Turbulent subsonic "transitional-open" cavity flow was investigated by wind-tunnel tests. The investigated cavity configuration had a length-to-depth ratio of 6.25 and a width-to-depth ratio of 2. The cavity was exposed to a free-stream Mach number of 0.40 and a Reynolds number (based on cavity depth) of 1.6 x 10(6), with a turbulent incoming boundary layer. Measurements of velocity and wall pressures were taken simultaneously, which enabled the analysis of velocity-pressure cross-correlations. Special attention is paid to the shear layer that develops over the cavity and an emphasis is placed on the analysis of its characteristics and its stability. Application of linear hydrodynamic stability theory, together with examining velocity-pressure cross correlations, revealed that the behavior of the cavity shear layer is analogous to a free shear layer, approximately up to mid-length of the cavity, where further downstream nonlinear interactions occur.
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机译:通过风洞试验研究了湍流的亚音速“过渡开放”腔流。所研究的腔结构的长深比为6.25,宽深比为2。该腔暴露于自由流马赫数为0.40和雷诺数(基于腔深度)为1.6的情况下。 x 10(6),带有湍流的进入边界层。同时测量了速度和壁压,从而可以分析速度-压力互相关。要特别注意在型腔上形成的剪切层,并重点分析其特性和稳定性。线性流体动力稳定性理论的应用以及对速度-压力互相关性的研究表明,腔体剪切层的行为类似于自由剪切层,大约直到腔体中部为止,在该区域中进一步发生下游非线性相互作用。
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