Numerical prediction of wall-bounded flows with low-Reynolds k-ε turbulence models

Y. Bentaleb; E. Schall; T. Kousksou

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Numerical prediction of wall-bounded flows with low-Reynolds k-ε turbulence models

机译：低雷诺k-ε湍流模型对壁面流动的数值预测

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In this paper, we present a numerical model for the simulation of turbulent flows. The numerics rely on a three-dimensional upwind compressible solver which applies to tetrahedrisations. The accuracy in boundary layers is increased by a new type of tetrahedrisation. The Reynolds-Averaged Navier-Stokes (RANS) equations are solved by using a mixed finite element-volume method for spatial discretisation. The linear low-Reynolds turbulence models of Goldberg et al., and a nonlinear extension, are implemented with this numerical technique. The computational results of both turbulent channel flow and a backward-facing step flow are compared to experimental data.

机译：在本文中，我们提出了一种用于模拟湍流的数值模型。数值依赖于应用于四面体化的三维迎风可压缩求解器。新型四面体化技术提高了边界层的精度。雷诺平均纳维-斯托克斯（RANS）方程是通过使用混合有限元体积方法进行空间离散化而求解的。用这种数值技术实现了Goldberg等人的线性低雷诺湍流模型和非线性扩展。将湍流通道流和后向阶梯流的计算结果与实验数据进行了比较。

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《Progress in computational fluid dynamics》 |2009年第2期|96-108|共13页
作者
Y. Bentaleb; E. Schall; T. Kousksou;
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作者单位

LaTEP, University of Pau, 1, avenue de l'Universite 64000 Pau, France;

LaTEP-CONCHA, University of Pau, 1, avenue de l'Universite 64000 Pau, France;

LaTEP, University of Pau, 1, avenue de l'Universite 64000 Pau, France;

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linear and nonlinear k; ε models; low-Reynolds-number modelling; mixed finite element-volume method; attached boundary layer; separated flow;

机译：线性和非线性k;ε模型;低雷诺数建模;混合有限元-体积法附着的边界层分流;

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Numerical prediction of wall-bounded flows with low-Reynolds k-ε turbulence models

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