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Preliminary Study on Applying Discrete Ordinates Code Supporting Unstructured Tetrahedral Mesh to the 40-Degree Toroidal Segment ITER Model

Jong Woon Kim, Cheol Woo Lee, Young-Ouk Lee, Dong-Won Lee, Seungyon Cho

Fusion Science and Technology / Volume 68 / Number 3 / October 2015 / Pages 652-656

Technical Paper / Proceedings of TOFE-2014 / dx.doi.org/10.13182/FST14-966

First Online Publication:July 30, 2015
Updated:September 30, 2015

The discrete ordinates code under development by KAERI uses an unstructured tetrahedral mesh, and can thus be applied to solve the radiation transport in a complicated geometry. In addition, the geometry modeling process has become much easier because computational tetrahedral meshes are generated based on the CAD file by Gmsh. This program has been enhancing its performance and adding functions for each application.

In previous research, it was applied in a neutronics analysis for the Korea Helium Cooled Ceramic Reflector (HCCR) TBM. The total neutron fluxes were compared with the results from MCNPX and showed good agreement.

In this paper, we applied our program to a simplified ITER model which is a 40-degree toroidal segment. The zone averaged total fluxes were compared with those of MCNPX, and total neutron flux distribution was visualized in a three-dimensional system domain.