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On the Calculation of the Incompressible Flow Past an Aerofoil with a Jet Flap

Published online by Cambridge University Press:  07 June 2016

R. O’Mahoney  and
F.T. Smith
R. O’Mahoney
Affiliation:
Department of Mathematics, Imperial College, London
F.T. Smith
Affiliation:
Department of Mathematics, Imperial College, London
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Summary

The incompressible planar flow past a wing with a jet issuing from the trailing edge is calculated by two separate methods, both adaptations of conformal mapping routines that are numerically exact in the jet-free case. These are the well-known circle mapping method and the halfplane method. The former is rendered inexact by the jump conditions across the jet and an approximation is necessary. The halfplane method, however, remains exact in principle, and a range of results is presented below. The most accurate of the previous calculations is verified, and comparisons between the halfplane and circle methods are also made. The halfplane scheme seems well suited for such wake-controlled flows and has been extended to transonic conditions in a related study.

Type
Research Article
Information
Aeronautical Quarterly , Volume 29 , Issue 1 , February 1978 , pp. 44 - 59
Copyright
Copyright © Royal Aeronautical Society. 1978

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References

1 Spence, D.A. The lift coefficient of a Thin Jet-Flapped Wing. Proc. Roy. Soc. A Vol. 238, pp.4668, 1956.Google Scholar
2 Spence, D.A. The Lift on a Thin Aerofoil with a Jet-Augmented Flap. The Aeronautical Quarterly, Vol. pp. 287299, August 1958.CrossRefGoogle Scholar
3 Sato, J. Discrete Vortex Method of Two Dimensional Jet Flaps. AIAA Journal, Vol.11,No.7,pp.968937,1973.CrossRefGoogle Scholar
4 Ives, D.C., and Melnik, R.E. Numerical Calculation of the Compressible Flow over an Airfoil with a Jet Flap. AIAA Paper No. 74 - 542, 1974.CrossRefGoogle Scholar
5 Jameson, A. Numerical calculation of the Three Dimensional Transonic Flow over a Yawed Wing. Proc. AIAA Computational Fluid Dynamics Conference, pp. 1823, 1973.CrossRefGoogle Scholar
6 Halsey, N.D. Methods for the design and Analysis of Jet-Flapped Aerofoils. AIAA 12th Aerospace Sciences Meeting, AIAA Paper No. 74-188, 1974.CrossRefGoogle Scholar
7 Leamon, R.G., and Plotkin, A. An improved solution of the Two-Dimensional Jet-Flapped Airfoil Problem, AIAA Journal of Aircraft, Vol.9, No.9, pp.631635, September ’72.CrossRefGoogle Scholar
8 Stratford, B.S. Early Thoughts on the Jet Flap. The Aeronautical Quarterly, Vol. VIII, Feb. 1956.Google Scholar
9 Stratford, B.S. Mixing and the Jet Flap, Aeronautical Quarterly, Vol. VII, May 1956.Google Scholar
10 Dimmock, N.A. An Experimental Introduction to the Jet Flap. Aeronautical Research Council, CP 344, Oct.1957.Google Scholar
11 Garabedian, P.R. and Kom, D.G. Analysis of transonic airfoils. Comm. Pure and Appl. Maths. 24, pp. 841851, 1971.CrossRefGoogle Scholar
12 Garabedian, P.R., Korn, G.D. and Bauer, F. A Theory of supercritical Wing Sections. Lec. Notes in Economics and Math. System, Springer-Verlag 1972.Google Scholar
13 Garabedian, P.R., Korn, D.G., Kacprzynski, J.J. and Ohman, L.H. Analysis of the flow past on shockless lifting airfoil in design and off-design conditions. N.R.C. of Canada Aeron. Report LR-554, Ottawa, 1971.Google Scholar
14 Catherall, D., Foster, D.N. and Sells, C.C.L. Two-dimensional incompressible flow past a lifting aerofioil. R.A.E. Technical Report No. 69118, 1959.Google Scholar
15 Sells, C.C.L. Plane subcriticai flow past a lifting aerofoil. Proc. Roy. Soc., A. Vol. 308, pp 377401, 1968.Google Scholar
16 Smith, F.T. Planar incompressible flow over an aerofoil and its wake. R.A.E. Technical Report 74169, 1974.Google Scholar
17 Smith, F.T., and O’Mahoney, R. Calculation of the transonic flow past an aerofoil and its wake. R.A.E. Technical Report 77037, 1977.Google Scholar
18 O’Mahoney, R. The inclusion of boundary layer effects in the calculation of incompressible flow past an aerofoil. In preparation.Google Scholar
19 O’Mahoney, R. Ph.D. Thesis, Imperial College, London, to be submitted.Google Scholar
20 Foster, D.N. Note on methods of calculating the pressure distribution over the surface of Two-dimensional cambered wings. R.A.E. Technical Report 67095 (A.R.C. 29419), 1967.Google Scholar