在 OpenFOAM 中实现 RANS 方程的滞后椭圆弯曲模型

OpenFOAM® Journal Pub Date : 2024-07-24 DOI:10.51560/ofj.v4.133

Eleonora Gajetti, Luca Marocco, Gianluca Boccardo, A. Buffo, Laura Savoldi

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引用次数: 0

摘要

湍流建模仍然是计算流体力学的一项重大挑战。要在模型精度和计算效率之间取得平衡，通常需要广泛使用 RANS（雷诺平均纳维-斯托克斯）湍流模型。当前研究的重点是在 OpenFOAM® 中实施 k-ε Lag 椭圆混合湍流模型。该模型是对传统 k-ε 模型的扩展，引入了一个椭圆方程来处理近壁的非均匀行为，并引入了一个传输方程来考虑应力和应变张量之间的滞后。将两个基准案例的结果与包含该模型的商业软件 STAR-CCM+® 得出的结果进行比较后发现，两种代码之间的一致性很好。因此，可以认为该实施方案是经过验证的。

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Implementation of a Lag Elliptic-Blending model for RANS equations in OpenFOAM

Turbulence modeling remains a significant challenge in Computational Fluid Dynamics. Achieving a balance between model accuracy and computational efficiency often leads to the widespread utilization of RANS (Reynolds Averaged Navier Stokes) turbulence models. The current study focuses on implementing the k−ε Lag Elliptic Blending turbulence model within OpenFOAM®. This extension of the conventional k−ε model introduces an elliptic equation to handle non-uniform behavior near walls and a transport equation to account for the lag between stress and strain tensors. Comparison of results from two benchmark cases with those obtained from the commercial software STAR-CCM+®, which also includes the model, reveals good agreement between the two codes. Consequently, the implementation can be considered verified.

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OpenFOAM® Journal

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