Receptivity of boundary layers: asymptotic theory and experiment

V. Kozlov, O. Ryzhov
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引用次数: 41

Abstract

The sources of disturbance (vibrators, small jets, vortices, sound waves) in a boundary layer are considered, emphasizing their ability to provoke the onset of eigenoscillations with exponentially growing amplitude. Harmonic sources give rise to the Tollmien–Schlichting waves, whereas impulsive sources excite wave packets. General requirements are stated for the temporal and spatial characteristics of the signals emitted by the devices causing disturbance, as well as for obstacles met by signals when propagating. To scale the frequencies and wavenumbers in terms of the Reynolds number taking on indefinitely large values, the asymptotic theory of an interacting boundary layer with the triple-deck structure is used. The conclusions from the asymptotic analysis are in line with the results of measurements in wind tunnels when the Reynolds numbers were moderate.
边界层的可接受性:渐近理论与实验
考虑了边界层中的干扰源(振动子、小射流、涡旋、声波),强调了它们引起振幅呈指数增长的本征振荡的能力。谐波源产生托尔曼-施利希廷波,而脉冲源激发波包。对引起干扰的设备发出的信号的时间和空间特性以及信号在传播时遇到的障碍物提出了一般要求。为了根据雷诺数取无限大值来缩放频率和波数,使用了具有三层结构的相互作用边界层的渐近理论。渐近分析的结论与中等雷诺数时的风洞测量结果一致。
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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