Hostname: page-component-cd9895bd7-fscjk Total loading time: 0 Render date: 2024-12-22T10:48:09.357Z Has data issue: false hasContentIssue false

Passive control of surface pressure fluctuations in reattaching flows

Published online by Cambridge University Press:  04 July 2016

R. Kumar
Affiliation:
National Aerospace Laboratories, Bangalore, India
P. R. Viswanath
Affiliation:
National Aerospace Laboratories, Bangalore, India

Abstract

Experiments assessing the effectiveness of passive control involving a porous surface and cavity underneath for reducing the level of surface pressure fluctuations in reattaching flows are reported. Measurements are made on a generic axisymmetric body, representative of a launch vehicle configuration, in the Mach number range of 0·8 to 1·2. The measurements consist of distributions of mean surface pressure and unsteady surface pressure fluctuations in the boat-tail separated region. The passive control significantly reduces the peak surface pressure fluctuations in the reattachment zone, even in the absence of a strong shock wave. The spectra of pressure fluctuations reveal that with passive control the energy is appreciably reduced over a wide range of frequencies.

Type
Research Article
Copyright
Copyright © Royal Aeronautical Society 2002 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1. Bahi, L., Ross, J.M. and Nagamatsu, H.T. Passive shoak-wave/boundary layer interaction control for transonic aerofoil drag reduction 1983 AIAA 83-0137.Google Scholar
2. Kroggmann, P., Stanewsky, E. and Theide, P. Effect of suction on shock/boundary layer interaction and shock induced separation. J Aircr, 1985, 22, pp 3742 Google Scholar
3. Raghunathan, S. Passive control of shock-boundary layer interaction. Progress Aerospace Sciences, 1988, 25, (4), pp 271296.Google Scholar
4. Gibson, T.M., Babinsky, H. and Squire, L.C. Passive control of shock wave-boundary-layer interactions, Aeronaut J, March 2000, pp 129140.Google Scholar
5. Qizheng, L. and Bo, L. Experimental investigation on reducing fluctuating pressures of launch vehicles by passive shock-wave/boundary layer control. Proceedings on Recent Advances in Experimental Fluid Mechanics, ZHUANG, F.G. (Ed), Int Aca Pub, 1992, pp 100104.Google Scholar
6. Stanewsky, E. and Kamaraj, V. Suppression of shock wave oscillations on a blunt cone-cylinder. AIAA 97-0299, 1997.Google Scholar
7. Heenan, A.F. and Morrison, J.F. PASSIVE control of pressure fluctuations generated by separated flow. AIAA 96-0445, 1996.Google Scholar
8. Coe, C.F. The effect of some variations in launch vehicle nose shape on steady and fluctuating pressure at transonic speeds. NASA TMX-646, March, 1962.Google Scholar
9. Kumar, R. Mean and fluctuating pressure field in boat-tail separated flows at transonic speeds. Dept of Aerospace Eng, IISc, Bangalore, India, December, 1999.Google Scholar
10. Rainey, A.G. Progress on the launch vehicle buffeting problem. J Spacecraft and Rockets, 2, (3), 1965, pp 289298.Google Scholar
11. Kumar, R. Viswanath, P.R. and Prabhu, A. Mean and fluctuating pressure in boat-tail separated flows at transonic speeds, J Spacecraft and Rockets, 39, (3), May-June 2002, pp 430438.Google Scholar
12. Kline, S.J. and McClintock, F.A. Describing uncertainties in single sample experiments, Mechanical Engineering, 1953, 75, 1, pp 38.Google Scholar
13. Kumar, R. and Viswanath, P.R. Passive control of surface pressure fluctuations in reattaching flows at transonic speeds, PD NT 0130, National Aerospace Laboratories, India, July, 2001.Google Scholar
14. Korst, H.H. A theory of base pressure in transonic and supersonic flow. J Applied Mechanics, Dec 1956, 23, pp 168184.Google Scholar
15. Chapman, D.R. Kuehn, D.M. and Larson, H.K. Investigation of separated flows in supersonic and subsonic streams with emphasis on the effect of transition. NACA, Rept R-1356, 1958.Google Scholar
16. Nash, J.F. A discussion of two-dimensional turbulent base flows. Aeronautical Research Council, Research Memoranda 3468, London, UK, June 1965.Google Scholar