可压缩流加权紧凑非线性方案的简化加权公式

IF 1.7 4区工程技术 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS International Journal for Numerical Methods in Fluids Pub Date : 2024-05-31 DOI:10.1002/fld.5311

Jinwei Bai, Meiliang Mao, Yankai Ma, Zhen-Guo Yan, Yaobing Min

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引用次数: 0

摘要

摘要加权紧凑非线性方案（WCNS）是模拟可压缩流的高分辨率冲击捕捉方案的一个流行系列，其中非线性插值程序对其性能起着主导作用。在这项工作中，针对非线性插值程序引入了一种简化的加权策略。首先，通过将整点模版明确纳入候选模版集，提出了 WCNS 的等效加权公式。其次，受 WCNS 重组的启发，WCNS-CU6 方案以更直接的方式实现。第三，通过在 WCNS-CU6-Simplified 框架中引入 TENO 选择程序，提出了 TCNS6-Simplified 方案，其分辨率与优秀的 TENO6 方案相当，而计算成本却低得多。与原始方案相比，简化方案的保真度更为出色，至少可与之媲美，但在效率和简便性方面更具优势。我们研究了各种基准测试问题，以展示简化加权策略的性能。

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Simplified weighting formulations of weighted compact nonlinear schemes for compressible flows

Weighted compact nonlinear schemes (WCNSs) are a popular family of high-resolution shock-capturing schemes for simulating compressible flows, of which the nonlinear interpolation procedure is dominant for the performance. In this work, a simplified weighting strategy is introduced for the nonlinear interpolation procedure. Firstly, an equivalent weighting formulation of WCNS is presented by explicitly including the whole-point stencil into the set of candidate stencils. Secondly, motivated by the reorganization of WCNS, the WCNS-CU6 scheme is achieved in a more straightforward way. Thirdly, by introducing a TENO selection procedure in the framework of WCNS-CU6-Simplified, a TCNS6-Simplified scheme is proposed, the resolution of which is comparable with the excellent TENO6 scheme, while the computational cost is much lower. The simplified schemes exhibit more outstanding, at least comparable, fidelity than the original schemes, however, with superior characteristics in terms of efficiency and simplicity. A variety of benchmark test problems are studied to demonstrate the behaviour of the simplified weighting strategy.

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来源期刊

International Journal for Numerical Methods in Fluids 物理-计算机：跨学科应用

CiteScore

3.70

自引率

5.60%

发文量

111

审稿时长

8 months

期刊介绍： The International Journal for Numerical Methods in Fluids publishes refereed papers describing significant developments in computational methods that are applicable to scientific and engineering problems in fluid mechanics, fluid dynamics, micro and bio fluidics, and fluid-structure interaction. Numerical methods for solving ancillary equations, such as transport and advection and diffusion, are also relevant. The Editors encourage contributions in the areas of multi-physics, multi-disciplinary and multi-scale problems involving fluid subsystems, verification and validation, uncertainty quantification, and model reduction. Numerical examples that illustrate the described methods or their accuracy are in general expected. Discussions of papers already in print are also considered. However, papers dealing strictly with applications of existing methods or dealing with areas of research that are not deemed to be cutting edge by the Editors will not be considered for review. The journal publishes full-length papers, which should normally be less than 25 journal pages in length. Two-part papers are discouraged unless considered necessary by the Editors.

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