Effects of various aftwall edge ramp on open cavities in a confined supersonic flow

Q3 Physics and Astronomy

Noise and Vibration Worldwide Pub Date : 2023-10-17 DOI:10.1177/09574565231203256

S Sivapriya, S Thanigaiarasu, M Prasath

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Abstract

An experimental study on the supersonic flow of Mach number 1.81 Over the rectangular cavity of L/D = 3 with different aft wall angles such as Baseline case 90° and aft wall edge ramp of 30°. Measurements of acoustic oscillations were carried out on the wall and floor of the cavity using unsteady pressure transducers. Schlieren flow visualization indicates the presence of a shear layer and the other shock features that are associated with the cavity flow field. In order to obtain the experimental results, data analysis was performed in the unsteady data Using statistical analytical techniques i.e., Fast Fourier Transform, Short Time Fourier Transform, and Coherence. After careful examination of the power spectra of the cavities, it is concluded that as the aft wall angle decreases by introducing the aft wall ramp, the amplitude decreases. It is clearly observed that the complete escape of vortices in Low angled cavity. From the correlation plot, the existence of the acoustic wave inside the cavity for all the cases is deduced. The maximum OASPL and static pressure values are observed at the aft wall. These results, the strength of the self-sustained oscillations and acoustic disturbance and mode switching were observed in the higher angled cavity 90°. Also, the mode switching co-existence was reduced in the aft wall edge ramp angle of 30°.

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受限超声速流动中不同后壁边缘坡度对开腔的影响

马赫数1.81在L/D = 3矩形空腔上不同尾壁角(基线壳90°、尾壁边坡30°)的超声速流动实验研究采用非定常压力传感器对腔壁和腔底进行了声振荡测量。纹影流显示表明存在剪切层和与空腔流场相关的其他激波特征。为了得到实验结果，对非定常数据进行了数据分析，采用了快速傅立叶变换、短时傅立叶变换和相干性等统计分析技术。经过对空腔功率谱的仔细分析，得出结论:随着后壁角的减小，通过引入后壁坡道，振幅减小。可以清楚地观察到，在低角度空腔中，旋涡完全逃逸。根据相关图，推导出所有情况下腔内声波的存在性。最大OASPL和静压值在尾壁上观察到。这些结果表明，在90°高角度腔体中观察到自持续振荡强度、声干扰和模式切换。此外，在30°后壁边缘斜坡角时，模态切换共存降低。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Noise and Vibration Worldwide Physics and Astronomy-Acoustics and Ultrasonics

CiteScore

1.90

自引率

0.00%

发文量

期刊介绍： Noise & Vibration Worldwide (NVWW) is the WORLD"S LEADING MAGAZINE on all aspects of the cause, effect, measurement, acceptable levels and methods of control of noise and vibration, keeping you up-to-date on all the latest developments and applications in noise and vibration control.