可压缩流动模拟的自适应笛卡尔网格并行方法

IF 2.9 3区 工程技术 Q2 ENGINEERING, MECHANICAL
Qi, Xinyu, Yang, Yuchen, Tian, Linlin, Wang, Zhenming, Zhao, Ning
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引用次数: 1

摘要

将笛卡尔网格与自适应网格细化(AMR)技术相结合是处理复杂几何和求解复杂流动问题的有效途径。虽然已经开发了一些高效的基于笛卡尔的AMR库来并行处理网格的动态变化,但仍然不能满足模拟物体周围流动的独特要求。在本文中,我们提出了一种高效的笛卡尔网格生成方法和一种墙边界的信息传输方法,以并行化鬼细胞法的实现。同时,改进了处理多值点的多值鬼cell方法,使之适应并行框架。将上述方法与开源库p4est相结合,实现了可压缩流的自动、高效模拟。该方法的总体性能通过广泛的无粘/粘性流动情况进行了测试。结果表明,与相关参考数据相比,该数值方法具有较好的求解激波和旋涡、多体流和非定常流等多类型流动的能力和并行可扩展性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A parallel methodology of adaptive Cartesian grid for compressible flow simulations
The combination of Cartesian grid and the adaptive mesh refinement (AMR) technology is an effective way to handle complex geometry and solve complex flow problems. Some high-efficiency Cartesian-based AMR libraries have been developed to handle dynamic changes of the grid in parallel but still can not meet the unique requirements of simulating flow around objects. In this paper, we propose an efficient Cartesian grid generation method and an information transmission approach for the wall boundary to parallelize the implementation of ghost-cell method (GCM). Also, the multi-valued ghost-cell method to handle multi-value points is improved to adapt to the parallel framework. Combining the mentioned methodologies with the open-source library p4est, an automatic and efficient simulation of compressible flow is achieved. The overall performance of the methodology is tested through a wide range of inviscid/viscous flow cases. The results indicate that the capability and parallel scalability of the present numerical methodology for solving multiple types of flows, involving shock and vortices, multi-body flow and unsteady flows are agreeable as compared with related reference data.
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来源期刊
CiteScore
4.50
自引率
4.30%
发文量
35
审稿时长
11 weeks
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