用声速控制方法计算非等温可压缩低马赫数气体流动的全显式格式

IF 0.4 Q4 ENGINEERING, MULTIDISCIPLINARY

Journal of Advanced Simulation in Science and Engineering Pub Date : 2019-03-15 DOI:10.15748/JASSE.6.11

D. Toriu, S. Ushijima

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引用次数: 1

摘要

在这项研究中，我们提出了一种新的基于分数阶方法和声速控制方法的非等温可压缩低马赫数气体流动的完全显式方案。由于根据压力波动项的人工系数改进了基于声速的Courant Friedrichs-Lewy（CFL）条件，因此所提出的方法中的时间增量可以设置在与隐式处理动量和能量方程中的压力项的传统半隐式方法相同的阶次上。将其应用于方形空腔中的自然对流，结果表明，通过为压力波动项设置适当的人工系数值，所提出的完全显式方法能够比传统的半隐式方法更快地进行约6～8倍的计算。

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Computation of non-isothermal and compressible low Mach number gas flows by fully explicit scheme using control method for speed of sound

In this study, we propose a new fully explicit scheme for non-isothermal and compressible low Mach number gas flows based on a fractional step method and a control method for the speed of sound. Since the Courant-Friedrichs-Lewy (CFL) condition based on the speed of sound is improved according to an artificial coefficient for pressure fluctuation terms, the time increment in the proposed method can be set on the same order as that of a conventional semi-implicit method which treats pressure terms in momentum and energy equations implicitly. As a result of the application to the natural convection in a square cavity, it is demonstrated that the proposed fully explicit method enables to conduct computations reasonably about 6 ∼ 8 times faster than the conventional semi-implicit method by setting the appropriate value of the artificial coefficient for pressure fluctuation terms.

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Journal of Advanced Simulation in Science and Engineering ENGINEERING, MULTIDISCIPLINARY-

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