS)

    Dobos, I.; Popescu, A.; Popovici, D.

    2000-01-01

    The power system, major component of the Romanian development, is strictly related to the social-economic and technological policy and to the external factors influencing this development. Taking into consideration the future evolution of the electricity demand in Romania over the period 2000-2020, it is necessary to devise an optimized strategy for electricity generation in order to ensure the economic development of the country and to achieve a high standard of living. For these reasons presented are the role of the nuclear programme for different patterns of electricity consumption evolution, taking into account the present situation of Romanian power system, the evolution of the domestic primary energy resources, the fuel prices evolution, the technologies of the electric and thermal power generation and the environmental requirements. The analysis is achieved in the context of the new political and economic trends facing European countries, related to the Joint Agreement with European Community and to the requirements of the single energy market. (author)

  1. The Programmable Logic Controller and its application in nuclear reactor systems

    Energy Technology Data Exchange (ETDEWEB)

    Palomar, J.; Wyman, R. [Lawrence Livermore National Lab., CA (United States)

    1993-09-01

    This document provides recommendations to guide reviewers in the application of Programmable Logic Controllers (PLCS) to the control, monitoring and protection of nuclear reactors. The first topics addressed are system-level design issues, specifically including safety. The document then discusses concerns about the PLC manufacturing organization and the protection system engineering organization. Supplementing this document are two appendices. Appendix A summarizes PLC characteristics. Specifically addressed are those characteristics that make the PLC more suitable for emergency shutdown systems than other electrical/electronic-based systems, as well as characteristics that improve reliability of a system. Also covered are PLC characteristics that may create an unsafe operating environment. Appendix B provides an overview of the use of programmable logic controllers in emergency shutdown systems. The intent is to familiarize the reader with the design, development, test, and maintenance phases of applying a PLC to an ESD system. Each phase is described in detail and information pertinent to the application of a PLC is pointed out.

  2. Co-ordinated research programme on operator support systems in nuclear power plants. Working material

    International Nuclear Information System (INIS)

    1993-01-01

    In September 1991 the Co-ordinated Research Programme (CRP) on ''Operator Support Systems (OSSs) in Nuclear Power Plants'' was approved in the framework of the Project ''Man-Machine Interface Studies''. The main objective of the programme is to provide guidance and technology transfer in the development and implementation of OSSs. This includes the experience with man-machine interfaces and closely related issues such as control and instrumentation, the use of computers, and operator qualification. The first Co-ordinated Research Meeting held in Vienna, 13-16 October 1992, prepared a summary report which defined the tasks and the responsibilities of the CRP participants. A time schedule and future actions were also agreed upon at this meeting. The second meeting was held in Budapest, Hungary, from 5 to 8 October 1993 and was sponsored by the KFKI Atomic Energy Research Institute. The meeting reviewed the progress of the tasks defined by the first meeting, considered reports on national activities in the subject area, and agreed on time schedule and future actions. The present volume contains: (1) report prepared by the CRP meeting, (2) reports presented by the national delegates, and (3) CRP background and working plan. Refs, figs and tabs

  3. The Programmable Logic Controller and its application in nuclear reactor systems

    International Nuclear Information System (INIS)

    Palomar, J.; Wyman, R.

    1993-09-01

    This document provides recommendations to guide reviewers in the application of Programmable Logic Controllers (PLCS) to the control, monitoring and protection of nuclear reactors. The first topics addressed are system-level design issues, specifically including safety. The document then discusses concerns about the PLC manufacturing organization and the protection system engineering organization. Supplementing this document are two appendices. Appendix A summarizes PLC characteristics. Specifically addressed are those characteristics that make the PLC more suitable for emergency shutdown systems than other electrical/electronic-based systems, as well as characteristics that improve reliability of a system. Also covered are PLC characteristics that may create an unsafe operating environment. Appendix B provides an overview of the use of programmable logic controllers in emergency shutdown systems. The intent is to familiarize the reader with the design, development, test, and maintenance phases of applying a PLC to an ESD system. Each phase is described in detail and information pertinent to the application of a PLC is pointed out

  4. Monitoring programmes for unrestricted release related to decommissioning of nuclear facilities

    International Nuclear Information System (INIS)

    1992-01-01

    Decommissioning of nuclear facilities usually results in a large volume of radioactive and non-radioactive materials. All these materials will have to be segregated as radioactive, non-radioactive and exempt from regulatory control, and then disposed of, reused or recycled. As more and more facilities approach decommissioning, controlling these wastes and setting release criteria and limits for these materials will represent a major task for the regulatory body and the licensee. Efforts are, therefore, under way at the IAEA to help achieve international consensus on the release criteria for decommissioning and a monitoring programme to verify compliance with these criteria. Within the above context, the present report was conceived as a technical document to provide an overview of all the factors to be considered in the development, planning and implementation of a monitoring programme to assure regulatory compliance with criteria for unrestricted release of materials, buildings and sites from decommissioning. The report is intended as a planning document for the owners, operators and regulatory bodies involved in decommissioning. 41 refs, 4 figs, 2 tabs

  5. Final report of the programme on the safety of WWER and RBMK nuclear power plants. A publication of the extrabudgetary programme on the safety of WWER and RBMK nuclear power plants

    International Nuclear Information System (INIS)

    1999-05-01

    The review of the extrabudgetary programme on the safety of WWER and RBMK nuclear power plants focuses on the wide scope of the activities aimed at identifying safety deficiencies, ranking their importance on the results of safety improvement programmes and on areas where future work is necessary. The information in the report reflects to a large extent, the situation as it stood when individual IAEA tasks actually took place. It deals with the IAEA activities and it discusses selected safety issues and safety review results as they apply to each reactor type. The results, recommendations and conclusions resulting from the IAEA Programme are intended to assist national decision makers who have the sole responsibilities for the regulation and safety operation of their nuclear power plants

  6. The European community's programme of research on the decommissioning of nuclear power plants: objectives, scope and implementation

    International Nuclear Information System (INIS)

    Huber, B.

    1984-01-01

    The European Community's research activities on the decommissioning of nuclear installations are aimed at developing effective techniques and procedures for ensuring the protection of man and his environment against the potential hazards from nuclear installations that have been withdrawn from service. The first five-year (1979-1983) programme of research on the decommissioning of nuclear power plants has comprised seven R and D projects concerning the following areas: maintaining disused plants in safe condition; surface decontamination for decommissioning purposes; dismantling techniques; treatment of the main waste materials arising in decommissioning, i.e. steel, concrete and graphite; large containers for decommissioning waste; arisings and characteristics of decommissioning waste; plant design features facilitating decommissioning. The research work was carried out by organizations and companies in the Member States under 51 research contracts, most of them cost-sharing. The Commission is now launching a new five-year (1984-1988) programme of research on the decommissioning of nuclear installations. (author)

  7. Considerations in Emergency Preparedness and Response for a State Embarking on a Nuclear Power Programme, Training Materials

    International Nuclear Information System (INIS)

    2013-01-01

    The aim of these training materials is to provide a practical tool for emergency planning for a State embarking on a nuclear power programme, and to fulfil, in part, functions assigned to the IAEA under the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency (the Assistance Convention). Under Article 5.a(ii) of the Assistance Convention, one function of the IAEA is to collect and disseminate to States Parties and Member States information concerning methodologies, techniques and available results of research relating to such emergencies. One of the concerns associated with nuclear power is the possibility that a State embarking on a nuclear power programme might not have sufficient capabilities and therefore would not be adequately prepared to respond to a radiation emergency caused by severe accident conditions. Protecting the public, the environment and property in the event of a failure of any level of defence in depth is the most important safety objective. A robust framework for emergency preparedness and response to a radiation emergency forms the last level of defence in depth and, as such, must be developed and implemented by any State embarking on a nuclear power programme, using best international practices. The establishment of capabilities and arrangements for emergency preparedness and response to severe accident conditions is one of the principal tasks in the development of a national infrastructure for nuclear power. State of the art emergency preparedness and response is a key element in achieving overall plant safety. This training course complements the IAEA publication 'Considerations in Emergency Preparedness and Response for a State Embarking on a Nuclear Power Programme' (EPR-Embarking 2012). These materials are designed to help States apply the guidance in EPR-Embarking 2012, in order to develop the capability to adequately prepare for and respond to a radiation emergency after the commissioning and start of

  8. Mali. Challenges for a Developing Country in Building Human Resource Development for Nuclear Power Programmes: Case of Mali

    International Nuclear Information System (INIS)

    Kone, Nagantie

    2014-01-01

    Present situation: National Regulatory infrastructure of Radiation Protection: • A legislation and regulations, but not adapted to the case of Nuclear Power Programme; • A Regulatory Body as the sole nuclear institution - very few trained persons in the field of safety and security; - No E and T Institutions; - Lack of adopted system for the management of regulatory activities of practices and activities in NPP field

  9. Challenges in Building Capacity for a Nuclear Programme in the Philippines

    International Nuclear Information System (INIS)

    Bacarra, Ermie M.

    2014-01-01

    Recommendations: Given that an enabling environment is vital the success of a capacity building initiative for a successful nuclear program, following are recommended: 1. All stakeholders must be made prepared and ready to undertake the initiative. -Government must have the political will to implement the program; - Policy-makers and the general public must be aptly informed and educated of the pros and cons including the science and engineering behind a nuclear programme; - A competent, highly skilled and able workforce/human resource must be available even before the start of the program. 2. All infrastructures – physical, policy, organizational must be put in place; - The integrity of the physical infrastructure must be assured and a robust organizational infrastructure must be established before the start of the program; - A firm national policy must be put in place with prior consultations held with all stake holders; - A deliberate and forward-looking capability building/HR plan in partnership with academe and other relevant institutions must be formulated before embarking on the program

  10. National Nuclear Power Plant Safety Research 2003-2006. Proposal for the Content and Organisation of a New Research Programme

    International Nuclear Information System (INIS)

    2002-11-01

    A country utilising nuclear energy is presumed to possess a sufficient infrastructure to cover the education and research in this field, besides the operating and supervisory organisations of the plants. The starting point of public nuclear safety research programmes is that they provide the necessary conditions for retaining the knowledge needed for ensuring the continuance of safe and economic use of nuclear power, for development of new know-how and for participation in international cooperation. In fact, the Finnish organisations engaged in research in this sector have been an important resource which the various ministries, the Radiation and Nuclear Safety Authority (STUK) and the power companies have had at their disposal. The Steering Group to the Finnish Research Programme on Nuclear Power Plant Safety (FINNUS), which was launched upon the assignment of the Advisory Committee on Nuclear Energy, appointed in spring 2002 a group to plan the contents of the new programme. This report contains a proposal for the general outline of the programme, preliminarily entitled as SAFIR (SAfety of Nuclear Power Plants - Finnish National Research Programme). The plan has been made for the period 2003-2006, but it is based on safety challenges identified for a longer time span as well. The favourable decision-in-principle on a new nuclear power plant unit adopted by Parliament has also been taken into account in the plan. The safety challenges set by the existing plants and the new plant unit, as well as the ensuing research needs do, however, converge to a great extent. The construction of the new power plant unit will increase the need for experts in the field in Finland. At the same time, the retirement of the existing experts is continuing. These factors together will call for more education and training, in which active research activities play a key role. This situation also makes long-term safety research face a great challenge. The general plan aims to define the

  11. Design assurance programme for modifications at the Ringhals Nuclear Power Plant

    International Nuclear Information System (INIS)

    Persson, K.

    1985-01-01

    The Engineering Department within the site organization is responsible for modifications and improvements of plant design. Internal and external specialists are also involved in the design activities. Modifications follow the procedures laid down in the Design Assurance Programme (DAP), according to the overall directions given in 10CFR50 APP B and the more detailed recommendations in American Nuclear Standard 3.2, and the United States Nuclear Regulatory Commission's Regulatory Guides 1.33 and 1.64. The site Quality Assurance Department has adapted these directions to Swedish conditions. All plant modifications are ordered from customers within the site organization. The design work is performed according to the following steps: priority of problems or requirements; overall analysis of problems or requirements; basic design (preliminary and final); detailed design (electrical, mechanical, civil); purchase of equipment; installation in plant; testing of installed equipment. The project engineer is responsible for modifications from the initiation of analysis until testing and documentation are finalized. For each step, procedures and checklists are available. Internal and external specialists as well as the Swedish Nuclear Inspectorate are involved when appropriate. Design engineers and QC/QE engineers are also involved. Special groups within the site organization handle purchase and installation. Testing the installed equipment is performed in co-operation with the operation staff. Deviations from DAP must be reported by all personnel, and corrective actions must be taken. Internal audits have to be done once a year for the entire DAP and the audit, with its findings and the corrective actions taken, must be reported to the QA group. (author)

  12. Recent Perspective on the Severe Accident Management Programme for Nuclear Power Plant

    International Nuclear Information System (INIS)

    Kim, Manwoong; Lee, Sukho; Lee, Jungjae; Chung, Kuyoung

    2017-01-01

    Severe Accident Management Guidelines (SAMGs), has been developed to help operators to prevent or mitigate the impacts of accidents at nuclear power plants. Severe accident management was first introduced in the 1990s with the creation of SAMGs following recognition that post-Three Mile Island Emergency Operating Procedures (EOPs) did not adequately address severe core damage conditions. Establishing and maintaining multiple layers of defence against any internal/external hazards is an important measure to reduce radiological risks to the public and environment. This study is intended to suggest future regulatory perspectives to strengthen the prevention and mitigation strategies for severe accidents by review of the current status of revision of IAEA Safety Standard on Severe Accident Management Programmes for Nuclear Power Plants and the combined PWR SAMG. This new IAEA Safety Guide will address guidelines for preparation, development, implementation and review of severe accident management programs during all operating conditions for both reactor and spent fuel pool. This Guide is used by operating organizations of nuclear power plants and their support organizations. It may also be used by national regulatory bodies and technical support organizations as a reference for developing their relevant safety requirements and for conducting reviews and safety assessments for SAMP including SAMG. The Pressurized Water Reactor Owner’s Group (PWROG) is upgrading the original generic Severe Accident Management Guidelines (SAMGs) into single Severe Accident Guidelines (SAGs) for the PWR SAMG aims to consolidate the advantages of each of the separate vendor severe accident (SA) mitigation methods. This new PWROG SAGs changes the SAMG process to be made that can improve SA response. Changes have been made that guidance is available for control room operators when the TSC is not activated thus allowing for timely accident response. Other changes were made to the guidance

  13. Support to other nuclear waste disposal programmes considering clay as a potential host rock

    International Nuclear Information System (INIS)

    Volckaert, G.

    2009-01-01

    SCK-CEN started to study the Boom Clay as potential host rock for nuclear waste disposal in 1974. Since then, SCK-CEN has been involved in other international projects studying clay as potential host rock in order to get a broader support for disposal in clay and to acquire broader insight in clay behaviour. Besides Belgium, France and Switzerland are currently investigating clay formations as potential host rock for the disposal of radioactive waste. In the Netherlands, clay formations have always been considered as an alternative to disposal in salt. The general interest in clays is increasing: in Germany and The United Kingdom, it was decided a few years ago that besides respectively salt and crystalline rock also clays need to be evaluated. In Eastern and Central Europe, the Slovak republic and Lithuania consider both clay and granite as possible host rocks for spent fuel while in Russia recently a project was started to study the possible disposal of low and medium level waste in a clay formation in the Leningrad area. Within the EC research and development framework programs and the OECD/NEA Clay Club, collaborations were developed between countries studying clay and with a strong involvement of SCK-CEN. The collaboration with the Eastern and Central European countries is supported through the support programme of the Belgian Ministry of Economic affairs. The objectives of these co-operations are to deliver expert services to other nuclear waste disposal programs considering clay as host rock; to to acquire broader international recognition of our expertise and support for the development of nuclear waste disposal in clay; to get a broader insight in the properties and behaviour of clays

  14. Czechoslovak approach to the potential of HTGRs' introduction

    International Nuclear Information System (INIS)

    Jakesova, L.; Podest, M.; Pinkas, V.

    1990-01-01

    Czechoslovakia - a rather small country with developed utilization of nuclear electricity production in the Soviet types of PWRs - WWERs - is looking forward to the prospects of high-temperature heat provision for processes enabling better utilization of brown coal resources, in the first range with view to the ecology impact improvement. The introduction of the HTGRs could be the best way to solve these problems in the most convenient approach - i.e. through the international co-operation with the USSR. (author)

  15. Suggested Guidelines for Transparency and Participation in Nuclear Waste Management Programmes. Deliverable 22

    International Nuclear Information System (INIS)

    Jonsson, Josefin Paeivioe; Andersson, Kjell; Bolado, Ricardo; Drottz Sjoeberg, Britt-Marie; Elam, Mark; Sundqvist, Goeran; Kojo, Matti; Meskens, Gaston; Pritrsky, Jozef; Richardson, Phil; Soneryd, Linda; Steinerova, Lucie; Szerszynski, Bronislaw; Wene, Clas-Otto; Vojtechova, Hana

    2010-02-01

    The ARGONA project intended to demonstrate how participation and transparency link to the political and legal systems and how new approaches can be implemented in nuclear waste management programmes. Thereby, studies have been done of the institutional and cultural context within which processes of participation and transparency take place in order to understand how the processes can be applied. The project also included studies of theory in order to build participation and transparency on a firm ground, a number of case studies in Czech Republic, Finland, Sweden and UK, as well as implementation in Czech Republic to make a difference, learn and demonstrate. These proposed guidelines are thus the result of observations and conclusions made in these efforts, and should not be regarded as an attempt to give a comprehensive set of guidelines for nuclear waste management or even for the implementation of transparency and participation therein. However, it is the hope among the ARGONA participants that they can give relevant thoughts and stimulation to those involved in the nuclear waste management area, especially organizations that have, or may become, responsible for the implementation of processes of transparency and participation, such as implementing organizations, government agencies, regulators as well as regional and local communities. It should be recognized that some of the proposed guidelines may be more relevant for a certain type of bodies (such as an implementer) than for another type (such as local community) and vice versa. Some of the proposed guidelines are also relevant at broader societal level and for the European Union bodies. It will be up to the respective reader to judge the relevance for her or his organization. The suggested guidelines are followed by more detailed recommendations on how to combine the two basic forms of mediation that have been identified in ARGONA, namely mediation by demonstration and mediation by dialogue in Annex 1

  16. Nuclear waste - research and technique development. KASAMS's Review of the Swedish Nuclear Fuel and Waste Management Co's (SKB's) RD and D Programme 2001

    International Nuclear Information System (INIS)

    2002-01-01

    This report is KASAM's review statement to the Government on the Swedish Nuclear Fuel and Waste Management Co's (SKB's) RD and D Programme 2001. KASAM's review was primarily conducted through work by KASAM's members, special adviser, experts and secretary. In KASAM's opinion, the reactor owners, through RD and D Programme 2001, have complied with the requirements of paragraph 12 of the Act on Nuclear Activities. In KASAM's opinion, SKB's research and development programme shows great merit. This applies to both what SKB has done and what it intends to do. The report is well-structured and clear. RD and D Programme 2001 shows that there is still a considerable need for development work in a number of important technical areas. This applies, for example, to the fabrication and sealing of canisters as well as control methods for these activities. Within other areas, for example, geology, chemistry, hydrology, biology and rock mechanics, there is also a great need for further research and development work, and for practical demonstrations of technical applications. In KASAM's opinion, humanities and social science issues, that are of importance for the disposal of nuclear waste, should be accorded greater attention. In Chapter 14, KASAM has presented a proposal for how research in these areas can be organised and financed. KASAM emphasizes that future RD and D programmes should have a broad scientific basis in order to comply with the requirements of the Act on Nuclear Activities regarding comprehensiveness. In their review statements on RD and D Programme 2001, the Swedish Nuclear Power Inspectorate (SKI) and the Swedish Radiation Protection Authority (SSI) have proposed that SKB should be required to present a strategy document which should be kept updated. In KASAM's opinion, such a report of current strategic issues should be made available to the public and other parties concerned. KASAM also believes that such a documentation of strategy issues should be

  17. The Community's research and development programme on decommissioning of nuclear installations: First annual progress report (year 1985)

    International Nuclear Information System (INIS)

    1986-01-01

    This is the first Annual Progress Report of the European Community's 1984-88 programme of research on the decommissioning of nuclear installations. It shows the status of implementation reached on 31 December 1985. The 1984-88 programme has the following contents: A. Research and development projects concerning the following subjects: Project No 1: Long-term integrity of building and systems; Project No 2: Decontamination for decommissioning purposes; Project No 3: Dismantling techniques; Project No 4: Treatment of specific waste materials: steel, concrete and graphite; Project No 5: Large containers for radioactive waste produced in the dismantling of nuclear installations; Project No 6: Estimation of the quantities of radioactive wastes arising from the decommissioning of nuclear installations in the Community; Project No 7: Influence of installation design features on decommissioning. B. Identification of guiding principles, namely: - certain guiding principles in the design and operation of nuclear installations with a view to simplifying their subsequent decommissioning, - guiding principles in the decommissioning of nuclear installations which could form the initial elements of a Community policy in this field. C. Testing of new techniques under real conditions, within the framework of large-scale decommissioning operations undertaken in Member States. This first progress report, covering the period of putting the programme into action, describes the work to be carried out under the 27 research contracts concluded, as well as initial work performed and first results obtained

  18. The contribution of the UNDP/RCA/IAEA programmes to the development of nuclear technology in the Asia Pacific Region

    International Nuclear Information System (INIS)

    Easey, J.F.

    1994-01-01

    The UNDP/RCA/IAEA Programmes are involving Member States in the Asia Pacific Region in projects to develop and increase the use of nuclear technologies. These efforts have already increased the level of awareness amongst the Region's scientists, engineers, technologists, and decision makers and has provided significant training to the scientists and engineers to enable them to play a role in technical back stopping at a national level. A new project has been started in 1993 and this will seek to expand the contribution of the nuclear technologies into further industrial and environmental fields. Much of the success of the programmes is credited to the high level of Regional Co-operative Agreement (RCA) for research, development and training related to nuclear science and technology in Asia and the Pacific

  19. Czechoslovak participation in IAEA's experiment with direct access to INIS and AGRIS data bases

    International Nuclear Information System (INIS)

    Stanik, Z.

    Since June, 1978 Czechoslovakia has been participating in the IAEA terminal network allowing direct access to INIS and AGRIS data bases. A display and a printer from Hungary and a modem of a home make were used for equipping the terminal station. The equipment has been fully proven in operation. The Building is prepared of a home terminal network connected to the IAEA computer for rapid and quality meeting the information needs of Czechoslovak users. The connection is also considered of the projected network to ESA/IRS data bases via IIASA. (Ha)

  20. CZECHOSLOVAK ACTIVITY TO PREPARE EUROPEAN NORMS FOR CONTAINERS BEFORE THE SECOND WORLD WAR

    Directory of Open Access Journals (Sweden)

    Krzysztof Lewandowski

    2014-12-01

    Full Text Available In many articles we can read that containers weren't in Europe before 1966, when ship SS Fariland came with 35 feet containers invented by Keith Tantlinger for Sea Land Company owned by Malcom McLean. The focus of this study is on the problem with development norms for European containers. Thus, the main definitions and briefly literature overview in the analysed research area are given. Later, the information about these constructions are developed. Article presents Czechoslovak activity to preparation of three European norms for containers, which were described before Second World War.

  1. Radiation exposure of aircrew and passengers during some Czechoslovak airlines commercial flights

    International Nuclear Information System (INIS)

    Spurny, F.; Votockova, I.

    1994-01-01

    Radiation exposure of aircrew and passengers on boards of Czechoslovak Airlines (CSA) subsonic aircraft was studied. It was found that the exposure levels depends on flights altitude, changes also with geographical position (latitude and longitude). Measurements were performed during 1991 to 1993 years; i.e. at the period of sun maximum and immediately after it. Total dose equivalent rates did not exceed 10 μSv per hour of flight. An increasing of its level with decreasing sun activity has been already registered. (orig.)

  2. The State Surveillance over Nuclear Safety of Nuclear Facilities Act No. 28/1984

    International Nuclear Information System (INIS)

    1995-01-01

    The Act lays down responsibilities of the Czechoslovak Atomic Energy Commission in the field of state surveillance over nuclear safety of nuclear facilities; determines the responsibilities of nuclear safety inspectors in their inspection activities; specifies duties of bodies and corporations responsible for nuclear safety of nuclear facilities; stipulates the obligation to set up emergency plans; and specifies penalties imposed on corporations and individuals for noncompliance with nuclear safety provisions. The Act entered into force on 4 April 1984. (J.B.)

  3. Nuclear waste management in Finland. Final report of public sector's research programme JYT2001 (1997-2001)

    International Nuclear Information System (INIS)

    Rasilainen, K.

    2002-05-01

    According to Finnish nuclear energy legislation, each producer of nuclear waste is responsible for the safe handling, management, and disposal of its waste, as well as for the costs arising. The Posiva company, owned by the nuclear energy-producing power companies, is in charge of spent nuclear fuel management in Finland. The authorities supervise the management of nuclear waste and issue regulations for this purpose. In these demanding tasks the authorities have been supported by the Public Sector's Research Programme on Nuclear Waste Management (JYT2001). The objective of JYT2001 was to provide the authorities with independent expertise and research results relevant to the safety of nuclear waste management. Emphasis was placed on the geological disposal of spent nuclear fuel. The research area was divided into (1) technical studies on the safety of spent fuel disposal, and (2) social science studies related to nuclear waste management. The technical studies covered bedrock behaviour, the hydrogeology and geochemistry of the bedrock, the stability of the bentonite buffer, and the migration of radionuclides in the bedrock. In addition, performance assessment methodology was covered, as well as waste management technologies and costs. The social science studies were focussed on observing the Decision in Principle (DiP) process including the Environmental Impact Assessment (EIA), and media issues related to the spent fuel disposal facility. JYT2001 provided considerable support to the authorities in helping them deal with technical and social science questions. The Government's positive Decision in Principle (DiP) on Posiva's application for a spent fuel disposal facility in Eurajoki was ratified by Parliament in May 2001. The existence of a credible JYT2001 programme, independent of Posiva, obviously contributed to the high level of public confidence in the Finnish nuclear waste management programme. According to the schedule of the Finnish nuclear waste management

  4. Strategies of implementation and effects of national technological development big programmes: experiences of Brazilian Navy nuclear programme

    International Nuclear Information System (INIS)

    Guimaraes, Leonam dos Santos

    2005-01-01

    The science and technology development, for which creativity and innovation must be always present, are supported by three fundamental principles: the first is related to existence of human brains and good conditions for its realizations; the second could be located in people and institution mobilization for accomplishment of objectives and goals which generate strategic or social benefits; the third are relates to a national effort, making sufficient resources reach the scientific and technological areas. Brazilian Navy, trough its Technological Center in Sao Paulo, developed a particular approach to follow these principles in order to get a technological 'jump' which will give Brazilian Naval Power, through submarine nuclear propulsion, the capabilities required by the nation's importance in the international scene. This Program, started in the early 80's, has presented very impressive results, not only in the vertical sense pointing to its goal, but also in the horizontal sense of diversification, referring to a deliberate change of activities away from purely nuclear, and spin-offs, referring to application of results of nuclear R and D outside nuclear sector. (author)

  5. Transmutations of nuclear waste. Progress report RAS programme 1995: Recycling and transmutation of actinides and fission products

    International Nuclear Information System (INIS)

    Gruppelaar, H.; Cordfunke, E.H.P.; Konings, R.J.M.; Bultman, J.H.; Dodd, D.H.; Franken, W.M.P.; Kloosterman, J.L.; Koning, A.J.; Wichers, V.A.

    1996-04-01

    This report describes the progress of the Dutch RAS programme on 'Recycling and Transmutation of Actinides and Fission Products' over the year 1995, which is the second year of the 4-year programme 1994-1997. An extensive listing of reports and publications from 1991 to 1995 is given. Highlights in 1995 were: -The completion of the European Strategy Study on Nuclear Waste Transmutation as a result of which the understanding of transmutation of plutonium, minor actinides and long-lived fission products in thermal and fast reactors has been increased significantly. Important ECN contributions were given on Am, 99 Tc and 129 I transmutation options. Follow-up contracts have been obtained for the study of 100% MOX cores and accelerator-based transmutation. - Important progress in the evaluation of CANDU reactors for burning very large amounts of transuranium mixtures in inert matrices. - The first RAS irradiation experiment in the HFR, in which the transmutation of technetium and iodine was examined, has been completed and post-irradiation examination has been started. - A joint proposal of the EFTTRA cooperation for the 4 th Framework Programme of the EU, to demonstrate the feasibility of the transmutation of americium in an inert matrix by an irradiation in the HFR, has been granted. - A bilateral contract with CEA has been signed to participate in the CAPRA programme, and the work in this field has been started. - The thesis work on Actinide Transmutation in Nuclear Reactor Systems was succesfully defended. New PhD studies on Pu burning in HTGR, on nuclear data for accelerator-based systems, and on the SLM-technique for separation of actinides were started. - A review study of the use of the thorium cycle as a means for nuclear waste reduction, has been completed. A follow-up of this work is embedded in an international project for the 4th Framework Programme of the EU. (orig./DG)

  6. Multivariant strategy study for the use of plutonium in a nuclear programme: the case of the large and small country

    International Nuclear Information System (INIS)

    Dievoet, J. van; Kunsch, P.; Verraver, J.

    1982-01-01

    The results of a multicriteria study into the desirability of introducing a plutonium using FBR programme into two fictitious countries, one large and one small, are presented. The strategy discussed concerns only base load electrical energy production with both fossil and nuclear fuels. A number of independent social, economic and political objectives need to be considered in the choice of power plant programme. These include the price of fuel, the safety of fuel supply, the balance of services, the new investments needed and the impact of new technology. (U.K.)

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

    Energy Technology Data Exchange (ETDEWEB)

    Linden, Ann-Marie

    2004-12-01

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

  8. Decommissioning of nuclear facilities: COGEMA expertise devoted to UP1 reprocessing plant dismantling programme

    International Nuclear Information System (INIS)

    Gay, A.

    2001-01-01

    Over the last past decades, the French nuclear industry has acquired a great experience and know-how in the field of dismantling. Today this experience amounts to more than 200,000 hours. The fundamental aims within dismantling strategy are the same as for all nuclear facilities: minimising doses received by workers, minimising waste volume and adapting waste management to radioactivity levels, minimising costs. French experience is based on technologies which are currently used in nuclear maintenance facilities. Dismantling is a dynamic process especially in the field of decontamination (chemical and mechanical), cleaning, robotics and remote control operations. The strategy for the dismantling of former UP1 reprocessing plant is based on the feedback of experience gained through the dismantling of other facilities such as the AT1 workshop at La Hague. This workshop, a pilot plant for reprocessing of fast-breeder reactor fuels (Rapsodie and Phenix) has to be dismantled to IAEA level 3 (unrestricted site use), excluding civil works structures. Currently conducted by trained shifts, this dismantling project should end in 1999. The experience already acquired proves that chemical rinsings with the use of specific reagents is sufficient to decontaminate the hot cells and that the use of remote operations or robotics is not as important as previously envisaged. The UP1 reprocessing plant of Marcoule operated from 1958 to 1997. End of the operation was pronounced on the 31st of December 1997. 20,000 tons of spent fuels were reprocessed at UP1. The cleaning and dismantling operations at the Marcoule site depend upon the CEA, EDF and COGEMA. The Defence and Industry Ministries asked for a specific structure to be set up. An economic interest group called CODEM was created in May 1996. CODEM decides, finances and supervises dismantling operations, while respecting the constraints of nuclear safety, environmental protection and cost-effectiveness. The cleaning operations of

  9. The DTI FSU Nuclear legacy programme: UK experience of radiation protection at Andreeva Bay

    International Nuclear Information System (INIS)

    Hammon, C.; Parker, R.

    2006-01-01

    Full text of publication follows: The United Kingdom (UK) has committed substantial long term funding to the Former Soviet Union (FSU) to assist with their nuclear legacy as part of the UK contribution to the G8 Global Partnership. The budget is managed by the UK Department of Trade and Industry (DTI) and RWE NUKEM are the programme management consultants for the Nuclear Legacy programme, which includes the Andreeva Bay project. The fundamental driver for the DTI is to improve the safety, security and non-proliferation of fissile material and RWE NUKEM is working closely with the DTI to achieve this. Andreeva Bay is located in the extreme north -west of the Kola Peninsula in Russia. The site was established in the 1960's to be used for the interim storage of used nuclear fuel, and solid and liquid radioactive wastes arising from the operation of nuclear powered submarines and icebreakers. However, leakage in the spent fuel pond storage facility during the late 1970's resulted in the emergency transfer of the fuel (20,000 spent fuel assemblies) to 3 dry storage tanks, which are now in very poor condition, and a highly contaminated pond storage facility, Building 5. The objectives of the project are to identify and implement solutions for the existing safety, security and environmental problems of SNF. One of the tasks at Andreeva Bay was to work together with the Russian site operators with the aim of improving standards of radiation protection on the site. This is being achieved by providing the Russians with funding to enable them to implement measures to improve radiological safety. The following measures have been put in place so far: the introduction of a Radiation Management System, the provision of mobile and permanent staff change room facilities, the provision of decontamination facilities, the provision of radiation protection instrumentation, the provision of laboratory facilities, the provision of secondary waste storage containers, the provision of

  10. Considerations in Emergency Preparedness and Response for a State Embarking on a Nuclear Power Programme (Russian Edition)

    International Nuclear Information System (INIS)

    2013-01-01

    The aim of this publication is to provide a practical tool for emergency planning for States embarking on a nuclear power programme and to fulfil, in part, functions assigned to the IAEA in the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency ('Assistance Convention'). Under Article 5.a (ii) of the Assistance Convention, one function of the IAEA is to collect and disseminate to State Parties and Member States information concerning methodologies, techniques and available results of research relating to such emergencies. As established in the publication Preparedness and Response for a Nuclear or Radiological Emergency (IAEA Safety Standards Series No. GS-R-2), the practical goal of emergency response is 'to ensure that arrangements are in place for a timely, managed, controlled, coordinated and effective response at the scene, and at the local, regional, national and international level, to any nuclear or radiological emergency'. In 2011 the IAEA General Conference, in resolution GC(55)/RES/9, encouraged States 'embarking on new nuclear power programmes to take timely and proactive steps, based upon gradual and systematic application of IAEA safety standards, to establish and sustain a strong safety culture'. It also 'emphasizes the importance for all Member States to implement emergency preparedness and response mechanisms and develop mitigation measures at a national level, consistent with the IAEA's Safety Standards, for improving emergency preparedness and response, facilitating communication in an emergency and contributing to harmonization of national criteria for protective and other actions'. This publication, issued in the IAEA Emergency Preparedness and Response Series, is intended to assist on steps to be taken by States embarking on a nuclear power programme to establish effective national capabilities and arrangements of preparedness for and response to a nuclear or radiological emergency (hereinafter referred to as

  11. Considerations in Emergency Preparedness and Response for a State Embarking on a Nuclear Power Programme (Arabic Edition)

    International Nuclear Information System (INIS)

    2014-01-01

    The aim of this publication is to provide a practical tool for emergency planning for States embarking on a nuclear power programme and to fulfil, in part, functions assigned to the IAEA in the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency ('Assistance Convention'). Under Article 5.a (ii) of the Assistance Convention, one function of the IAEA is to collect and disseminate to State Parties and Member States information concerning methodologies, techniques and available results of research relating to such emergencies. As established in the publication Preparedness and Response for a Nuclear or Radiological Emergency (IAEA Safety Standards Series No. GS-R-2), the practical goal of emergency response is 'to ensure that arrangements are in place for a timely, managed, controlled, coordinated and effective response at the scene, and at the local, regional, national and international level, to any nuclear or radiological emergency'. In 2011 the IAEA General Conference, in resolution GC(55)/RES/9, encouraged States 'embarking on new nuclear power programmes to take timely and proactive steps, based upon gradual and systematic application of IAEA safety standards, to establish and sustain a strong safety culture'. It also 'emphasizes the importance for all Member States to implement emergency preparedness and response mechanisms and develop mitigation measures at a national level, consistent with the IAEA's Safety Standards, for improving emergency preparedness and response, facilitating communication in an emergency and contributing to harmonization of national criteria for protective and other actions'. This publication, issued in the IAEA Emergency Preparedness and Response Series, is intended to assist on steps to be taken by States embarking on a nuclear power programme to establish effective national capabilities and arrangements of preparedness for and response to a nuclear or radiological emergency (hereinafter referred to as

  12. Considerations in Emergency Preparedness and Response for a State Embarking on a Nuclear Power Programme. Publication Date: August 2012

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2012-09-15

    The aim of this publication is to provide a practical tool for emergency planning for States embarking on a nuclear power programme and to fulfil, in part, functions assigned to the IAEA in the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency ('Assistance Convention'). Under Article 5.a (ii) of the Assistance Convention, one function of the IAEA is to collect and disseminate to State Parties and Member States information concerning methodologies, techniques and available results of research relating to such emergencies. As established in the publication Preparedness and Response for a Nuclear or Radiological Emergency (IAEA Safety Standards Series No. GS-R-2), the practical goal of emergency response is 'to ensure that arrangements are in place for a timely, managed, controlled, coordinated and effective response at the scene, and at the local, regional, national and international level, to any nuclear or radiological emergency'. In 2011 the IAEA General Conference, in resolution GC(55)/RES/9, encouraged States 'embarking on new nuclear power programmes to take timely and proactive steps, based upon gradual and systematic application of IAEA safety standards, to establish and sustain a strong safety culture'. It also 'emphasizes the importance for all Member States to implement emergency preparedness and response mechanisms and develop mitigation measures at a national level, consistent with the IAEA's Safety Standards, for improving emergency preparedness and response, facilitating communication in an emergency and contributing to harmonization of national criteria for protective and other actions'. This publication, issued in the IAEA Emergency Preparedness and Response Series, is intended to assist on steps to be taken by States embarking on a nuclear power programme to establish effective national capabilities and arrangements of preparedness for and response to a nuclear or radiological emergency (hereinafter referred to as

  13. Considerations in Emergency Preparedness and Response for a State Embarking on a Nuclear Power Programme. Publication Date: August 2012

    International Nuclear Information System (INIS)

    2012-01-01

    The aim of this publication is to provide a practical tool for emergency planning for States embarking on a nuclear power programme and to fulfil, in part, functions assigned to the IAEA in the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency ('Assistance Convention'). Under Article 5.a (ii) of the Assistance Convention, one function of the IAEA is to collect and disseminate to State Parties and Member States information concerning methodologies, techniques and available results of research relating to such emergencies. As established in the publication Preparedness and Response for a Nuclear or Radiological Emergency (IAEA Safety Standards Series No. GS-R-2), the practical goal of emergency response is 'to ensure that arrangements are in place for a timely, managed, controlled, coordinated and effective response at the scene, and at the local, regional, national and international level, to any nuclear or radiological emergency'. In 2011 the IAEA General Conference, in resolution GC(55)/RES/9, encouraged States 'embarking on new nuclear power programmes to take timely and proactive steps, based upon gradual and systematic application of IAEA safety standards, to establish and sustain a strong safety culture'. It also 'emphasizes the importance for all Member States to implement emergency preparedness and response mechanisms and develop mitigation measures at a national level, consistent with the IAEA's Safety Standards, for improving emergency preparedness and response, facilitating communication in an emergency and contributing to harmonization of national criteria for protective and other actions'. This publication, issued in the IAEA Emergency Preparedness and Response Series, is intended to assist on steps to be taken by States embarking on a nuclear power programme to establish effective national capabilities and arrangements of preparedness for and response to a nuclear or radiological emergency (hereinafter referred to as

  14. Considerations in Emergency Preparedness and Response for a State Embarking on a Nuclear Power Programme (Spanish Edition)

    International Nuclear Information System (INIS)

    2014-01-01

    The aim of this publication is to provide a practical tool for emergency planning for States embarking on a nuclear power programme and to fulfil, in part, functions assigned to the IAEA in the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency ('Assistance Convention'). Under Article 5.a (ii) of the Assistance Convention, one function of the IAEA is to collect and disseminate to State Parties and Member States information concerning methodologies, techniques and available results of research relating to such emergencies. As established in the publication Preparedness and Response for a Nuclear or Radiological Emergency (IAEA Safety Standards Series No. GS-R-2), the practical goal of emergency response is 'to ensure that arrangements are in place for a timely, managed, controlled, coordinated and effective response at the scene, and at the local, regional, national and international level, to any nuclear or radiological emergency'. In 2011 the IAEA General Conference, in resolution GC(55)/RES/9, encouraged States 'embarking on new nuclear power programmes to take timely and proactive steps, based upon gradual and systematic application of IAEA safety standards, to establish and sustain a strong safety culture'. It also 'emphasizes the importance for all Member States to implement emergency preparedness and response mechanisms and develop mitigation measures at a national level, consistent with the IAEA's Safety Standards, for improving emergency preparedness and response, facilitating communication in an emergency and contributing to harmonization of national criteria for protective and other actions'. This publication, issued in the IAEA Emergency Preparedness and Response Series, is intended to assist on steps to be taken by States embarking on a nuclear power programme to establish effective national capabilities and arrangements of preparedness for and response to a nuclear or radiological emergency (hereinafter referred to as

  15. EU research in 'operational safety of existing installations' under the nuclear fission programme 1998-2002

    International Nuclear Information System (INIS)

    Goethem, G. van; Zurita, A.; Manolatos, P.; Bermejo, J. Martin; Casalta, S.

    2003-01-01

    In this paper, an overview is given of the most important aspects of the research activities organised by the European Union (EU) in the area of reactor safety under the current 5th Euratom Framework Programme 1998-2002 (FP-5). This area is focussing on 'Operational Safety of Existing Installations'. The fundamental safety objective for nuclear power plants (NPPs) consists in protecting the public and the environment from the harmful effects resulting from ionising radiations. Community research with this objective is carried out through both 'indirect actions' (organised by DG Research) and 'direct actions' (carried out by DG Joint Research Centre/JRC). The mid-term achievements of this area were discussed at the symposium FISA-2001 (EC Luxembourg, 12-14 November 2001/750 pages, EUR 20281 EN, OPOCE Luxembourg 2002). This research area is actually part of the FP-5 Key Action NUCLEAR FISSION, which consists of the following four areas: reactor safety, waste management (including partitioning and transmutation), future systems (including high temperature reactors), and radiation protection. More specifically, this paper deals with the strategy, the organisation and the main achievements of the 73 multi-partner projects cosponsored by the European Union as 'indirect actions' (shared-cost and concerted actions). These projects are organised in three clusters, each devoted to one key safety issue. Each cluster is treated in a separate section of this paper, namely: (1) Plant Life Extension and Management (PLEM cluster), (2) Severe Accident Management (SAM cluster), and (3) Evolutionary Safety Concepts (EVOL cluster). The total cost of the 'indirect actions' of this Community research area is approximately Euro 82.5 million, out of which Euro 43 million is contributed by the EU budget. At FISA-2001, only the 'indirect actions' that started before 1 January 2001, were formally presented, i.e. a total of 41 projects - the 32 more recent multi-partner projects were

  16. Radiation and Environmental Protection Programme for the First Upcoming Nuclear Power Plant in Indonesia

    International Nuclear Information System (INIS)

    Syahrir

    2007-01-01

    Indonesia plans to operate the first nuclear power plant (NPP) by 2016. A radiation and environmental protection arrangement for NPPs is part of the whole safety system which is embedded in every practice involved radiation exposure to workers and members of public. A radiation and environmental protection programme for the NPP should adhere to international standards and mainstream in order to be acceptable to the public and international communities. International Atomic Energy Agency (IAEA) has recommended a radiation protection standard for NPPs as studied in this paper. Focus is given to the operational aspects of radiation protection program and discharge control to the environment. Some documents related to Safety Analysis Reports were used as working examples on its implementation. The study includes the classification of working areas and access control; local rules and supervision of work; work planning and work permits; protective clothing and protective equipment; facilities, shielding and equipment; application of the principle of optimization of protection; and removal or reduction in intensity of sources of radiation. The radiological protection aspects blend together in the whole NPP practices, each individual has his/her own responsibility in association with the radiation protection program implementation. It also present in the whole steps of NPP preparation up to its decommissioning. Promise on safety improvement and significant dose reduction in the recent development in NPP technology should scrutinized so that the option of proven technology as required in commercial power reactor licensing considers this tendency. (author)

  17. Evaluation tests on controbloc, a programmable automaton for nuclear power plants

    International Nuclear Information System (INIS)

    Pralus, B.; Bourassin, J.L.; Varaldi, G.

    1983-01-01

    Controbloc is the programmable automaton used by Electricite de France (EDF) to equip its 1300 MW range of power plants. EDF and the designer CGEE Alsthom have conducted a large number of tests on prototype series equipment to determine whether it matches its specifications. These tests were performed in various laboratories in the Paris area and were concerned with: (1) verifying performance (acquisition, processing and retrieval cycle times - multiplexed exchange performance); (2) the robustness of equipment and its behaviour in industrial conditions (climatic tests in line with IEC regulations - earthquake resistance in particularly severe conditions - resistance to industrial interference); (3) behaviour when internal faults occur, an aspect of particular importance in view of the role played by Controbloc in nuclear power plants; in the event of a failure, safety (incorrect commands must not be given) and availability (resumption of operation) must be guaranteed. A large number of checks have been carried out both by the designer and EDF, the latter having put into operation an original method which is described in the paper. Controbloc has been thoroughly tested and its modular construction has facilitated the performance of these tests. Some shortcomings have been revealed which the designer or EDF has remedied. (author)

  18. An international co-ordinated research programme on nuclear accident dosimetry

    International Nuclear Information System (INIS)

    Flakus, F.N.

    1977-01-01

    Where fissile materials are being processed in quantities exceeding the minimum critical amounts, a radiation risk to workers arises from the possibility of criticality excursions. Despite the fact that techniques for preventing the occurende of such accidental excursions have reached very high standards it is generally agreed that the availability of suitable nuclear accident dosimetry (NAD) systems is very important. Following the recommendations of an Advisory Group meeting on NAD, the IAEA had established in 1969 an international coordinated research programme on NAD systems and elaborating standarized systems. A large number of research groups from 14 Member States throughout the world participated in this co-ordinated work. Since 1970 four international multilaboratory intercomparison experiments on NAD have been organized and the response of a variety of dosimeters examined in different neutron spectra under simulated accident conditions at Valduc (France), Oak Ridge (USA), Vinca (Yugoslavia) and Harwell (UK). The results achieved in these intercomparison studies show that NAD systems have been substantially improved and that several systems are available now in a number of laboratories throughout the world that perform within the criteria laid down by the initiating advisory group in 1969. A compendium of neutron leakage spectra has also been elaborated for facilitating the determination of dose from readings of detectors exposed to various neutron fields in criticality accidents

  19. Molecular Fingerprinting Approach in Plant Species Evaluation for a Nuclear Power Programme

    International Nuclear Information System (INIS)

    Azhar Mohamed

    2011-01-01

    Deoxyribonucleic acid (DNA) as a tool for marker technology is found to be remarkable, advanced and exciting in recent years. DNA markers are valuable tools and important in various plant breeding analyses for identification, gene mapping, marker systems and mutagenesis response. As gene expression is related to concurrent cellular activities and is mobilised in the adaptation of plants to adverse environmental conditions, changes at the DNA levels can be detected simultaneously. The changes also reflect response onto plant traits in which selection for better quality plant materials can be made and/or used as bio-indicator response in tracking any environmental change. The objective of the present study is to show Inter Simple Sequence Repeat (ISSR) markers as an important technique in differentiating plant DNA genomic in various species for the evaluation of their diversity and radiation effects in population. The technique has been found to be rapid, simple, reliable and robust in generating molecular fingerprinting database in bio surveillance for a nuclear power programme. (author)

  20. Results of research and development for nuclear power plants with WWER-1000 type light water reactors

    International Nuclear Information System (INIS)

    1984-01-01

    The conference met in three sessions: 1. Project designing and construction of nuclear power plants; 2. Materials, technologies and applied mechanics; 3. Physics, thermal physics and control. The proceedings contains 82 papers of which only two have not been inputted in INIS. The final resolutions of session 1 related to the reduction of capital costs for newly built units, processing of project documentation, the introduction of step motors manufactured in Czechoslovakia, in-service diagnostics of nuclear power plants, etc. The final recommendations of session 2 dealt with the centralization of the management of research into the reliability, safety and residual life of nuclear installations, with radiation stability of weld metals, repairs of nuclear power plants by patch welding, with welding in nuclear power plants and stress calculations using mathematical methods. Session 3 centred on questions of the safety, reliability and economy of nuclear power plant operation. It was recommended to make a comparison of the results of theoretical calculations with experiments, to concentrate on the automation of measurement, to extend international division of labour and cooperation of CMEA countries, to extend publishing activities in the field of thermal physics, etc. General recommendations were related to the conception of the construction of nuclear power plants in Czechoslovakia, the implementation of original scientific, research and development work, to the question of personnel for nuclear research, the experimental base of the Czechoslovak nuclear programme and to planning and management of technical development. (E.S.)

  1. The Quest for Balance: Attitudes of the Czechoslovak Independence Movement Abroad to the Adriatic Problem During the First World War

    Czech Academy of Sciences Publication Activity Database

    Hájková, Dagmara; Helan, P.

    2014-01-01

    Roč. 22, č. 3 (2014), s. 661-676 ISSN 1318-0185 R&D Projects: GA ČR GAP410/10/1273 Institutional support: RVO:67985921 Keywords : World War I * Czechoslovak independence movement Subject RIV: AB - History Impact factor: 0.202, year: 2014

  2. Principal trends in ensuring safety in nuclear power plant operation in the CSSR

    International Nuclear Information System (INIS)

    Beranek, J.; Kriz, Z.; Kovar, P.; Macoun, J.

    1984-01-01

    At present two reactor units of the VVER-440 type industrial nuclear power plant are in operation in Czechoslovakia and another ten units are planned to be commissioned and put in operation by 1990. The operation of these units is carried out in compliance with licences and regulations issued by the State Regulatory Body for Nuclear Safety, a body established within the framework of the Czechoslovak Atomic Energy Commission. Operational nuclear safety assurance is based primarily on compliance with the basic safety concept as conceived in the plant design and on compliance with the requirements and terms stipulated in the course of the licensing process. On this basis, the State supervisory activity concentrates on the quality assurance of components and installations important for nuclear safety, on the quality of operating personnel and on compliance with limits and conditions for safe operation. The paper presents the main requirements stipulated in Regulation No.5 on quality assurance issued by the Czechoslovak Atomic Energy Commission and shows how the regulation is being applied. The conditions and modes of proving compliance with quality assurance programmes during plant implementation (design, fabrication, assembly, commissioning) and plant operation are described. The qualification prerequisites and capability requirements for selected categories of operating personnel as stipulated in the existing regulations are outlined. The experience accumulated by the regulatory body in preparing, examining and supervising the activity of the personnel is described. Consideration is given to the question of operational management, with the emphasis on compliance with the limits and conditions for safe operation and on the procedures for their alteration and for reporting infringements. (author)

  3. The prospective United Kingdom nuclear energy programme up to 2000 AD and the UKAEA's role and manpower requirements

    International Nuclear Information System (INIS)

    Simeone, R.N.; Hodgkinson, I.A.

    1980-01-01

    This paper begins by surveying the development of the United Kingdom nuclear industry, its organization in both the public and private sectors of the economy, and changes in the numbers employed up to the present day. The possible future nuclear programme and overall manpower needs, and the UKAEA's role and manpower requirements within this programme, are outlined. Manpower problems arising from national shortages of engineers and technicians and reviews of arrangements for their education and training, and also from the pattern of historical development of the UKAEA, are described. UKAEA arrangements for formulating and implementing personnel policies, current policies for recruitment, carrier management and in-service training and their relationship to present and future needs are then discussed. The final section draws attention to UKAEA facilities for the training of staff from other organizations in the United Kingdom and from overseas. (author)

  4. Analysis of replies to an IAEA questionnaire on regulatory practices in Member States with nuclear power programmes

    International Nuclear Information System (INIS)

    1988-10-01

    The survey of regulatory practices in Member States with nuclear power programmes by means of a questionnaire is the first stage of the programme developed by the IAEA to assist the Member States in the enhancement of their regulatory practices. The questionnaire, drafted by IAEA staff members and consultants, consisted of 120 detailed questions and its structure corresponds approximately to the Structure of Code on the Safety of Nuclear Power Plants: Governmental Organizations (IAEA Safety Series No. 50-C-G-Rev.1). The questionnaire was sent to 64 Member States on 7 July 1987 and the replies received from 44 Member States have been analysed by IAEA staff members with the assistance of two consultants in order to identify the main differences in approach and the important features of regulatory practices in Member States. This technical document is the summary report of this analysis

  5. Nuclear techniques to assess irrigation schedules for field crops. Results of a co-ordinated research programme

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1996-06-01

    This TECDOC summarizes the results of a Co-ordinated Research Programme on The Use of Nuclear and Related Techniques in Assessment of Irrigation Schedules of Field Crops to Increase Effective Use of Water in Irrigation Projects. The programme was carried out between 1990 and 1995 through the technical co-ordination of the Soil Fertility, Irrigation and Crop Production Section of the Joint FAO/IAEA Division of Nuclear Techniques in Food and Agriculture of the International Atomic Energy Agency. Fourteen Member States of the IAEA and FAO carried out a series of field experiments aimed at improving irrigation water use efficiency through a type of irrigation scheduling known as deficit irrigation. Refs, figs, tabs.

  6. Nuclear techniques to assess irrigation schedules for field crops. Results of a co-ordinated research programme

    International Nuclear Information System (INIS)

    1996-06-01

    This TECDOC summarizes the results of a Co-ordinated Research Programme on The Use of Nuclear and Related Techniques in Assessment of Irrigation Schedules of Field Crops to Increase Effective Use of Water in Irrigation Projects. The programme was carried out between 1990 and 1995 through the technical co-ordination of the Soil Fertility, Irrigation and Crop Production Section of the Joint FAO/IAEA Division of Nuclear Techniques in Food and Agriculture of the International Atomic Energy Agency. Fourteen Member States of the IAEA and FAO carried out a series of field experiments aimed at improving irrigation water use efficiency through a type of irrigation scheduling known as deficit irrigation. Refs, figs, tabs

  7. The Community's research and development programme on decommissioning of nuclear power plants. Fourth annual progress report (year 1983)

    International Nuclear Information System (INIS)

    Anon.

    1985-01-01

    This is the fourth progress report of the European Community's program. (1979-83) of research on decommissioning of nuclear power plants. It covers the year 1983 and follows the 1980, 1981 and 1982 reports (EUR 7440, EUR 8343, EUR 8962). The present report describes the further progress of research and contains a large amount of results. For a majority of the 51 research contracts composing the 1979-83 programme, work was completed by the end of 1983; the conclusions drawn from this work are in this report. The European Community's program deals with the following fields: long-term integrity of buildings and systems; decontamination for decommissioning purposes; dismantling techniques; treatment of specific wastes materials (steel, concrete and graphite); large transport containers for radioactive waste produced in the dismantling of nuclear power plants; estimation of the quantities of radioactive waste arising from the decommissioning of nuclear power plants in the Community; influence of nuclear power plant design features on decommissioning

  8. Research and development needs in a step-wise process for the nuclear waste programme in Sweden

    International Nuclear Information System (INIS)

    Ström, A.; Andersson, J.; Ekeroth, E.; Hedin, A.; Pers, K.

    2016-01-01

    Concluding remarks: • The SKB RD&D Programme 2016 − contains an overview of all the measures that may be necessary for treatment and final disposal of nuclear waste from Swedish nuclear reactors and SKB's facilities; − clarifies how research and technology development are justified and evaluated in a step-wise procedure on the basis of the measures planned; − presents a strategic plan for the research and development necessary to establish and implement future activities; − Published as SKB TR 16-15 in December 2016

  9. Experience gained in Hungary on the role and responsibility of the public health authority in the nuclear power programme

    International Nuclear Information System (INIS)

    Sztanyik, L.B.

    1983-01-01

    The public health service of every country has a basic responsibility for maintaining and continuously improving the standard of health of its population. A significant part of this general responsibility, which has grown in importance in recent years, is radiation protection. While substantial economic, social, medical and scientific benefits are derived from various applications of nuclear energy, health authorities must insist on adequate control to protect the population from excessive exposure to radiation. Safety in the nuclear power industry means the assurance that all operational activities are carried out without undue radiation hazard to the general public and to the persons on-site. It is essential, therefore, that national public health authorities give immediate attention to their responsibilities for radiation protection and ensure the development of an adequate system of control as soon as initiation of a nuclear power programme has been decided. The role and responsibility assigned in Hungary to the public health authority by the government, the development of its organizational structure and of its control system and the actions taken to assert radiation protection requirements in the nuclear power programme of the country from the very beginning of its institution till the commissioning of the first 440 MW(e) unit of the nuclear power plant at Paks are reviewed. (author)

  10. Towards a synthesised network approach: An analysis of UK nuclear and renewable (wave) energy programme 1939-1985

    International Nuclear Information System (INIS)

    Watt, R.N.

    1998-05-01

    This thesis is concerned with two broad areas of interest: network interpretations of policy processes and alternative sources of energy. All three network interpretations examined (policy networks, actor networks and advocacy coalitions) stress different variables when examining policy processes. Equally, each can be criticised for over-emphasising their chosen variable. However, I shall argue that these flaws do not constitute grounds for dismissing any of these approaches. Several authors have suggested that we combine the merits of these network approaches but so far this has not been attempted. A central aim of this thesis is to develop a synthesis of the merits of each network approach which I argue offers a more robust means of interpreting policy processes. These ideas are then applied to an examination of the relationship between the UK civil nuclear programme (1939-1985) and the UK wave energy programme (1974-1985). Existing literature argues that the nuclear establishment used its considerable influence to undermine the wave energy programme. With the aid of a synthesised network approach, I argue that the nuclear conspiracy narrative is an over-simplification of this particular policy process. (author)

  11. Co-ordinated research programme on the use of nuclear and nuclear-related techniques in the study of environmental pollution associated with solid wastes

    International Nuclear Information System (INIS)

    1991-01-01

    A co-ordinated research programme on the use of nuclear and nuclear-related techniques in the study of environmental pollution associated with solid wastes was started by the IAEA in December 1987 and now comprises twenty-three participants from twenty-one countries. Topics of interest in this programme include studies of atmospheric aerosols, coal fly ash, incinerator ash, sewage sludge and a variety of other environmental specimens contaminated with solid wastes. The analytical techniques used include neutron activation analysis, particle-induced X-ray emission and energy-dispersive X-ray fluorescence. This report summarizes the discussions that took place during the second research co-ordination meeting. Working papers presented by the participants are included as annexes and have been indexed separately. Refs, figs and tabs

  12. Co-ordinated research programme on the use of nuclear and nuclear-related techniques in the study of environmental pollution associated with solid wastes

    International Nuclear Information System (INIS)

    1992-01-01

    A co-ordinated research programme on the use of nuclear and nuclear-related techniques in the study of environmental pollution associated with solid wastes was started by the IAEA in December 1987 and now comprises nineteen participants from seventeen countries. Topics of interest in this programme include studies of atmospheric aerosols, coal fly ash, incinerator ash, sewage sludge and a variety of other environmental specimens contaminated with solid wastes. The analytical techniques used include neutron activation analysis, particle-induced X-ray emission and energy-dispersive X-ray fluorescence. This report summarizes the discussions that took place during the third research co-ordination meeting. Working papers presented by the participants are included as annexes and have been indexed separately. Refs, figs and tabs

  13. Co-ordinated research programme on the use of nuclear and nuclear-related techniques in the study of environmental pollution associated with solid wastes

    International Nuclear Information System (INIS)

    1988-01-01

    A co-ordinated research programme on the use of nuclear and nuclear-related techniques in the study of environmental pollution associated with solid wastes was started by the Agency in December 1987 and now comprises nineteen participants from seventeen countries. Topics of interest in this programme include studies of atmospheric aerosols, coal fly ash, incinerator ash, sewage sludge and a variety of other environmental specimens contaminated with solid wastes. The analytical techniques being used in this programme include neutron activation analysis (NAA), particle induced X-ray emission (PIXE) and energy-dispersive X-ray fluorescence (ED-XRF). This report summarizes the discussions that took place during the first research co-ordination meeting. Working papers presented by the participants are included as annexes. The main outcome of the meeting was agreement to include a ''core'' programme comprising studies of (1) aerosols collected from areas of low and high pollution, (2) coal fly ash composition, and (3) leaching of toxic elements from coal fly ash

  14. Nuclear Site Remediation and Restoration during Decommissioning of Nuclear Installations. A Report by the NEA Co-operative Programme on Decommissioning

    International Nuclear Information System (INIS)

    Orr, Peter; Mitchell, Nick; Mobbs, Shelly; Bennest, Terry; Abu-Eid, Rateb-Boby; Berton, Marie-Anne; Dehaye, Catherine Ollivier; Pellenz, Gilles; Cruikshank, Julian; Diaz Arocas, Paloma; Garcia Tapias, Ester; Hess, Norbert; Hong, Sam-Bung; Miller, Susan; Monken-Fernandes, Horst; ); Morse, John; Nitzsche, Olaf; Ooms, Bart; Osimani, Celso; Stuart Walker

    2014-01-01

    Decommissioning of nuclear facilities and related remedial actions are currently being undertaken around the world to enable sites or parts of sites to be reused for other purposes. Remediation has generally been considered as the last step in a sequence of decommissioning steps, but the values of prevention, long-term planning and parallel remediation are increasingly being recognised as important steps in the process. This report, prepared by the Task Group on Nuclear Site Restoration of the NEA Co-operative Programme on Decommissioning, highlights lessons learnt from remediation experiences of NEA member countries that may be particularly helpful to practitioners of nuclear site remediation, regulators and site operators. It provides observations and recommendations to consider in the development of strategies and plans for efficient nuclear site remediation that ensures protection of workers and the environment. (authors)

  15. RBMK nuclear power plants: Generic safety issues. A publication of the extrabudgetary programme on the safety of WWER and RBMK nuclear power plants

    International Nuclear Information System (INIS)

    1996-05-01

    This report has been prepared on the basis of above mentioned report and it is intended to provide information on RBMK NPPs generic safety issues. As all other insights, recommendations and conclusions resulting from the IAEA Programme, this report is intended to assist national decision makers, who have sole responsibility for the regulation and safe operation of their nuclear power plants. It also serves to focus national and international projects on priority of the RBMK safety improvements. 23 refs, 10 figs, 3 tabs

  16. OSART programme highlights 1995-1996. Operational safety practices in nuclear power plants

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1998-05-01

    The IAEA Operational Safety Review Team (OSART) programme provides advice and assistance to Member States in enhancing the operational safety of nuclear power plants. This report continues the practice of summarizing mission results so that all the aspects of OSART missions, Pre-OSART missions and good practices are to be found in one volume. It also includes results of follow-up visits. Attempts have been made in this report to highlight the most significant findings whilst retaining as much of the vital background information as possible. This report is in four parts: Part I summarizes the most significant observations made during the missions and follow-up visits during 1995-1996; Part II, in chronological order, is an overview of the major strengths and opportunities for improvement identified during each OSART mission and summaries of follow-up visits performed during the period; Part III lists good practices that were identified during 1995 and 1996; and Part IV presents the OSART mission results (OSMIR) database. Each part of the report is intended for different levels in operating and regulatory organizations but not exclusively so. Part I is primarily to the executive management level; Part II to middle managers; and Parts III and IV to those involved in operational experience feedback. Because of widely different plant designs, operating and management styles, cultural practices, and other factors affecting plant operations, no OSART findings were applicable to all of the plants visited in 1995 and 1996. Individual findings varied considerably in scope and significance. However, the findings do reflect some common strengths and opportunities for improvement

  17. The nuclear power stations of the French atomic energy programme (1960); Les centrales nucleaires de puissance du programme francais (1960)

    Energy Technology Data Exchange (ETDEWEB)

    Leduc, C [Commissariat a l' Energie Atomique, Saclay (France).Centre d' Etudes Nucleaires; Roux, J P [Electricite de France (EDF), 75 - Paris (France)

    1960-07-01

    After recalling the entry of nuclear energy into energy production in France, the paper emphasizes the evolution of techniques applied in the designing of French nuclear power plants and describes the means employed for reducing costs per kWh of EDF2 and EDF3 compared with EDF1: the electric power per ton of uranium varies from 493 kW/t for EDF1 to 970 kW/t for EDF3. For this purpose the thermal power and electric power of units are changed respectively from 290 MWt for EDF1 to 1200 or 1600 MWt for EDF3 and from 28 to 250 MW. The results are obtained by an improvement in neutronic characteristics, developments in nuclear fuel technology, and simplification of the system of charging the reactor, whose means of maintenance are increased; the EDF2 heat-exchangers have been so designed as to increase the unit power of the elements, which will attain 9 MWt, as against 3 for EDF1. For EDF3 an advance project forecasts a thermodynamic layout with only one pressure stage. The paper ends with a description of the burst-slug detection systems, and an appendix gives a detailed comparative table of EDF1, EDF2 and EDF3 plant characteristics. (author) [French] Apres avoir rappele l'integration de l'energie nucleaire parmi les moyens de production de l'energie en France, les auteurs se penchent surtout sur l'evolution des techniques appliquees dans l'equipement des centrales nucleaires francaises et decrivent les moyens mis en oeuvre pour reduire les prix de revient du kWh d'EDF2 et d'EDF3 par rapport a EDF1: la puissance electrique par tonne d'uranium varie de 493 kW/t pour EDF1 a 970 kW/t pour EDF3. C'est dans ce but que les puissances thermiques et la puissance unitaire des groupes turbo-alternateurs passent respectivement de 290 MWt pour EDF1 a 1200 ou 1600 MWt pour EDF3 et de 82 a 250 MW. Les resultats sont obtenus par une amelioration des caracteristiques neutroniques, des progres realises sur la technologie des elements combustibles, une simplification du systeme de

  18. The socio-economic monitoring of the Ignalina Nuclear Power Plant region: methodology, programme, implementation

    International Nuclear Information System (INIS)

    Baubinas, R.; Burneika, D.; Daugirdas, V.

    2002-01-01

    The article is devoted to the argumentation of the main principles of socio-economic monitoring of the Ignalina NPP region. The programme and the territorial levels of the monitoring as well as the main results of the trial of the programme are presented. (author)

  19. Impact of the application of criteria of internal monitoring in radiological protection programmes in nuclear medicine services

    International Nuclear Information System (INIS)

    Dantas, B.M.; Dantas, A.L.A.; Juliao, L.Q.C.; Lourenco, M.C.; Melo, D.R.

    2005-01-01

    The manipulation of open sources in Nuclear Medicine services involves risks of external exposure and internal contamination. The radiological protection plan of facilities licensed by CNEN - Brazilian Nuclear Energy Commission - must include the evaluation of such risks and propose a programme of individual monitoring to control exposure and ensure the maintenance of conditions of radiation safety. The IAEA - International Atomic Energy Agency - recommendations presented in the Safety Guide RS-G-1.2 suggest that an internal worker monitoring program be implemented where there is a possibility of internal contamination lead to effective dose committed annual values equal to or greater than 1 mSv. This paper presents the application of such criteria to the radionuclides most frequently used in the field of Nuclear Medicine, taking into account the normal conditions of handling and the ranges of activity authorized by CNEN. It is concluded that iodine 131 manipulation for therapeutic purposes is the practice that presented the greatest risk of internal exposure of workers, requiring the adoption of a programme of internal monitoring of Nuclear Medicine services

  20. CZECHOSLOVAK FOOTPRINTS IN THE DEVELOPMENT OF METHODS OF THERMOMETRY, CALORIMETRY AND THERMAL ANALYSIS

    Directory of Open Access Journals (Sweden)

    Pavel Holba

    2012-07-01

    Full Text Available A short history on the development of thermometric methods are reviewed accentuating the role of Rudolf Bárta in underpinning special thermoanalytical conferences and new journal Silikáty in fifties as well as Vladimir Šatava mentioning his duty in the creation of the Czech school on thermoanalytical kinetics. This review surveys the innovative papers dealing with thermal analysis and the related fields (e.g. calorimetry, kinetics which have been published by noteworthy postwar Czechoslovak scholars and scientists and by their disciples in 1950-1980. Itemized 227 references with titles show rich scientific productivity revealing that many of them were ahead of time even at international connotation.