壁温比对钝锥背风流向涡稳定性影响分析

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中文摘要：流向涡失稳是导致三维边界层转捩的重要机制之一，通过全局稳定性分析方法研究了风洞工况下带攻角钝锥背风面流向涡的稳定性特征，并与壁温比较小的工况(对应飞行条件)进行了比较。风洞工况和飞行工况的涡结构特征相似，均具有内、外卷涡。与飞行工况相比，风洞工况的外卷涡更显著，导致了更强的外模态不稳定性。尽管风洞工况内模态更加稳定，但它仍具有与飞行工况类似的声辐射特征。Lighthill声比拟理论计算表明熵源项是主导声源项。在飞行工况下，Mack第二模态最有可能引起转捩，但其在风洞工况中并未被发现，取而代之的是流向涡剪切失稳模态。此外，风洞工况下的模态失稳频率和增长率远小于飞行工况，表明壁面加热能够稳定流向涡。

外文标题：Wall temperature effects on the stability of leeward vortices of a blunt inclined cone

外文摘要：Streamwise vortex instability is one of the most potent mechanisms for the transition of the three-dimensional boundary layers.By using the global stability analysis methods,stability characteristics of the leeward vortex over a blunt cone with an angle of attack under a typical wind tunnel condition are studied and are compared to the case with a smaller wall temperature ratio(corresponding to a flight condition).The vortical structure features inward and outward vortices,similar to that in the flight con-dition.Unlike the flight condition,the outward vortices appear stronger than the inward vortices,resulting in stronger outer-mode instabilities.Although the inner mode is heavily stabilized compared to the flight condition,it can still radiate apparent acoustics.The acoustic sources are computed based on Lighthill's acoustic analogy,showing that the entropy term measuring the deviation from the isentropic relation is dominant.While Mack second mode is shown to most likely trigger the transition in the flight condition,it is absent in the wind tunnel condition,and a shear-layer mode turns out to be the most dangerous instead.Moreover,the instability frequencies and growth rates of the wind tunnel case are much smaller than those of the flight case,indicating that wall heating may stabilize the leeward vortices.

外文关键词：

Instability of streamwise vorticesHypersonic boundary layer flowSpatial BiGlobal methodPSE3D method

作者：

张力耕、万兵兵、董思卫、陈坚强、陈曦

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作者单位：

State Key Laboratory of Aerodynamics,Mianyang 621000,China

关键词：

Instability of streamwise vortices Hypersonic boundary layer flow Spatial BiGlobal method PSE3D method

基金：

National Natural Science Foundation of China

项目编号：

92052301

出版年：

2024

DOI：

10.1007/s10409-023-23563-x

力学学报(英文版)

CSTPCD

影响因子：0.363

ISSN：0567-7718

年,卷(期)：2024.40(7)