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A review of the aerodynamics of a jet in a cross flow

Published online by Cambridge University Press:  04 July 2016

G. J. Hancock*
Affiliation:
Department of Aeronautical Engineering, Queen Mary College, University of London

Summary

The aerodynamics of a circular jet emerging normally from a wall into a cross flow is critically assessed. Some general trends are obtained when viscous effects are neglected. But viscous effects dominate the real flow behaviour. Attempts to predict these real effects are reviewed and their anomalies highlighted. The importance of understanding and specifying the jet exit conditions is stressed, which is relevant to complete numerical solutions.

Type
Research Article
Copyright
Copyright © Royal Aeronautical Society 1987 

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References

1. Smy, J. R. and Ransom, E. C. P. Structure of single jets at large angles to a cross flow. Internal Hawker Siddeley Aviation report, 1976.Google Scholar
2. Bradbury, L. J. S. Some aspects of jet dynamics and their implications for VTOL research. AGARD CP 308, Fluid dynamics of jets with applications to V/STOL, 1981.Google Scholar
3. Kotansky, D. R. Jet Flowfields. Special Course on V/STOL Aerodynamics. AGARD Report No. 710, 1984.Google Scholar
4. Barnes, W. D. and Keffer, J. F. The round turbulent jet in a cross wind. J. Fluid Mech, 1963, 15, Part 4.Google Scholar
5. Bradbury, L. J. S. and Wood, M. N. Static pressure distribution around a circular jet exhausting normally from a plane wall into an airstream. RAE TN 2978, 1964.Google Scholar
6. Taylor, P. and Watkins, D. J. An investigation of inclined jets in a cross wind. AGARD CP 308, 1981.Google Scholar
7. Kamatani, Y. and Greber, I. Experiments on confined turbulent jets in a cross flow. NASA CR 2392, 1974.Google Scholar
8. Fearn, R. L. and Weston, R. P. Induced pressure distributions of a jet in cross flow.Google Scholar
9. Schollenberger, C. A. Three dimensional wing/jet interac tion analysis including jet distortion influences. J. Aircraft, September 1975, 12.Google Scholar
10. Adler, D. and Baron, A. Prediction of a three dimensional circular turbulent jet in a cross flow. A1AA Journal, February 1979, 17.Google Scholar
11. Karagoztan, A. R. An analytical model for the vorticity associated with a transverse jet. AIAA Journal, March 1986,24.Google Scholar
12. Baker, A. J., Marshardt, P. D., Orzechowski, J. A., and Yen, K. T. A three dimensional finite element algorithm for prediction of V/STOL jet induced flowfields. AGARD CP 308, 1981.Google Scholar
13. Patankar, S. V., Basu, D. K., and Alpay, S. A. Prediction of the three dimensional velocity field of a deflected jet. J. Fluids Eng. 1977.Google Scholar
14. McGuirk, J. J. Unpublished note.Google Scholar