Methods and performance of a three-dimensional whole-core transport code DeCART

Han Gyu Joo, Jin Young Cho, Kang Seog Kim, Chung Chan Lee, Sung Quun Zee

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

233 Scopus citations

Abstract

DeCART is a three-dimensional whole-core transport code capable of performing direct core calculations at power generating conditions without involving a priori homogenized few-group constant generation. In this paper, the methods of DeCART, which are characterized by the planar method of characteristics (MOC) solutions, the cell based coarse mesh finite difference (CMFD) formulation, the subgroup method for resonance treatment and subpin level thermal feedback, are presented as a whole. The performance of the code in the aspect of solution accuracy and computing speed is then examined using the applications to the C5G7MOX benchmark and its modified rodded variation problems and also to a three-dimensional core case involving thermal feedback. The examination indicates that accurate direct whole core calculations with subpin level thermal feedback for practical PWR problems are quite possible on affordable LINUX clusters within a time span of a few hours.

Original languageEnglish
Title of host publicationProceedings of the PHYSOR 2004
Subtitle of host publicationThe Physics of Fuel Cycles and Advanced Nuclear Systems - Global Developments
Pages21-34
Number of pages14
StatePublished - 2004
Externally publishedYes
EventPHYSOR 2004: The Physics of Fuel Cycles and Advanced Nuclear Systems - Global Developments - Chicago, IL, United States
Duration: Apr 25 2004Apr 29 2004

Publication series

NameProceedings of the PHYSOR 2004: The Physics of Fuel Cycles and Advanced Nuclear Systems - Global Developments

Conference

ConferencePHYSOR 2004: The Physics of Fuel Cycles and Advanced Nuclear Systems - Global Developments
Country/TerritoryUnited States
CityChicago, IL
Period04/25/0404/29/04

Keywords

  • 2D-1D Coupling
  • CMFD
  • MOC
  • Subgroup Method
  • Subpin Level Thermal Feedback
  • Whole-Core Transport

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