A spallation-based irradiation test facility for fusion and future fission materials

The EU’s FP7 TIARA program for developing accelerator-based facilities has recently demonstrated the unique capabilities of a compact and powerful spallation source for irradiating advanced nuclear materials. The spectrum and intensity of the neutron flux produced in the proposed facility fulfils th...

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Autores principales: Samec, K, Fusco, Y, Kadi, Y, Luis, R, Romanets, Y, Behzad, M, Aleksan, R, Bousson, S
Formato: info:eu-repo/semantics/article
Lenguaje:eng
Publicado: 2014
Materias:
Accelerators and Storage Rings
9: TIHPAC R&D Infrastructure
9.1: M-MWIF Multi MW Irradiation Facility for complex target testing
Acceso en línea:http://cds.cern.ch/record/1697417
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author Samec, K
Fusco, Y
Kadi, Y
Luis, R
Romanets, Y
Behzad, M
Aleksan, R
Bousson, S
author_facet Samec, K
Fusco, Y
Kadi, Y
Luis, R
Romanets, Y
Behzad, M
Aleksan, R
Bousson, S
author_sort Samec, K
collection CERN
description The EU’s FP7 TIARA program for developing accelerator-based facilities has recently demonstrated the unique capabilities of a compact and powerful spallation source for irradiating advanced nuclear materials. The spectrum and intensity of the neutron flux produced in the proposed facility fulfils the requirements of the DEMO fusion reactor for ITER, ADS reactors and also Gen III / IV reactors. Test conditions can be modulated, covering temperature from 400 to 550°C, liquid metal corrosion, cyclical or static stress up to 500 MPa and neutron/proton irradiation damage of up to 25 DPA per annum. The entire “TMIF” facility fits inside a cube 2 metres on a side, and is dimensioned for an accelerator beam power of 100 kW, thus reducing costs and offering great versatility and flexibility.
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spelling cern-16974172019-09-30T06:29:59Z http://cds.cern.ch/record/1697417 eng Samec, K Fusco, Y Kadi, Y Luis, R Romanets, Y Behzad, M Aleksan, R Bousson, S A spallation-based irradiation test facility for fusion and future fission materials Accelerators and Storage Rings 9: TIHPAC R&D Infrastructure 9.1: M-MWIF Multi MW Irradiation Facility for complex target testing The EU’s FP7 TIARA program for developing accelerator-based facilities has recently demonstrated the unique capabilities of a compact and powerful spallation source for irradiating advanced nuclear materials. The spectrum and intensity of the neutron flux produced in the proposed facility fulfils the requirements of the DEMO fusion reactor for ITER, ADS reactors and also Gen III / IV reactors. Test conditions can be modulated, covering temperature from 400 to 550°C, liquid metal corrosion, cyclical or static stress up to 500 MPa and neutron/proton irradiation damage of up to 25 DPA per annum. The entire “TMIF” facility fits inside a cube 2 metres on a side, and is dimensioned for an accelerator beam power of 100 kW, thus reducing costs and offering great versatility and flexibility. info:eu-repo/grantAgreement/EC/FP7/261905 info:eu-repo/semantics/openAccess Education Level info:eu-repo/semantics/article http://cds.cern.ch/record/1697417 2014
spellingShingle Accelerators and Storage Rings
9: TIHPAC R&D Infrastructure
9.1: M-MWIF Multi MW Irradiation Facility for complex target testing
Samec, K
Fusco, Y
Kadi, Y
Luis, R
Romanets, Y
Behzad, M
Aleksan, R
Bousson, S
A spallation-based irradiation test facility for fusion and future fission materials
title A spallation-based irradiation test facility for fusion and future fission materials
title_full A spallation-based irradiation test facility for fusion and future fission materials
title_fullStr A spallation-based irradiation test facility for fusion and future fission materials
title_full_unstemmed A spallation-based irradiation test facility for fusion and future fission materials
title_short A spallation-based irradiation test facility for fusion and future fission materials
title_sort spallation-based irradiation test facility for fusion and future fission materials
topic Accelerators and Storage Rings
9: TIHPAC R&D Infrastructure
9.1: M-MWIF Multi MW Irradiation Facility for complex target testing
url http://cds.cern.ch/record/1697417
http://cds.cern.ch/record/1697417
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