The simplified P3 approach on a trigonal geometry of the nodal reactor code DYN3D

S. Duerigen; E. Fridman

doi:10.3139/124.110247

The simplified P3 approach on a trigonal geometry of the nodal reactor code DYN3D

S. Duerigen
, E. Fridman

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

DYN3D is a three-dimensional nodal code for steady-state and transient analyses of Light Water Reactors applicable for square and hexagonal fuel assembly geometries. Several versions of the DYN3D code are available including a multigroup diffusion and a simplified P3 (SP3) neutron transport option. The multi-group SP3 method based on a trigonal geometry was developed recently. This method is applicable to the analysis of reactor cores with hexagonal fuel assemblies and allows flexible mesh refinement. In this paper, the theoretical background for the SP3 method is briefly described. The consistency of the implementation of the trigonal SP3 methodology in DYN3D is demonstrated by means of a simplified VVER-440 core test example. The corresponding few-group homogenized cross sections and reference solutions were produced by the Monte Carlo code Serpent. The DYN3D results are in good agreement with the reference solutions.

Original language	English
Pages (from-to)	226-229
Number of pages	4
Journal	Kerntechnik
Volume	77
Issue number	4
DOIs	https://doi.org/10.3139/124.110247
State	Published - 1 Jan 2012
Externally published	Yes

ASJC Scopus subject areas

Radiation
Nuclear and High Energy Physics
Nuclear Energy and Engineering
General Materials Science
Safety, Risk, Reliability and Quality

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AB - DYN3D is a three-dimensional nodal code for steady-state and transient analyses of Light Water Reactors applicable for square and hexagonal fuel assembly geometries. Several versions of the DYN3D code are available including a multigroup diffusion and a simplified P3 (SP3) neutron transport option. The multi-group SP3 method based on a trigonal geometry was developed recently. This method is applicable to the analysis of reactor cores with hexagonal fuel assemblies and allows flexible mesh refinement. In this paper, the theoretical background for the SP3 method is briefly described. The consistency of the implementation of the trigonal SP3 methodology in DYN3D is demonstrated by means of a simplified VVER-440 core test example. The corresponding few-group homogenized cross sections and reference solutions were produced by the Monte Carlo code Serpent. The DYN3D results are in good agreement with the reference solutions.

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The simplified P3 approach on a trigonal geometry of the nodal reactor code DYN3D

Abstract

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