Hostname: page-component-78c5997874-4rdpn Total loading time: 0 Render date: 2024-11-09T20:36:34.628Z Has data issue: false hasContentIssue false
  • English
  • Français

Review of Problems in Application of Supersonic Combustion

Part of: RAeS Lanchester Lecture Papers

Published online by Cambridge University Press:  04 July 2016

Antonio Ferri
Antonio Ferri*
Affiliation:
General Applied Science Laboratories, Inc., New York University
Get access Rights & Permissions [Opens in a new window]

Summary

The problem of air-breathing engines capable of flying at very high Mach numbers is described briefly. Possible performance of supersonic combustion ramjets is outlined briefly and the supersonic combustion process is described. Two mechanisms of combustion are outlined: one is supersonic combustion controlled by convection process, and the second is controlled by diffusion. The parameters related to the combustion process are discussed in detail. Data and analyses of reaction rates and mixing phenomena are represented; the flame mechanism is discussed, and experimental results are presented.

Type
Seventh Lanchester Memorial Lecture
Information
The Aeronautical Journal , Volume 68 , Issue 645 , September 1964 , pp. 575 - 597
Copyright
Copyright © Royal Aeronautical Society 1964

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.Gross, R. A. and Chinitz, W.A Study of Supersonic Combustion. Journal of the Aerospace Sciences, Vol. 27, 7, pp. 517524, July 1960.Google Scholar
2.Ferri, A.Possible Directions of Future Research in Air-Breathing Engines. AGARD Combustion and Propulsion Colloquium, pp. 315. Pergamon Press Ltd., 1960.Google Scholar
3.Mordell, D. L. and Swithenbank, J.Hypersonic Ramjets. Advances in Aeronautical Sciences, Proc. of 2nd International Congress in Aeronautical Sciences, Zurich, Vol. 4, pp. 1216. Pergamon Press Book, The Macmillan Co.. September 1960.Google Scholar
4.Libby, P. A.Theoretical Analysis of Turbulent Mixing of Reactive Gases with Application to Supersonic Combustion of Hydrogen. ARS Journal, Vol. 32, pp. 388396, March 1962.Google Scholar
5.Zeiberg, S. and Bleich, G. D. Finite Difference Calculation of Hypersonic Wakes. Paper presented at AIAA Conference on Physics of Entry into Planetary Atmospheres, MIT, 26th-28th August 1963, Preprint 63-449; also GASL Technical Report 338, February 1963.CrossRefGoogle Scholar
6.Slutsky, S. Stable Computation Techniques of Coupled Diffusion and Chemical Reaction in Shear Flows. GASL Technical Memo 101, December 1963.Google Scholar
7.Moretti, L. A New Technique for the Chemical Analysis of Non-Equilibrium Flows. GASL Technical Report 412, January 1964.Google Scholar
8.Shetz, J. A. and Jannone, J. The Ignition of Flowing Hydrocarbon-Air Mixtures by a Hydrogen Pilot Flame. GASL Technical Report 432, April 1964.Google Scholar
9.Penner, S. S.Chemistry Problems in Jet Propulsion, pp. 267276. Pergamon Press Ltd., 1957.Google Scholar
10.Ferri, A., Libby, P. A. and Zakkay, V. Theoretical and Experimental Investigation of Supersonic Combustion. Aero nautical Research Laboratories, ARL 62-467, September 1962; also Paper presented at Third ICAS Congress, Stockholm, Sweden, 27th-31st August 1962; also PIBAL Report No. 713, ARL 62-467, AD 291 712, September 1962.Google Scholar
11.Libby, P. A.Treatment of Partial Equilibrium in Chemical Reacting Flows. ARS Journal, Vol. 32, 7, pp. 10901091, July 1962.Google Scholar
12.Duff, R. W.Calculation of Reaction Profiles Behind Steady State Shock Waves. I. Application to Detonation Waves. J. Chem. Physics, Vol. 28, 6, pp. 11931197, June 1958.Google Scholar
13.Schott, G. L.Kinetic Studies of Hydroxyl Radicals in Shock Waves. III. The OH Concentration Maximum in the Hydrogen-Oxygen Reaction. J. Chem. Phys., Vol. 32, 2, pp. 710716, March 1960.Google Scholar
14.Schott, G. L. and Kinsey, J. L.Kinetic Studies of Hydroxyl Radicals in Shock Waves. II. Induction Times in the Hydrogen-Oxygen Reaction. J. Chem. Phys., Vol. 29, 5, pp. 11771182, November 1958.Google Scholar
15.Ellis, G. E. Literature Survey of the Kinetics of the H-O-M System. Marquardt Report No. 20 202, November 1962.Google Scholar
16.Pergament, H. S. A Theoretical Analysis of Non-Equilibrium Hydrogen-Air Reactions in Flow Systems. Paper No. 63-113, AIAA-ASME Hypersonic Ramjet Conference, 23rd-25th April 1963.Google Scholar
17.Zakkay, V. and Krause, E. Mixing Problems with Chemical Reactions. PIBAL Report No. 776, March 1963.Google Scholar
18.Tamagno, J. and Lindemann, O. Experimental Results on Supersonic Combustion. GASL Technical Report 322, December 1962.Google Scholar
19.Momtchiloff, I. N., Taback, E. D. and Buswell, R. F.An Analytical Method of Computing Reaction Rates for Hydrogen-Air Mixtures. Paper presented at the Ninth International Meeting of the Combustion Institute, Cornell University, August 1962.Google Scholar
20.Nicholls, J. A. Stabilization of Gaseous Detonation Waves with Emphasis on the Ignition Delay Zone. Thesis for Ph.D., University of Michigan, 1960. Available from University Microfilms, Inc., Ann Arbor, Michigan.Google Scholar
21.Ferri, A. Axially Symmetric Heterogeneous Mixing. Paper presented at the IUTAM International Symposium on Applications of the Theory of Functions in Continuum Mechanics, Tbilisi, Russia, 18th-24th September 1963; also PIBAL Report No. 787, AFOSR 5326, September 1963.Google Scholar
22.Zakkay, V., Krause, E. and Woo, S. D. L. Turbulent Transport Properties for Axisymmetric Heterogeneous Mixing. AIAA Conference, Paper presented at 20th-22nd January 1964 Meeting; also PIBAL Report No. 813, March 1964.CrossRefGoogle Scholar
23.Kleinstein, G.An Approximate Solution for the Axisymmetric Jet of a Laminar Compressible Fluid. Quart. Appl. Math., Vol. 20, 1, pp. 4954, April 1962.Google Scholar
24.Kleinstein, G. On the Mixing of Laminar and Turbulent Axially-Symmetric Compressible Flows. PIBAL Report No. 756, February 1963.Google Scholar
25.Schetz, J. A.Supersonic Diffusion Flames. Paper presented at the 21st Meeting of the AGARD Combustion and Propulsion Panel, London. Pergamon Press, New York, April 1963.Google Scholar
26.Libby, P. A. and Schetz, J. A. Approximate Analysis of Slot Injection of a Reactive Gas in Laminar Flow. GASL Technical Report 299, June 1962.Google Scholar
27.Alpinieri, L. J. An Experimental Investigation of the Turbulent Mixing of Non-Homogeneous Coaxial Jets. PIBAL Report No. 789, August 1963.Google Scholar
28.Keagy, W. R. and Weller, A. E.A Study of Freely Expanding Inhomogeneous Jets. Proc. Heat Transfer and Fluid Mechanics Institute, pp. 8998. Amer. Soc. Mech. Engrs., New York, 1949.Google Scholar
29.Moretti, G.Analysis of Two-Dimensional Problems of Supersonic Combustion Controlled by Mixing. AIAA Aerospace Science Meeting. New York, N.Y., January 1964.Google Scholar