Coupling the algebraic model of bypass transition with EARSM model of turbulence

Holman Jiri; Furst Jiri

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Coupling the algebraic model of bypass transition with EARSM model of turbulence

机译：耦合旁路转换的代数模型与静电湍流模型

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摘要

The article deals with numerical solution of the laminar-turbulent transition. A mathematical model consists of the Reynolds-averaged Navier-Stokes equations, which are completed by the explicit algebraic Reynolds stress model (EARSM) of turbulence. The algebraic model of laminar-turbulent transition, which is integrated to the EARSM, is based on the work of Kubacki and Dick (Int. J. Heat Fluid Flow 58, 68-83, 2016) where the turbulent kinetic energy is split in to the small-scale and large-scale parts. The algebraic model is simple and does not require geometry data such as wall-normal distance and all formulas are calculated using local variables. A numerical solution is obtained by the finite volume method based on the HLLC scheme and explicit Runge-Kutta method.

机译：该物品涉及层流湍流过渡的数值解。数学模型由雷诺平均的Navier-Stokes方程组成，该方程由明确的代数雷诺应力模型（Earsm）完成的湍流。层压湍流过渡的代数模型，它集成在耳塞上，基于Kubacki和Dick（int。J.热流体流58,68-83,2016），其中湍流动能分裂到小规模和大规模的部件。代数模型简单，不需要诸如壁正常距离的几何数据，并且使用局部变量计算所有公式。基于HLLC方案的有限体积法和显式跳动-Kutta方法获得数值解决方案。

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来源
《Advances in computational mathematics》 |2019年第4期|共16页
作者
Holman Jiri; Furst Jiri;
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作者单位

Czech Tech Univ Dept Tech Math Fac Mech Engn Karlovo Namesti 13 Prague 12135 2 Czech Republic;

Czech Tech Univ Dept Tech Math Fac Mech Engn Karlovo Namesti 13 Prague 12135 2 Czech Republic;

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原文格式 PDF
正文语种 eng
中图分类应用数学;
关键词
Laminar-turbulent transition; Algebraic model of transition; EARSM; Finite volume method;

机译：层压湍流过渡;转型的代数模型;耳朵;有限体积法;

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专利

1. Coupling the algebraic model of bypass transition with EARSM model of turbulence [J] . Holman Jiri, Furst Jiri Advances in computational mathematics . 2019,第4期

机译：耦合旁路转换的代数模型与静电湍流模型
2. On Application of EARSM Turbulence Model for Simulation of Flow Field behind Rack Station [J] . V. Běták, P. Svá?ek, J. Novotny, EPJ Web of Conferences . 2013,第12期

机译：EARSM湍流模型在机架站后流场模拟中的应用
3. On Application of EARSM Turbulence Model for Simulation of Flow Field behind Rack Station [J] . V. Běták, P. Svá?ek, J. Novotny, EPJ Web of Conferences . 2013,第2期

机译：EARSM湍流模型在机架站后流场模拟中的应用
4. VERIFICATION OF TURBULENCE MODELS FOR BYPASS TRANSITION [C] . Koichi Kojima, Makoto Yamamoto ASME/JSME Joint Fluids Engineering Conference . 2000

机译：绕过转换的湍流模型的验证
5. Residual-based multiscale turbulence modeling: Finite volume simulations of bypass transition. [D] . Calo, Victor Manuel. 2005

机译：基于残差的多尺度湍流建模：旁路过渡的有限体积模拟。
6. Modeling how shark and dolphin skin patterns control transitional wall-turbulence vorticity patterns using spatiotemporal phase reset mechanisms [O] . Promode R. Bandyopadhyay, Aren M. Hellum -1

机译：使用时空相位重置机制模拟鲨鱼和海豚的皮肤模式如何控制过渡壁湍流涡度模式
7. On Application of EARSM Turbulence Model for Simulation of Flow Field behind Rack Station [O] . V. Běták, P. Sváček, J. Novotný, 2013

机译：earsm湍流模型在机架站后流场仿真中的应用
8. Modeling of near wall turbulence and modeling of bypass transition [R] . Yang, Z. 1992

机译：近壁湍流模型及旁路过渡模型

Coupling the algebraic model of bypass transition with EARSM model of turbulence

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