Ex-vessel neutron dosimetry analysis for westinghouse 4-loop XL pressurized water reactor plant using 3D parallel discrete ordinates code RAPTOR-M3G

J. Chen, F. A. Alpan, G. A. Fischer, A. H. Fero

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

2 Scopus citations

Abstract

Traditional two-dimensional (2D)/one-dimensional (1D) SYNTHESIS methodology has been widely used to calculate fast neutron (>1.0 MeV) fluence exposure to reactor pressure vessel in the beltline region. However, it is expected that this methodology cannot provide accurate fast neutron fluence calculation at elevations far above or below the active core region. A three-dimensional (3D) parallel discrete ordinates calculation for ex-vessel neutron dosimetry on a Westinghouse 4-Loop XL Pressurized Water Reactor has been done. It shows good agreement between the calculated results and measured results. Furthermore, the results show very different fast neutron flux values at some of the former plate locations and elevations above and below an active core than those calculated by a 2D/1D SYNTHESIS method. This indicates that for certain irregular reactor internal structures, where the fast neutron flux has a very strong local effect, it is required to use a 3D transport method to calculate accurate fast neutron exposure.

Original languageEnglish
Title of host publicationReactor Dosimetry
Subtitle of host publication14th International Symposium
PublisherASTM International
Pages531-547
Number of pages17
ISBN (Print)9780803175365
StatePublished - 2012
Externally publishedYes
Event14th International Symposium on Reactor Dosimetry - Bretton Woods, NH, United States
Duration: May 22 2011May 27 2011

Publication series

NameASTM Special Technical Publication
Volume1550 STP
ISSN (Print)0066-0558

Conference

Conference14th International Symposium on Reactor Dosimetry
Country/TerritoryUnited States
CityBretton Woods, NH
Period05/22/1105/27/11

Keywords

  • 3D parallel discrete ordinates
  • Ex-vessel neutron dosimetry
  • Fast neutron exposure
  • Fast neutron fluence
  • Pressurized water reactor

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