中子输运
趋同(经济学)
计算科学
接口(物质)
计算机科学
联轴节(管道)
编码(集合论)
软件
明星(博弈论)
计算流体力学
算法
并行计算
模拟
数学优化
分布式计算
物理
数学
机械
集合(抽象数据类型)
操作系统
工程类
中子
机械工程
核物理学
程序设计语言
天体物理学
气泡
最大气泡压力法
经济
经济增长
作者
Tanju Sofu,Justin Thomas,Zhiyong Zhong,Thomas Downar
摘要
The CFD code STAR-CD was coupled to the integral transport code DeCART in order to provide high-fidelity, full physics reactor simulations. An interface program was developed to perform the tasks of mapping the STAR-CD mesh to the DeCART mesh, managing all communication between STAR-CD and DeCART, and monitoring the convergence of the coupled calculations. The interface software was validated by comparing coupled calculation results with those obtained using an independently developed interface program. An investigation into the convergence characteristics of coupled calculations was performed using several test models on a multiprocessor LINUX cluster. The results indicate that the optimal convergence of the coupled field calculation depends on several factors, to include the tolerance of the STAR-CD solution and the number of DeCART transport sweeps performed before exchanging data between codes. Results for a 3D, multi-assembly PWR problem on 12 PEs of the LINUX cluster indicate the best performance is achieved when the STAR-CD tolerance and number of DeCART transport sweeps are chosen such that the two fields converge at approximately the same rate.
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