利用高阶精确冲击捕捉方案收敛至高速稳定状态

Fluids Pub Date : 2024-06-01 DOI:10.3390/fluids9060133

Juan C. Assis, Ricardo D. Santos, Mateus S. Schuabb, C. Falcão, R. B. Freitas, L. D. B. Alves

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引用次数: 0

摘要

为高速流动中的稳定状态创建时间行进的非稳态控制方程并非易事。使用大多数低阶和高阶空间离散化方案都无法实现时间上的残差收敛。最近，人们专门为稳态模拟设计了高阶、加权、本质上非振荡的方案。这些方案已被证明能够在典型坐标下模拟欧拉方程时实现机器精度残差。在本研究中，我们回顾了这些方案，并证明它们在广义坐标下模拟纳维-斯托克斯方程时也能获得机器精度残差。我们考虑了三种完美流体的超音速流动，即圆柱体上游的流动、钝楔上的流动和压缩斜面上的流动。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Convergence towards High-Speed Steady States Using High-Order Accurate Shock-Capturing Schemes

Creating time-marching unsteady governing equations for a steady state in high-speed flows is not a trivial task. Residue convergence in time cannot be achieved when using most low- and high-order spatial discretization schemes. Recently, high-order, weighted, essentially non-oscillatory schemes have been specially designed for steady-state simulations. They have been shown to be capable of achieving machine precision residues when simulating the Euler equations under canonical coordinates. In the present work, we review these schemes and show that they can also achieve machine residues when simulating the Navier–Stokes equations under generalized coordinates. This is carried out by considering three supersonic flows of perfect fluids, namely the flow upstream a cylinder, the flow over a blunt wedge, and the flow over a compression ramp.

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Fluids

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