Wall mounted cavity has proven to be a capable candidate for fuel air mixing and flame stabilization for scramjet. Because of inherent advantages like symmetric flow, avoidance of base wall cooling, symmetricudfuelling feasibility etc exploration of strut-mounted ‘through cavity’ has been done. It is a novel configuration formed in the space between two struts immersed in a supersonic flow in tandem. . Two variants of the cavity, formed by using rectangular and ramp strut as the rear strut and plug nozzle acting as the forward strut, have been used. Drag characterization is carried out by static pressure measurement inside the cavity for different aspect ratios for these two types of cavities formed. Flow visualization has been done using time averaged Z-type schlieren technique. Open and closed cavities have been identified using distribution of coefficient of pressure in the cavity and the schlieren images taken.ud
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机译:事实证明,壁挂式腔体是超燃冲压发动机燃料空气混合和火焰稳定的有力候选者。由于具有对称流动,避免底壁冷却,对称加油的可行性等固有优势,因此已经完成了对安装在支柱上的“通孔”的探索。这是一种新颖的构造,该构造形成于串联在超音速流中的两个支柱之间的空间中。 。通过使用矩形和倾斜支柱作为后支柱和用作前支柱的塞子喷嘴而形成的空腔的两个变体。通过针对形成的这两种类型的型腔的不同长宽比,通过型腔内部的静压测量来执行阻力表征。流量可视化已使用时间平均Z型schlieren技术完成。使用空腔中的压力系数分布和所拍摄的刻纹图像可以识别出打开和闭合的空腔。 ud
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