TECNO FUS: Difference between revisions
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The purpose of the breeding blanket is twofold: to extract the energy generated in the power reactor, and to convert Lithium into Tritium. | The purpose of the breeding blanket is twofold: to extract the energy generated in the power reactor, and to convert Lithium into Tritium. | ||
Associated techniques involve neutron detection, the development of materials (Eurofer steel, ceramics, SiC or composite SiCf/SiC), the management of liquid metals in strong magnetic fields, and thermomechanical calculations in complex geometries. The first design of a dual coolant, dual functionality model is not original of TECNO_FUS, what is original is the development of the so called DRM design (Spanish for "Doble Refrigerante Modular" | Associated techniques involve neutron detection, the development of materials (Eurofer steel, ceramics, SiC or composite SiCf/SiC), the management of liquid metals in strong magnetic fields, and thermomechanical calculations in complex geometries. The first design of a dual coolant, dual functionality model is not original of TECNO_FUS, what is original is the development of the so called Modular Double Coolant DRM He/Liquid Metal design (Spanish for "Doble Refrigerante Modular" of He/Pb-15.7Li. | ||
== Institutional participation == | == Institutional participation == | ||
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# Computational neutronics of DRM He/LiPb box | # Computational neutronics of DRM He/LiPb box | ||
# Integral structural design TM/EM of DRM He/LiPB box | # Integral structural design TM/EM of DRM He/LiPB box | ||
# Integral CDF computational capabilities for Liquid Metal and gas channels of the DRM He LiPb box and auxiliary systems | # Integral CDF computational capabilities for Liquid Metal and gas channels of the DRM He/LiPb box and auxiliary systems | ||
# Production of DRM funtional and structural materials | # Production of DRM funtional and structural materials | ||
# Design of technologies and plant systems | # Design of technologies and plant systems | ||
Revision as of 13:13, 9 January 2012
TECNO_FUS is a Programme financed by the Spanish Government (by means of a Consolider Ingenio 2010 grant by MICINN, Ref. CSD2008-0079) and oriented towards the development of technologies associated with the Breeding blanket of future fusion power plants.
The purpose of the breeding blanket is twofold: to extract the energy generated in the power reactor, and to convert Lithium into Tritium.
Associated techniques involve neutron detection, the development of materials (Eurofer steel, ceramics, SiC or composite SiCf/SiC), the management of liquid metals in strong magnetic fields, and thermomechanical calculations in complex geometries. The first design of a dual coolant, dual functionality model is not original of TECNO_FUS, what is original is the development of the so called Modular Double Coolant DRM He/Liquid Metal design (Spanish for "Doble Refrigerante Modular" of He/Pb-15.7Li.
Institutional participation
Institutions involved are specialized Centres and Universities all over Spain, e.g.
- Centro de Estudios e Investigaciones Técnicas de Gipuzkoa (CEIT) of the Universidad de Navarra (UNAV)
- Universidad Pontificia de Comillas (ETSII-COMILLAS)
- EHU-Universidad del País Vasco
- Instituto Químico de Sarriá (Universidad Ramón Llull)
- ITMA (at Llanera-Avilés)and Universidad de Oviedo (UNIOVI)
- Universidad Complutense de Madrid
- UNED
- Universidad Politécnica de Cataluña
- Universidad Politécnica de Madrid
The work is coordinated by CIEMAT, acting as Management Entity, such that the Head of the LNF is also the Research Coordinator. The project includes a Technical Secretary.
Tasks
Leadership researchers are responsible for the following 9 tasks:
- Computational neutronics of DRM He/LiPb box
- Integral structural design TM/EM of DRM He/LiPB box
- Integral CDF computational capabilities for Liquid Metal and gas channels of the DRM He/LiPb box and auxiliary systems
- Production of DRM funtional and structural materials
- Design of technologies and plant systems
- Breeding blanket diagnostic and CODAC architectures
- Safety analysis and environmental impact of DRM He/LiPb system
- DEMO plasmae & reactor specifications
- Blanket & Systems integration and engineering survey