Generating Unstructured Nuclear Reactor Core Meshes in Parallel

Recent advances in supercomputers and parallel solver techniques have enabled users to run large simulations problems using millions of processors. Techniques for multiphysics nuclear reactor core simulations are under active development in several countries. Most of these techniques require large u...

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Bibliographic Details
Published in:Procedia engineering 2014-01, Vol.82 (C), p.351-363
Main Authors: Jain, Rajeev, Tautges, Timothy J.
Format: Article
Language:English
Subjects:
AssyGen
CoreGen
GENERAL STUDIES OF NUCLEAR REACTORS
MATHEMATICS AND COMPUTING
MeshKit
nuclear reactor core mesh
parallel mesh generation
RGG
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Summary:Recent advances in supercomputers and parallel solver techniques have enabled users to run large simulations problems using millions of processors. Techniques for multiphysics nuclear reactor core simulations are under active development in several countries. Most of these techniques require large unstructured meshes that can be hard to generate in a standalone desktop computers because of high memory requirements, limited processing power, and other complexities. We have previously reported on a hierarchical lattice-based approach for generating reactor core meshes. Here, we describe efforts to exploit coarse-grained parallelism during reactor assembly and reactor core mesh generation processes. We highlight several reactor core examples including a very high temperature reactor, a full-core model of the Korean MONJU reactor, a ¼ pressurized water reactor core, the fast reactor Experimental Breeder Reactor-II core with a XX09 assembly, and an advanced breeder test reactor core. The times required to generate large mesh models, along with speedups obtained from running these problems in parallel, are reported. A graphical user interface to the tools described here has also been developed.
ISSN:1877-7058
1877-7058
DOI:10.1016/j.proeng.2014.10.396