湍流通道流：直接数值模拟-数据驱动建模

Fluids Pub Date : 2024-03-03 DOI:10.3390/fluids9030062

Antonios Liakopoulos, Apostolos Palasis

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引用次数: 0

摘要

在 180 ≤Reτ≤ 10,000 的范围内，研究了压力驱动湍流通道流直接数值模拟（DNS）获得的数据。分析了雷诺数对平均速度剖面（MVP）和二阶统计量的影响，以期在重叠区域甚至离壁更远的边界层外部区域找到对数行为。针对所考虑的雷诺数，确定了 MVP 的 von Kármán 常数以及流向和跨度波动方差的 Townsend-Perry 常数。针对平板上的零压力梯度流动提出并验证的 MVP 数据驱动模型，通过适当调整科尔斯的唤醒函数参数 Π 的强度，被用于压力驱动的通道流动。分析模型预测的 MVP 与 DNS 计算的 MVP 以及雷诺切应力剖面之间非常吻合。表皮摩擦系数 Cf 是通过分析计算得出的。分析模型预测值与基于 DNS 计算的 Cf 离散值之间的一致性非常好。

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Turbulent Channel Flow: Direct Numerical Simulation-Data-Driven Modeling

Data obtained using direct numerical simulations (DNS) of pressure-driven turbulent channel flow are studied in the range 180 ≤Reτ≤ 10,000. Reynolds number effects on the mean velocity profile (MVP) and second order statistics are analyzed with a view of finding logarithmic behavior in the overlap region or even further from the wall, well in the boundary layer’s outer region. The values of the von Kármán constant for the MVPs and the Townsend–Perry constants for the streamwise and spanwise fluctuation variances are determined for the Reynolds numbers considered. A data-driven model of the MVP, proposed and validated for zero pressure-gradient flow over a flat plate, is employed for pressure-driven channel flow by appropriately adjusting Coles’ strength of the wake function parameter, Π. There is excellent agreement between the analytic model predictions of MVP and the DNS-computed MVP as well as of the Reynolds shear stress profile. The skin friction coefficient Cf is calculated analytically. The agreement between the analytical model predictions and the DNS-based computed discrete values of Cf is excellent.

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Fluids

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