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Effect of liquid injection on acoustic field from supersonic flow past cavities
Date Issued
01-01-2008
Author(s)
Ganesh Anavaradham, T. K.
Indian Institute of Technology, Madras
Shreenivasan, O. J.
Indian Institute of Technology, Madras
Panneerselvam, S.
Abstract
This paper describes an experimental investigation of the effect of transverse liquid injection (distilled water) on the acoustic field generated by confined supersonic flow past a cavity. The effect of cavity depth in the absence/ presence of liquid injection on the acoustic field is studied. In the presence of liquid injection, the effects of injection pressure and injection location on the acoustic field are investigated. The dependence of suppression/amplification of the acoustic amplitudes (compared with the absence of injection) on the injection condition and cavity depths is ascertained. In general, liquid injection in the presence of cavity resulted in higher amplitudes. Even square cavities that did not exhibit oscillations in the absence of injection generated significant acoustic amplitudes in the presence of liquid injection at high injection pressures. Phase-locked schlieren imaging was performed to sequence the fluiddynamic events. Schlieren images indicate the interaction of the shock wave generated by the flow past the liquid jet and the oblique shock generated at the cavity-leading edge. The schlieren images show that the amplitude increase observed for higher injection pressures for a range of cavity depths is accompanied by an unsteady normal shock ahead of the cavity-leading edge (which does not span the entire width of the test model, but is located locally in front of the liquid jet). Copyright © 2008 by T. K. Ganesh Anavaradham, R. I. Sujith, O. J. Shreenivasan, S. R. Chakravarthy, and S. Panneerselvam. Published by the American Institute of Aeronautics and Astronautics, Inc.
Volume
24