Variation of vortical structures across shock-wave/turbulent boundary-layer interaction region in a compression ramp flow

Physics of Fluids Pub Date : 2024-05-01 DOI:10.1063/5.0202899

Zhen-xun Dong, Chong-gen Pan, Fu-lin Tong, Xianxu Yuan

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Abstract

This paper describes direct numerical simulations of a shock-wave/turbulent boundary-layer interaction (STBLI) process in a compression-ramp flow with a ramp angle of 24° and a free-stream Mach number of Ma∞=2.9. Spectral analysis, two-point cross correlation, convection velocity statistics, and individual vortex identification are used to elucidate the streamwise variation of multiscale turbulent structures in the STBLI process. Typical Lagrangian coherent structures in the turbulent boundary layer before the STBLI region are characterized as hairpin-like vortical structures, with heads that rise together with the separated mean flow in the STBLI region. In the downstream region, the reattached turbulent boundary layer has a two-layer structure. The outer layer is characterized as an intensification of large-scale velocity structures, which is attributed to the shock-wave-induced compression effect on vortical structures. A viscous-dominated layer develops independently in the vicinity of the wall, leading to a gradual restoration of the wall-shear effect that accumulates the inner-layer dynamics of small-to-moderate-scale turbulent motions.

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压缩斜坡流中冲击波/湍流边界层相互作用区域的涡旋结构变化

本文描述了在斜坡角为 24°、自由流马赫数为 Ma∞=2.9 的压缩斜坡流中冲击波/湍流边界层相互作用（STBLI）过程的直接数值模拟。利用频谱分析、两点交叉相关、对流速度统计和单个涡旋识别来阐明 STBLI 过程中多尺度湍流结构的流向变化。STBLI 区域前湍流边界层中典型的拉格朗日相干结构被描述为发夹状涡旋结构，其头部与 STBLI 区域中分离的平均流一起上升。在下游区域，重新附着的湍流边界层具有两层结构。外层的特征是大尺度速度结构的加强，这归因于冲击波对涡旋结构的压缩效应。在壁面附近独立形成了一个粘性主导层，导致壁面剪切效应逐渐恢复，从而积累了小到中等尺度湍流运动的内层动态。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Physics of Fluids

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