Technology of Transmutation TETRA - Preparation for FP6 -

1. Presented by X. Cheng ADOPT meeting, 10.-11. December 2002 EC Building Batiment SDME, Brussel, Belgien Technology of Transmutation TETRA- Preparation for FP6 -

2. Transmutation Technology in 5FP SPIRE Irradiation behavior of structural material (CEA) TECLA Technologies of Lead alloys (ENEA) Cluster TESTRA MEGAPIE-TEST Support for MEGAPIE Target (FZK) ASCHLIM CFD application to HLM (SCK)

3. Objectives First contact of partners Discussion about the organization Preparation of the technical content Define short (near)-term actions Participants: First meeting at FZK (Sept. 12, 2002) FZK, CEA, CIEMAT, CNRS, ENEA, FANP, KTH, PSI, RUB, SCK, UoP, Second meeting at ENEA (Oct. 25, 2002) CEA, CIEMAT, ENEA, FZK, NRG, PSI First TETRA Working Group Meetings

4. Achievement Preliminary organization scheme Preliminary task list and task sheets Ranking criteria Short (near)-term actions Next actions Finalization of technical tasks (interaction with design requirements) and organization scheme Harmonization of resources First TETRA Working Group Meetings

5. Structure of the TETRA Working Group WP 2 Advanced T-H & Measurement techniques WP 3 Material studies & HLM technology WP1 Project management & summary WP 4 MEGAPIE post-test analysis WP 5 Large scale integral tests

6. Structure of WP 3 WP 3.1 Material selection & procurement WP 3 Material studies & HLM technology WP 3.2 Corrosion protection & HLM technology WP 3.3 Material irradiation studies

7. Objectives Coordination of the working group Interaction with XADS design working group Subtasks 1.1 Project coordination 1.2 Project summary and recommendation WP I – Project management and summary

8. Subtasks 2.1.1 Heat transfer in forced and natural convection 2.1.2 Two-phase flow 2.1.3 Interaction of LBE with water 2.2 Thermal-hydraulics of the active part of the window target 2.3 Thermal-hydraulics of the active part of the windowless target 2.4 Development of physical models and CFD validation 2.5 Measurement techniques WP II – Advanced Thermal-hydraulics and measurement techniques

9. Subtasks 3.1.1 Material selection 3.1.2 Specification, quality assurance & procurment 3.1.3 Material aging 3.1.4 Characterisation of new materials (T92) WP III.1: Material selection and procurement

10. Subtasks 3.2.1 Evaluation of corrosion kinetics 3.2.2 Development of corrosion barriers for high temperatures 3.2.3 Physical chemistry of lead alloy 3.2.4 Oxygen control and measurement techniques 3.2.5 Impurity measurement and removal 3.2.6 Material corrosion and mechanical properties under irradiation in the presence of lead alloy 3.2.7 Mechanical behavior of T91 in contact with lead alloy WP III.2: Corrosion protection and HLM technology

11. Subtasks 3.2.1 Effect of spallation products on the material properties – implantation tests 3.3.2 Irradiation tests under neutron spectrum in fission reactor & PIE 3.3.3 Irradiation tests under proton-neutron mixed spectrum at SINQ facility & PIE 3.3.4 Modeling of irradiation damage in the spallation environment 3.3.5 Experimental studies on hardening and embrittlement after irradiation (nanometric scale) WP III.3: Material irradiation studies

12. Subtasks 4.1 Post tests analysis (PTA) 4.1.1 Thermal-hydraulics 4.1.2 Neutronics 4.1.3 System and components behaviour 4.1.4 Beam diagnostics 4.1.5 Instrumentation and safety systems 4.2 PIE 4.3 Procedures for irradiated LBE WP IV – MEGAPIE post-test analysis

13. Subtasks 5.1 Components group of primary system 5.2 Full scale spallation target module WP V – Large scale integral tests

14. Objectives Tasks a) b) c) Contribution and budget requirement of partners Ranking Task sheet example - Task No. And Title

15. Ranking criteria