斜向冲击系和流量控制的不对称性

Zhigang Zhang, Chuan Cheng, Lantian Zhang, Yuhang Li, Longsheng Xue, Chengpeng Wang, Keming Cheng
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引用次数: 0

摘要

在管道内马赫数为 2.7 的流场中,斜冲击系一般会形成非对称结构。为了研究流动结构以及斜向冲击列和上游冲击之间的相互作用,在马赫数为 2.7 的直管道内安装了一个等宽斜面,以产生入射冲击和斜向冲击列相互作用。利用 Schlieren 系统、瞬态压力测量和粒子图像测速仪来捕捉定量和定性的冲击结构信息。结果表明,在对称的直管道中,斜冲击列的非对称分离偏转是随机发生的。在上游冲击相互作用下,斜向冲击列的分离偏转是稳定的。在背压条件下,当斜向冲击列通过斜坡产生的分离区域时,其运动速率会迅速增加,非对称分离的偏转方向可能会发生转换。根据斜向冲击列和上游冲击相互作用的特点,采用了一种流量控制方法来产生非对称的上游流动条件,从而对斜向冲击列的偏转方向进行主动控制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Asymmetry of oblique shock train and flow control
An oblique shock train generally forms an asymmetric structure in a Mach-2.7 flow field within a duct. To study the flow structure and interaction between oblique shock trains and upstream shocks, a ramp with equal width was installed inside a Mach-2.7 straight duct to generate an incident shock and an oblique shock train interaction. A Schlieren system, transient pressure measurements and particle image velocimetry were used to capture quantitative and qualitative shock structure information. Results show that the asymmetric separation deflection of the oblique shock train occurs randomly in the symmetrical straight duct. The separation deflection of the oblique shock train was steady with upstream shock interactions. Under backpressure conditions, the rate of movement of the oblique shock train increases rapidly when it passes through the separation regions generated by the ramp, and the deflection direction of the asymmetric separation may switch. Based on the characteristics of the oblique shock train and upstream shock interaction, a flow control method was used to generate asymmetric upstream flow conditions, providing active control of the oblique shock train deflection direction.
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