Estimation of material degradation of VVER-1000 baffle

Estimation of material degradation of VVER-1000 baffle

The planned lifetime of the first commercial VVER-1000 units were designed for 30 to 35 years. Most of the early VVER plants are now reaching and/or passing the 35-year mark. Service life extension for another 10 to 30 years is now under investigation. Life extension requires the evaluation of press...

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Main Authors: Harutyunyan Davit, Košál Michal, Vandlík Stanislav, Hojná Anna, Schulc Martin, Flibor Stanislav
Format: Article
Language:English
Published: EDP Sciences 2017-01-01
Series:EPJ Web of Conferences
Online Access:https://doi.org/10.1051/epjconf/201715307019
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spelling doaj-4779f52ea47e4f0ca9406ce0434e05302021-08-02T05:56:19ZengEDP SciencesEPJ Web of Conferences2100-014X2017-01-011530701910.1051/epjconf/201715307019epjconf_icrs2017_07019Estimation of material degradation of VVER-1000 baffleHarutyunyan DavitKošál Michal0Vandlík Stanislav1Hojná Anna2Schulc Martin3Flibor Stanislav4Research Center Rez Ltd.Research Center Rez Ltd.Research Center Rez Ltd.Research Center Rez Ltd.Research Center Rez Ltd.The planned lifetime of the first commercial VVER-1000 units were designed for 30 to 35 years. Most of the early VVER plants are now reaching and/or passing the 35-year mark. Service life extension for another 10 to 30 years is now under investigation. Life extension requires the evaluation of pressure vessel internals degradation under long-term irradiation. One of the possible limiting factors for the service life of VVERs is a void swelling of the Russian type titanium stabilized stainless 08Ch18N10T steel used to construct the baffle surrounding the core. This article aims to show first steps towards deeper analysis of the baffle degradation process and to demonstrate the possibilities of precise calculation and measurements on the VVER-1000 mock-up in LR-0 reactor.https://doi.org/10.1051/epjconf/201715307019
collection DOAJ
language English
format Article
sources DOAJ
author Harutyunyan Davit
Košál Michal
Vandlík Stanislav
Hojná Anna
Schulc Martin
Flibor Stanislav
spellingShingle Harutyunyan Davit
Košál Michal
Vandlík Stanislav
Hojná Anna
Schulc Martin
Flibor Stanislav
Estimation of material degradation of VVER-1000 baffle
EPJ Web of Conferences
author_facet Harutyunyan Davit
Košál Michal
Vandlík Stanislav
Hojná Anna
Schulc Martin
Flibor Stanislav
author_sort Harutyunyan Davit
title Estimation of material degradation of VVER-1000 baffle
title_short Estimation of material degradation of VVER-1000 baffle
title_full Estimation of material degradation of VVER-1000 baffle
title_fullStr Estimation of material degradation of VVER-1000 baffle
title_full_unstemmed Estimation of material degradation of VVER-1000 baffle
title_sort estimation of material degradation of vver-1000 baffle
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2017-01-01
description The planned lifetime of the first commercial VVER-1000 units were designed for 30 to 35 years. Most of the early VVER plants are now reaching and/or passing the 35-year mark. Service life extension for another 10 to 30 years is now under investigation. Life extension requires the evaluation of pressure vessel internals degradation under long-term irradiation. One of the possible limiting factors for the service life of VVERs is a void swelling of the Russian type titanium stabilized stainless 08Ch18N10T steel used to construct the baffle surrounding the core. This article aims to show first steps towards deeper analysis of the baffle degradation process and to demonstrate the possibilities of precise calculation and measurements on the VVER-1000 mock-up in LR-0 reactor.
url https://doi.org/10.1051/epjconf/201715307019
work_keys_str_mv AT harutyunyandavit estimationofmaterialdegradationofvver1000baffle
AT kosalmichal estimationofmaterialdegradationofvver1000baffle
AT vandlikstanislav estimationofmaterialdegradationofvver1000baffle
AT hojnaanna estimationofmaterialdegradationofvver1000baffle
AT schulcmartin estimationofmaterialdegradationofvver1000baffle
AT fliborstanislav estimationofmaterialdegradationofvver1000baffle
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