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Computation of Turbulent Heat Transfer on the Walls of a 180 Degree Turn Channel With a Low Reynolds Number Reynolds Stress Model

机译：低雷诺数雷诺应力模型的180度转弯通道壁上湍流传热的计算

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摘要

The Low Reynolds number version of the Stress-omega model and the two equation k-omega model of Wilcox were used for the calculation of turbulent heat transfer in a 180 degree turn simulating an internal coolant passage. The Stress-omega model was chosen for its robustness. The turbulent thermal fluxes were calculated by modifying and using the Generalized Gradient Diffusion Hypothesis. The results showed that using this Reynolds Stress model allowed better prediction of heat transfer compared to the k-omega two equation model. This improvement however required a finer grid and commensurately more CPU time.

机译：应力-ω模型的低雷诺数版本和Wilcox的两个方程式k-ω模型用于模拟内部冷却剂通道在180度转弯中的湍流传热计算。选择了应力-欧米茄模型是因为其坚固性。通过修正和使用广义梯度扩散假说来计算湍流热通量。结果表明，与k-ω两个方程模型相比，使用此雷诺应力模型可以更好地预测热传递。但是，此改进需要更精细的网格和相应更多的CPU时间。

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Steinthorsson, E.; Rigby, D. L.; Ameri, A. A.; Gaugler, Raymond;
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年度 2002
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4. Computation of Turbulent Heat Transfer on the Walls of a 180 Degree Turn Channel with a Low Reynolds Number Reynolds Stress Model [C] . D. L. Rigby, A. A. Ameri, E. Steinthorsson ASME (American Society of Mechanical Engineers) Turbo Expo 2002: Heat Transfer Manufacturing Materials and Metallurgy . 2002

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机译：用低雷诺数雷诺应力模型计算180度转弯通道壁上的湍流传热

Computation of Turbulent Heat Transfer on the Walls of a 180 Degree Turn Channel With a Low Reynolds Number Reynolds Stress Model

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