Investigation on frequency influence on the transverse pulsed jet in a supersonic crossflow

Z.-Z. Xu, Ym Zhou, J.-P. Wu, W. Huang
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Abstract

Abstract The pulsed jet is a novel and effective active mixing enhancement approach. For the transverse pulsed jet in the supersonic crossflow, the frequency influence is investigated using the three-dimensional Reynolds-averaged Navier–Stokes (RANS) equations coupled with the SST k-ω turbulence model. The averaged flow field properties of the pulsed jet are better than those of the steady jet when considering mixing efficiency and jet penetration depth, especially for the case with the pulsed frequency being 50kHz. The flow field structures of the pulsed jet are connected with the time, with periodic wave structures generating in the flow field and moving downstream. The size of the wave structures and its distance are related to the frequency, namely the size and flow distance are relatively small at 50kHz, and it takes some time for the pulsed jet to establish its influence in the full flow field. At low frequencies, the flow field produces large fluctuations, and this may be detrimental to the stable operation of the engine.
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超声速横流中频率对横向脉冲射流影响的研究
脉冲射流是一种新颖有效的主动混合增强方法。对于超声速横流中的横向脉冲射流,采用三维reynolds -average Navier-Stokes (RANS)方程和SST k-ω湍流模型,研究了频率对脉冲射流的影响。考虑混合效率和射流穿透深度时,脉冲射流的平均流场性能优于稳态射流,特别是在脉冲频率为50kHz时。脉冲射流的流场结构与时间有关,在流场中产生周期波结构并向下游运动。波结构的大小和距离与频率有关,即在50kHz时,波结构的大小和流距离相对较小,脉冲射流在整个流场中建立其影响需要一段时间。在低频时,流场产生较大的波动,这可能不利于发动机的稳定运行。
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