Influence of a Backward-Facing Step on Swept-Wing Boundary-Layer Transition.

Jenna L. Eppink, R. Wlezien, R. King, Meelan Choudhari
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引用次数: 7

Abstract

Experimental measurements were performed on a swept flat-plate model with an airfoil leading edge and imposed chordwise pressure gradient to determine the effects of a backward-facing step on transition in a low-speed stationary crossflow-dominated boundary layer. Detailed hot-wire measurements were performed for three step heights ranging from 36 to 49% of the boundary-layer thickness at the step and corresponding to subcritical, nearly critical, and critical cases. In general, the step had a small localized effect on the growth of the stationary crossflow vortex, whereas the unsteady disturbance amplitudes increased with increasing step height. Intermittent spikes in instantaneous velocity began to appear for the two larger step heights. A physical explanation was provided for the mechanism leading to transition and the sudden movement in the transition front due to the critical steps. The large localized velocity spikes, which ultimately led to an intermittent breakdown of the boundary layer, were the result of nonlinear interactions of the different types of unsteady instabilities with each other and with the stationary crossflow vortices. Thus, the unsteady disturbances played the most important role in transition, but the stationary crossflow vortices also had a significant role via the modulation and the increased amplitude of the unsteady disturbances.
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后向台阶对后掠翼边界层过渡的影响。
在带翼型前缘和施加弦向压力梯度的后掠平板模型上进行了实验测量,以确定低速静止横流主导边界层中后向台阶对转捩的影响。详细的热线测量了三个台阶高度,范围从台阶边界层厚度的36%到49%,对应于亚临界、近临界和临界情况。总体而言,阶跃对平稳横流涡的局部影响较小,而非定常扰动幅值随阶跃高度的增加而增大。对于两个较大的台阶高度,瞬时速度开始出现间歇性峰值。对关键步骤导致的转变机制和转变锋的突然运动提供了物理解释。不同类型的非定常不稳定性彼此之间以及与定常横流涡之间非线性相互作用的结果是导致边界层间歇性击穿的巨大局域速度峰值。因此,非定常扰动在过渡过程中起着最重要的作用,但通过非定常扰动的调制和振幅的增加,平稳的横流涡也起着重要的作用。
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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