The focus of the present work is the acoustic oscillations exhibited by confined supersonic flow past a rectangular cavity of varying length-to-depth (L/D) ratio, with a view to identify optimal dimensions for application in scramjet combustors. Experiments were conducted to study the acoustic oscillations induced by supersonic flow at a Mach number of 1.5 past a rectangular cavity of variable dimensions mounted on one wall of a rectangular duct. The effect of L/D ratio of the cavity on the dominant acoustic modes registered on the wall of the duct opposite to the cavity is investigated. The range of L/D ratio varied is 0.25-6.25. The dominant acoustic modes and the amplitudes are observed to be quite sensitive to L/D ratio in the above range. Shifts in the dominant acoustic modes are observed predominantly for L/D≈0.94 and L/D≈1.5. The variation of the Strouhal number with L/D ratio indicates a transition in the modal content in the 0.941. Such distinct streamwise oscillations are also observed for cavities with L/D<1, when the length is appreciable. The presence of higher modes in the acoustic oscillations is correlated with shocks produced at the lip of the cavity at a different frequency than the compression waves inside the cavity.
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机译:本工作的重点是通过超声速流经长度/深度(L / D)比变化的矩形腔体所表现出的声波振荡,以便确定适用于超燃冲压燃烧器的最佳尺寸。进行了实验,以研究由超声速流动引起的声振动,该声速为1.5马赫数,经过一个可变尺寸的矩形腔,该矩形腔安装在矩形管道的一面。研究了腔的L / D比对与腔相对的管道壁上记录的主导声模的影响。 L / D比的范围变化为0.25-6.25。在上述范围内,主要的声模和振幅对L / D比非常敏感。对于L /D≈0.94和L /D≈1.5,主要观察到主要声模的变化。 Strouhal数随L / D比的变化表明,模态含量在0.94 1的腔的模态位移而增加。当长度明显时,对于L / D <1的腔体,也可以观察到这种明显的沿流振荡。声振荡中较高模的存在与在腔的唇部以与腔内部的压缩波不同的频率产生的冲击相关。
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