Whole Core Transport Calculation Employing Hexagonal Modular Ray Tracing and CMFD Formulation
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概要
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A whole core transport module for hexagonal cores is developed and implemented in the DeCART code. The module consists of a whole core ray tracing kernel for solving the two-dimensional (2-D) method of characteristics (MOC) equation and a coarse-mesh finite difference (CMFD) kernel to accelerate the MOC transport iteration. Whole core ray tracing is realized by incorporating a hexagonal-assembly-based modular ray tracing scheme. The complete path linking constraint for the modular ray is achieved by adjusting the ray angle and the ray spacing in the range of [0, 30°], and the complete reflection constraint at the problem boundary is satisfied by defining the corresponding reflection angles at the reflection surfaces. The hexagonal CMFD kernel employs unstructured nodes that can treat the irregular-shaped gap cells as well as the regular hexagonal cells. Some features such as cell ray approximation and modified cycle ray scheme are employed to reduce the memory requirements for the segment information and the boundary angular fluxes, respectively. The solution accuracy and execution performance of the hexagonal module are examined for the C5G7 hexagonal variation problems that are established by modifying the original C5G7MOX 3-D extension benchmark. The CMFD kernel shows a significant speedup of 60 in the 2-D core problem. The cell ray approximation does not violate the original solution accuracy when using the default ray spacing of the DeCART code. The modified cycle ray scheme shows its superiority over the simple core ray sweeping scheme in terms of the memory requirement and the original cycle ray scheme in terms of the computing time. Compared with the Monte Carlo solutions, the DeCART solution agrees to within 40 pcm for the eigenvalue and 2% for the pin power distribution.
- 社団法人 日本原子力学会の論文
- 2008-08-01
著者
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Lee Chung-chan
Korea Atomic Energy Research Institute
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Kim Kang-seog
Korea Atomic Energy Research Institute
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Shim Hyung-jin
Korea Atomic Energy Research Institute
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Cho Jin-young
Korea Atomic Energy Research Institute
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SONG Jae-Seung
Korea Atomic Energy Research Institute
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JOO Han-Gyu
Department of Nuclear Engineering, Seoul National University
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Joo Han-gyu
Department Of Nuclear Engineering Seoul National University
関連論文
- Whole Core Transport Calculation Employing Hexagonal Modular Ray Tracing and CMFD Formulation
- Axial SP_N and Radial MOC Coupled Whole Core Transport Calculation