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# DEMO plasmae and reactor specifications and | # DEMO plasmae and reactor specifications and | ||
# Blanket and Systems Integration and engineering survey | # Blanket and Systems Integration and engineering survey | ||
In each task may be more than one working Group. | |||
== Groups == | |||
Experts Leadership researchers are responsible for the following 19 groups: | |||
# WG 1: Computational neutronics of Modular Dual coolant -DRM-refrigerated by He and by LiPb box; | |||
# WP 2: Responsible for the Integral structural design by Thermal Mechanics and Electromagnetic structural design, within task 2; | |||
# WG 3: CDF computational capabilities for Liquid Metal and gas channels of the DRM He/LiPb box and its auxiliary systems, (Thermal Hydraulics), within the subtask 3.1; | |||
# WG 4: Integral CDF computational capabilities for Liquid Metal and gas channels of the DRM He/LiPb box and its auxiliary systems, (Magneto Hydrodynamics, subtask 3.2) | |||
# WG5: Production of Eurofer steels batches at laboratory, within task 4.1 (Actually strong added value of ASTURFER ® made mainly but not only with ITMA resources; | |||
# WG6: Production of 6Li and eutectic LiPb batches at laboratory, within subtask 4.2 (Actually added value of 13 batches made at UCM and analysed not only with the ICP-MS of CIEMAT); | |||
# WG7: Production of SiC subtask 4.3; the objective of this task is the production routes of ceramic materials based on porous SiC and composite SiCf/SiC, for application as insulating channel inserts (or insulating FCI). This is based on the Modular Dual coolant He/LiPb or TECNO-FUS DRM Liquid Metal. The SiC has been choice due its excellent thermal stability, mechanical and chemical characteristics at high temperatures. Its low thermal expansion, good thermal shock resistance, low corrosion in Pb-15.7Li, low activation and good resistance to neutron irradiation make it the correct working material. | |||
# WG8: Metallurgical characterisation of the Eurofer steels batches at laboratory, (subtask 4.1. Actually characterisation of the ASTURFER ® batches); | |||
# WG9: Electrical Properties characterisation of the Modular dual coolant DRM He/LiPb functional and structural materials, mainly but not only SiC coming from subtask 4.3) within subtask 4.5; | |||
# WG10: Tritium properties characterisation by means of the selected technologies by EHU-UPV, mainly but not only IDE, within subtask 4.6; | |||
# WG11: Computational characterisation of eutectic LiPb, within subtask 4.7; | |||
# WG12: Devoted to the design of tritium transport analysis and corresponding FPD, within subtask 5.1; | |||
# WG13: The aim of this Group is the Control and monitoring technologies within subtask 5.2 oriented to specific tritium monitoring an control developments: 1. Development of H-partial pressure sensors, 2. Li-title electrochemical sensor and Li-title on-line adjustment techniques, and 3. Composition evolution sensing). | |||
# WG14: Design of technologies and Plant Systems, which purpose are the Power Conversion (helium cycles and CO2 cycles) and the new energy vectors for Fusion, within subtask 5.3; | |||
# WG15: Breeding blanket diagnostics and Control and Data Acquisition (CODAC) architectures; | |||
# WG16: Safety analysis of the DRM He/LiPb system (subtask 7.1); | |||
# WG17: Group responsible for the development of the Environmental Impact of the of fusion power plant systems mainly but not only in the atmosphere, running some numerical weather prediction model coupled with some dispersion model to analyse tritium species concentration in air and associated doses, within the subtask 7.2; | |||
# WG18: DEMO plasmae and reactor specifications as Task 8. | |||
# WG19: Group Responsible for complete task 9 with the purpose of the Blanket and Systems Integration and engineering survey (mainly but not only the RAFM). | |||
== External links == | == External links == |
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