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

Author:

Sivapriya S1ORCID,Thanigaiarasu S1,Prasath M2

Affiliation:

1. Department of Aerospace Engineering, Madras Institute of Technology, Anna University, Trichy, India

2. Wind Tunnel Technological Division, Vikram Sarabhai Space Centre, Trivandrum, India

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°.

Publisher

SAGE Publications

Subject

Mechanical Engineering,Acoustics and Ultrasonics,Mechanics of Materials,Condensed Matter Physics,General Materials Science

Reference13 articles.

1. An investigation of supersonic oscillatory cavity flows driven by thick shear layers

2. An Investigation of Separated Flows - Part I: The Pressure Field

3. Rossiter JE. “Wind Tunnel Experiments on the flow over rectangular cavities at subsonic and Transonic speeds”, Aeronautical Research Council Reports and Memo. 1964; 3838.

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