1. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 1

2. 2 European Research An overview To strengthen the European scientific and technological base to support the competitivity of European industry and to solve common problems Increase the research co-operation in Europe Support for co-operative research projects Organised in Five-year Framework Programmes

3. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 3 FP6 - a radical departure from the past greater focus clearer European added value strengthen European competitivity solve major societal problems contribute to European Research Area but - maintain continuity with past

4. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 4 European research policy National programmes ‘Open Coordination’ Framework programme European organisations The European Research Area A blueprint for the future of research in Europe Broad support at the highest political, scientific and industrial levels Being implemented

5. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 5 New instruments to achieve goals Integrated Projects Networks of Excellence Evolved forms of traditional instruments Provide Consortia with more - flexibility - autonomy

6. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 6 Steps in the development of the WP Proposal of a FP by the Commission Discussion in Council and Parliament Council decision on FP Process repeated for SP WP prepared by the Commission implements the SP

7. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 7 FP6 - Two Framework programmes EC 16,270 M€ EURATOM 1,230 M€

8. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 8 FP6 - Nuclear Energy (1230 M€) Priority Thematic Areas Controlled thermonuclear fusion 750 M€ Management of radioactive waste 90 M€ Radiation protection 50 M€ Other activities in nuclear safety field 50 M€ Innovative concepts Education and training Safety of existing installations Joint Research Centre 290 M€

9. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 9 Controlled thermonuclear fusion The Next Step in fusion: continuation of activities in preparation of the construction phase of ITER (International Thermonuclear Experimental Reactor) Accompanying Programme: Operation of the JET device Continuation of research into fusion physics and technology, including study of other magnetic confinement formulas and operation of existing devices; fusion materials research

10. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 10 Work Programme - Calls for Proposals Fixed Deadlines 6 May 2003~67 M€ Spring 2004 ~55 M€ Spring 2005~40 M€ Networks of Excellence Integrated projects Integrated Infrastructure Initiatives Specific Targeted Research Projects Co-ordination Actions

11. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 11 Work Programme - Calls for Proposals (cont’d) Open call Two cut-off dates a year (first 6 May 2003, last 11 April 2006) 1 - 2 M€/year Specific support actions Training fellowships Special training courses Grants for co-operating with third countries Trans-national access to large infrastructures

12. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 12 Expressions of Interest received Management of radioactive waste60 Radiation Protection 74 Other activities57 Available on Cordis http://eoi.cordis.lu/search_form.cfm

13. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 13 Management of radioactive waste Geological disposal -Improvement of fundamental knowledge, developing and testing technologies - New and improved tools for performance and safety assessment; public concerns Partitioning and transmutation and other concepts that produce less waste

14. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 14 First call - geological disposal NoEs -Sustainable integration of European research in the geological disposal of radioactive waste -Sustainable integration of European research on actinides

15. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 15 First call - geological disposal (cont) IPs -Understanding and physical and numerical modeling of the key processes in the near-field, and their coupling, for different host rocks and repository strategies -Development and testing of disposal technologies in Underground research Laboratories STREPs or Co-ordination Actions - Improving the governance of geological waste disposal

16. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 16 Geological disposal Indicative future topics -Radionuclide migration processes - Modelling of coupled THMC processes - Tools for performance and safety assessment

17. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 17 First call - partitioning and transmutation and other concepts to produce less waste in nuclear energy generation IP -Partitioning of actinides and fission products from high-level nuclear waste for their transmutation or conditioning in stable matrices STRP or Co-ordination action - Impact of partitioning and transmutation

18. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 18 P&T and other concepts Indicative future topics -Transmutation - Other concepts

19. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 19 Radiation protection Quantification of risks at low and protracted doses - epidemiological studies - cellular and molecular biology research Better integration of European research on: - medical exposures and natural sources of radiation - protection of the environment and radioecology - risk and emergency management - protection of the workplace

20. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 20 First call - Low and protracted doses IP -Cellular and molecular biology research on the effects of low and protracted doses Indicative future topics - Epidemiological studies - Further cellular and molecular research

21. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 21 First call - Medical exposures and natural sources of radiation STREP -Safety and efficacy of computed tomography (CT) Co-ordination Action - Safety and efficacy of other imaging techniques Indicative future topics - Therapy - Management of exposures from NORM

22. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 22 First call - Protection of the environment and radioecology STREP -Protection of the environment from radiation Indicative future topics - Networking of research on radioecology

23. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 23 First call - Risk and emergency management IP - Off-site emergency management Indicative future topics - Governance of nuclear risks

24. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 24 First call - Protection of the workplace Not included in the first call Indicative future topics - Networking research on protection of the workplace

25. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 25 Other activities in the field of nuclear technology and safety Innovative concepts - Evaluation of new concepts for generating fission energy - Improved and safer processes for the exploitation of nuclear energy Education and training - Integration and consolidation of national efforts - Mobility and human resources - Transnational access to infrastructures Safety of existing installations

26. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 26 First call - Innovative concepts Not included in the first call Indicative future topics - High temperature reactors - Other innovative concepts - Other applications, eg hydrogen production

27. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 27 First call - Education and training STREPs or Co-ordination Actions -Education and training in nuclear engineering and safety -Education and training needs for radiation protection and radioactive waste anagement -Infrastructures for nuclear fission and radiation protection research Indicative future topics -Education and training activities for radiation protection and radioactive waste management

28. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 28 Other activities (cont.) Innovative concepts Education and training Safety of existing installations - Plant life management (ageing, safety management) - Fuel performance - Severe accident management - Decommissioning - Harmonised approaches to safety and best practice

29. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 29 First call - Safety of existing installations NoE and/or IP - Sustainable integration of European research on severe accident phenomenology and management IP - Prediction of irradiation damage effects on reactor components STREP or Co-ordination Actions - Material test reactors for advancing the knowledge of materials, fuel and production of radioisotopes for nuclear medicine - Decommissioning of nuclear installations

30. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 30 Safety of existing installations Indicative future topics - Numerical codes for coupling thermal hydraulics, core physics and fuel mechanics -Networking of plant life management, materials ageing and organisational issues -High burnup and MOX fuel -Benchmarking approaches to risk assessment - Knowledge management

31. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 31 Indicative levels of Community funding for Euratom projects IP and NoE - about 5 to 10 M€ STREP - from hundreds of k€ to a few M€ CA - tens of k€ to a few hundred k€ Generally, only one project funded for each research topic in WP

32. EURATOM RESEARCH AND TRAINING ON NUCLEAR ENERGY 32 Information material - Call 17 Dec 2002 The Euratom FP6 in brief Euratom Work programme 2003 Guide for proposers (per instrument) Application forms (per instrument) Evaluation guide Available on Cordis www.cordis.lu/fp6/euratom