Rigorous-two-Steps scheme of TRIPOLI-4® Monte Carlo code validation for shutdown dose rate calculation

Rigorous-two-Steps scheme of TRIPOLI-4® Monte Carlo code validation for shutdown dose rate calculation

After fission or fusion reactor shutdown the activated structure emits decay photons. For maintenance operations the radiation dose map must be established in the reactor building. Several calculation schemes have been developed to calculate the shutdown dose rate. These schemes are widely developed...

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Main Authors: Jaboulay Jean-Charles, Brun Emeric, Hugot François-Xavier, Huynh Tan-Dat, Malouch Fadhel, Mancusi Davide, Tsilanizara Aime
Format: Article
Language:English
Published: EDP Sciences 2017-01-01
Series:EPJ Web of Conferences
Online Access:https://doi.org/10.1051/epjconf/201715302008
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spelling doaj-edfa27ebd3c54058859750152ee675992021-08-02T03:11:22ZengEDP SciencesEPJ Web of Conferences2100-014X2017-01-011530200810.1051/epjconf/201715302008epjconf_icrs2017_02008Rigorous-two-Steps scheme of TRIPOLI-4® Monte Carlo code validation for shutdown dose rate calculationJaboulay Jean-Charles0Brun Emeric1Hugot François-Xavier2Huynh Tan-Dat3Malouch Fadhel4Mancusi Davide5Tsilanizara Aime6CEA-Saclay, DEN, DM2S, SERMACEA-Saclay, DEN, DM2S, SERMACEA-Saclay, DEN, DM2S, SERMACEA-Saclay, DEN, DM2S, SERMACEA-Saclay, DEN, DM2S, SERMACEA-Saclay, DEN, DM2S, SERMACEA-Saclay, DEN, DM2S, SERMAAfter fission or fusion reactor shutdown the activated structure emits decay photons. For maintenance operations the radiation dose map must be established in the reactor building. Several calculation schemes have been developed to calculate the shutdown dose rate. These schemes are widely developed in fusion application and more precisely for the ITER tokamak. This paper presents the rigorous-two-steps scheme implemented at CEA. It is based on the TRIPOLI-4® Monte Carlo code and the inventory code MENDEL. The ITER shutdown dose rate benchmark has been carried out, results are in a good agreement with the other participant.https://doi.org/10.1051/epjconf/201715302008
collection DOAJ
language English
format Article
sources DOAJ
author Jaboulay Jean-Charles
Brun Emeric
Hugot François-Xavier
Huynh Tan-Dat
Malouch Fadhel
Mancusi Davide
Tsilanizara Aime
spellingShingle Jaboulay Jean-Charles
Brun Emeric
Hugot François-Xavier
Huynh Tan-Dat
Malouch Fadhel
Mancusi Davide
Tsilanizara Aime
Rigorous-two-Steps scheme of TRIPOLI-4® Monte Carlo code validation for shutdown dose rate calculation
EPJ Web of Conferences
author_facet Jaboulay Jean-Charles
Brun Emeric
Hugot François-Xavier
Huynh Tan-Dat
Malouch Fadhel
Mancusi Davide
Tsilanizara Aime
author_sort Jaboulay Jean-Charles
title Rigorous-two-Steps scheme of TRIPOLI-4® Monte Carlo code validation for shutdown dose rate calculation
title_short Rigorous-two-Steps scheme of TRIPOLI-4® Monte Carlo code validation for shutdown dose rate calculation
title_full Rigorous-two-Steps scheme of TRIPOLI-4® Monte Carlo code validation for shutdown dose rate calculation
title_fullStr Rigorous-two-Steps scheme of TRIPOLI-4® Monte Carlo code validation for shutdown dose rate calculation
title_full_unstemmed Rigorous-two-Steps scheme of TRIPOLI-4® Monte Carlo code validation for shutdown dose rate calculation
title_sort rigorous-two-steps scheme of tripoli-4® monte carlo code validation for shutdown dose rate calculation
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2017-01-01
description After fission or fusion reactor shutdown the activated structure emits decay photons. For maintenance operations the radiation dose map must be established in the reactor building. Several calculation schemes have been developed to calculate the shutdown dose rate. These schemes are widely developed in fusion application and more precisely for the ITER tokamak. This paper presents the rigorous-two-steps scheme implemented at CEA. It is based on the TRIPOLI-4® Monte Carlo code and the inventory code MENDEL. The ITER shutdown dose rate benchmark has been carried out, results are in a good agreement with the other participant.
url https://doi.org/10.1051/epjconf/201715302008
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