具有动态网格优化的并行负载平衡水库模拟器

P. Salinas, C. Jacquemyn, A. Kampitsis, L. Via-Estrem, C. Heaney, C. Pain, M. Jackson
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引用次数: 2

摘要

动态网格优化(dynamic mesh optimization, DMO)在多孔介质中多相流动中的应用显示出通过在必要的位置和时间设置分辨率来降低计算成本的良好潜力。尽管如此,需要进一步的工作来证明它在非常大的领域中的可用性,在这些领域中,分布式内存的并行计算(即使用MPI库)可能是必要的。本文介绍了结合DMO并行化多相多孔介质流动模拟器的方法,并对其性能进行了研究。由于典型多孔介质模拟的特殊性和复杂性,由于其高纵横比,我们包含了DMO并行模拟的故障保险,以增强用于并行DMO在其他领域(Navier- Stokes流)的方法的鲁棒性和稳定性。结果表明,DMO在多相多孔介质流中的并行计算性能良好,具有良好的标度特性。
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A Parallel Load-Balancing Reservoir Simulator with Dynamic Mesh Optimisation
The use of dynamic mesh optimization (DMO) for multiphase flow in porous have been proposed recently showing a very good potential to reduce the computational cost by placing the resolution where and when necessary. Nonetheless, further work needs to be done to prove its usability in very large domains where parallel computing with distributed memory, i.e. using MPI libraries, may be necessary. Here, we describe the methodology used to parallelize a multiphase porous media flow simulator in combination with DMO as well as study of its performance. Due to the peculiarities and complexities of the typical porous media simulations due to its high aspect ratios, we have included a fail-safe for parallel simulations with DMO that enhance the robustness and stability of the methods used to parallelize DMO in other fields (Navier- Stokes flows). The results show that DMO for parallel computing in multiphase porous media flows can perform very well, showing good scaling behaviour.
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