基于以单元为中心的拉格朗日方案中波传播的方向性效应的混合节点求解器的计算公式

IF 2.5 3区工程技术 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Computers & Fluids Pub Date : 2024-10-10 DOI:10.1016/j.compfluid.2024.106451

Chunyuan Xu, Zhijun Shen, Qinghong Zeng

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引用次数: 0

摘要

本研究构建了一种混合节点求解器，将波传播的方向效应纳入以单元为中心的拉格朗日方案中。首先，通过基于 Rankine-Hugoniot 条件的假设确定波的方向。然后，使用两种不同的近似方法计算速度跃迁和数值通量。相应地，提出了一种混合策略来制定混合节点求解器。结果表明，所开发的节点求解器可以复制两种著名的求解器，并在数值实验中证明了其有效性。最后，提出了一种基于涡度的自适应混合方法。在各种测试中评估了自适应方法的准确性和稳健性。

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Formulation of hybrid nodal solver based on directional effect of wave propagation in a cell-centered Lagrangian scheme

In this work, a hybrid nodal solver is constructed to incorporate the directional effect of wave propagation in a cell-centered Lagrangian scheme. First, the direction of wave is determined via an assumption based on the Rankine–Hugoniot condition. Next, two different approximation methods are used to calculate the velocity jump and numerical fluxes. Correspondingly, a hybridization strategy is proposed to formulate a hybrid nodal solver. It is shown that the developed nodal solver can replicate two well-known ones, and its effectiveness is shown in numerical experiments. Finally, an adaptive hybridization method based on vorticity is proposed. The accuracy and robustness of the adaptive method is assessed in various tests.

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来源期刊

Computers & Fluids 物理-计算机：跨学科应用

CiteScore

5.30

自引率

7.10%

发文量

242

审稿时长

10.8 months

期刊介绍： Computers & Fluids is multidisciplinary. The term ''fluid'' is interpreted in the broadest sense. Hydro- and aerodynamics, high-speed and physical gas dynamics, turbulence and flow stability, multiphase flow, rheology, tribology and fluid-structure interaction are all of interest, provided that computer technique plays a significant role in the associated studies or design methodology.