Application of Extended Eddy-viscosity and Elliptic-Relaxation Approaches to Turbulent Convective Flow in a Partially Divided Cavity

Q2 Mathematics CFD Letters Pub Date : 2024-06-02 DOI:10.37934/cfdl.16.10.111

Gunarjo Suryanto Budi, Sasa Kenjeres

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Abstract

The paper reports on the numerical turbulence model in predicting mass, momentum and heat transfer in a partially divided cavity heated from the side using buoyancy-extended eddy-viscosity and elliptic relaxation approach with the algebraic expressions for the Reynold stress tensor and turbulent heat flux vector. The CDS (central differencing scheme) and LUDS (linear upwind differencing scheme) were used as the discretization method and the governing equations were solved using the finite volume method and Navier-Stokes solver. Validation of the model has been carried out by experimental data of convective flow in the cavity as well as by numerical data DNS (direct numerical simulation). The model agrees very well with the experiment and DNS and it is also able to demonstrate the performance which is comparable to that of the previous advanced second-moment closure model (SMC) in the literature. The results show that the model is suitable for use in simulations of the turbulent convective flow in a cavity with partition and it has the potential to be applied to more complex cavities and a wide range of turbulence levels.

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将扩展涡粘法和椭圆后退法应用于部分分割空腔中的湍流对流

本文报告了利用浮力-扩展涡粘法和椭圆松弛法以及雷诺应力张量和湍流热通量矢量的代数表达式，预测从侧面加热的部分分割空腔中的质量、动量和热量传递的数值湍流模型。采用 CDS（中央差分方案）和 LUDS（线性上风差分方案）作为离散化方法，并使用有限体积法和纳维-斯托克斯求解器求解支配方程。模型通过空腔对流实验数据和 DNS（直接数值模拟）数值数据进行了验证。该模型与实验和 DNS 非常吻合，其性能也可与先前文献中的先进秒矩闭合模型（SMC）相媲美。结果表明，该模型适用于模拟带隔板空腔中的湍流对流，并有潜力应用于更复杂的空腔和更广泛的湍流水平。

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来源期刊

CFD Letters Chemical Engineering-Fluid Flow and Transfer Processes

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3.40

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