VVUQ of a thermal-hydraulic multi-scale tool on unprotected loss of flow accident in SFR reactor

VVUQ of a thermal-hydraulic multi-scale tool on unprotected loss of flow accident in SFR reactor

Within the framework of the French 4th-generation Sodium-cooled Fast Reactor safety assessment, methodology on VVUQ (Verification, Validation, Uncertainty Quantification) is conducted to demonstrate that the CEA's thermal-hydraulic Scientific Computation Tools (SCTs) are effective and operation...

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Main Authors: Marie Nathalie, Li Simon, Marrel Amandine, Marquès Michel, Bajard Sophie, Tosello Annick, Perez Jorge, Grosjean Baptiste, Gerschenfeld Antoine, Anderhuber Marine, Geffray Chotaire, Gorsse Yannick, Mauger Gédéon, Matteo Laura
Format: Article
Language:English
Published: EDP Sciences 2021-01-01
Series:EPJ Nuclear Sciences & Technologies
Online Access:https://www.epj-n.org/articles/epjn/full_html/2021/01/epjn200008/epjn200008.html
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spelling doaj-e184115be5e94961a9c90df3af1de8ec2021-02-18T10:43:58ZengEDP SciencesEPJ Nuclear Sciences & Technologies2491-92922021-01-017310.1051/epjn/2021002epjn200008VVUQ of a thermal-hydraulic multi-scale tool on unprotected loss of flow accident in SFR reactorMarie Nathalie0https://orcid.org/0000-0002-3756-7903Li Simon1Marrel Amandine2Marquès Michel3Bajard Sophie4Tosello Annick5Perez Jorge6Grosjean Baptiste7Gerschenfeld Antoine8Anderhuber Marine9Geffray Chotaire10Gorsse Yannick11Mauger Gédéon12Matteo Laura13CEA, DEN, DERCEA, DEN, DERCEA, DEN, DERCEA, DEN, DERCEA, DEN, DERCEA, DEN, DERCEA, DEN, DERCEA, DEN, DERCEA, DEN, DM2SCEA, DEN, DM2SCEA, DEN, DM2SCEA, DEN, DM2SCEA, DEN, DM2SCEA, DEN, DM2SWithin the framework of the French 4th-generation Sodium-cooled Fast Reactor safety assessment, methodology on VVUQ (Verification, Validation, Uncertainty Quantification) is conducted to demonstrate that the CEA's thermal-hydraulic Scientific Computation Tools (SCTs) are effective and operational for design and safety studies purposes on this type of reactor. This VVUQ-based qualification is a regulatory requirement from the French Nuclear Safety Authority (NSA). In this paper, the current practice of VVUQ approach application for a SFR accidental transient is described with regard to the NSA requirements. It constitutes the first practical, progressively improvable approach. As the SCT is qualified for a given version on a given scenario, the transient related to a total unprotected station blackout has been selected. As it is a very complex multi-scale transient, the SCT MATHYS (which is a coupling of the CATHARE2 tool at system scale, TrioMC tool at component scale and TrioCFD tool at local scale) is used. This paper presents the preliminary VVUQ application to the qualification of this tool on this selected transient. In addition, this work underlines some feedback on design and R&D aspects that should be addressed in the future to improve the SCT.https://www.epj-n.org/articles/epjn/full_html/2021/01/epjn200008/epjn200008.html
collection DOAJ
language English
format Article
sources DOAJ
author Marie Nathalie
Li Simon
Marrel Amandine
Marquès Michel
Bajard Sophie
Tosello Annick
Perez Jorge
Grosjean Baptiste
Gerschenfeld Antoine
Anderhuber Marine
Geffray Chotaire
Gorsse Yannick
Mauger Gédéon
Matteo Laura
spellingShingle Marie Nathalie
Li Simon
Marrel Amandine
Marquès Michel
Bajard Sophie
Tosello Annick
Perez Jorge
Grosjean Baptiste
Gerschenfeld Antoine
Anderhuber Marine
Geffray Chotaire
Gorsse Yannick
Mauger Gédéon
Matteo Laura
VVUQ of a thermal-hydraulic multi-scale tool on unprotected loss of flow accident in SFR reactor
EPJ Nuclear Sciences & Technologies
author_facet Marie Nathalie
Li Simon
Marrel Amandine
Marquès Michel
Bajard Sophie
Tosello Annick
Perez Jorge
Grosjean Baptiste
Gerschenfeld Antoine
Anderhuber Marine
Geffray Chotaire
Gorsse Yannick
Mauger Gédéon
Matteo Laura
author_sort Marie Nathalie
title VVUQ of a thermal-hydraulic multi-scale tool on unprotected loss of flow accident in SFR reactor
title_short VVUQ of a thermal-hydraulic multi-scale tool on unprotected loss of flow accident in SFR reactor
title_full VVUQ of a thermal-hydraulic multi-scale tool on unprotected loss of flow accident in SFR reactor
title_fullStr VVUQ of a thermal-hydraulic multi-scale tool on unprotected loss of flow accident in SFR reactor
title_full_unstemmed VVUQ of a thermal-hydraulic multi-scale tool on unprotected loss of flow accident in SFR reactor
title_sort vvuq of a thermal-hydraulic multi-scale tool on unprotected loss of flow accident in sfr reactor
publisher EDP Sciences
series EPJ Nuclear Sciences & Technologies
issn 2491-9292
publishDate 2021-01-01
description Within the framework of the French 4th-generation Sodium-cooled Fast Reactor safety assessment, methodology on VVUQ (Verification, Validation, Uncertainty Quantification) is conducted to demonstrate that the CEA's thermal-hydraulic Scientific Computation Tools (SCTs) are effective and operational for design and safety studies purposes on this type of reactor. This VVUQ-based qualification is a regulatory requirement from the French Nuclear Safety Authority (NSA). In this paper, the current practice of VVUQ approach application for a SFR accidental transient is described with regard to the NSA requirements. It constitutes the first practical, progressively improvable approach. As the SCT is qualified for a given version on a given scenario, the transient related to a total unprotected station blackout has been selected. As it is a very complex multi-scale transient, the SCT MATHYS (which is a coupling of the CATHARE2 tool at system scale, TrioMC tool at component scale and TrioCFD tool at local scale) is used. This paper presents the preliminary VVUQ application to the qualification of this tool on this selected transient. In addition, this work underlines some feedback on design and R&D aspects that should be addressed in the future to improve the SCT.
url https://www.epj-n.org/articles/epjn/full_html/2021/01/epjn200008/epjn200008.html
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