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Hypersonic nozzles for high enthalpy non equilibrium flow

Published online by Cambridge University Press:  07 June 2016

N.R. Mudford ,
R.J. Stalker  and
I. Shields
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Aeronautical Quarterly , Volume 31 , Issue 2 , May 1980 , pp. 113 - 131
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Copyright © Royal Aeronautical Society. 1980

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References

1 Potter, J.L. and Carden, W.H., Design of axisymmetric contoured nozzles for laminar hypersonic flow. J. Spacecraft & Rockets, Vol. 5, p 1095, September 1968.CrossRefGoogle Scholar
2 Appleton, J.P., On the maintenance of chemical equilibrium during the expansion of reacting gas mixtures, the optimum nozzle design. A.A.S.U. Rept. 216, University of Southampton, England, March, 1962.Google Scholar
3 Zonars, D., Airflows in Contoured Nozzles. A.I.A.A. Journal, Vol. 5, p 57, April 1967.Google Scholar
4 Scofield, M.P. and Hoffman, J.D., Maximum thrust nozzles for nonequilibrium simple dissociating gas flows. A.I.A.A. Journal, Vol. 9, p 1824, September 1971.Google Scholar
5 Mudford, N.R. and Stalker, R.J., The production of pulsed nozzle flows in a shock tube. A.I.A.A. Paper No. 76-357, presented at A.I.A.A. 9th Fl. & Plasma Dyn. Conf., San Diego, Calif. July 1976.CrossRefGoogle Scholar
6 Sedney, R., The method of characteristics, p 160 in “Gas dynamics Vol. I - Non-equilibrium flows Part II.” Ed. Wegener, P., (Marcel Dekker Inc. N.Y.) 1970.Google Scholar
7 Courant, R. and Hilbert, D., “Methods of mathematical physics”, Vol. II, p 407 (Wiley Interscience, N.Y.) 1962.Google Scholar
8 Lordi, J.A., Mates, R.E. and Moselle, J.R., Computer programme for the numerical solution of non-equilibrium expansions of reacting gas mixtures. NASA CR-472 (Clearinghouse no. N66-26856), May 1966.Google Scholar
9 Shapiro, A.H., “The dynamics and thermodynamics of compressible fluid flow”, Vol. II, p 676 (The Ronald Press Co. N.Y.) 1953.Google Scholar
10 Hall, M.G., The accuracy of the method of characteristics for plane supersonic flow. Quart. Journ. Mech & Appl. Math, Vol. IX, p 320, 1956.Google Scholar
11 Liebowitz, L.P., Measurements of structure in an ionising shock wave. Phys. Fluids, Vol. 16, p 59, January 1973.CrossRefGoogle Scholar
12 Jacobs, T.A., Geidt, R.R. and Cohen, N., Kinetics of hydrogen halides in shock waves. II. A new measurement of the hydrogen dissociation rate. J. Chem. Phys., Vol. 47, p 54, July 1967.CrossRefGoogle Scholar
13 Patch, R.W., Shock tube measurement of dissociation rates of hydrogen. J. Chem. Phys., Vol. 36, p 1919, April 1962.CrossRefGoogle Scholar
14 Bauer, E., Dissociation of hydrogen molecules by vibrational excitation and three body recombination co-efficient. Phys. Rev., Ser. 2, Vol. 84, p 315, October 1951.CrossRefGoogle Scholar
15 Stier, P.M. and Barnett, C.F., Charge exchange cross-sections of hydrogen ions in gases. Phys. Rev., Ser. 2, Vol. 103, p 896, August 1956.Google Scholar
16 Goodyear, G.C. and Von Engel, A., Dissociation and ionization of hydrogen in high frequency discharges. Proc. Phys.’ Soc. London, Vol. 79, p 732, April 1962.Google Scholar
17 Fite, W.L. and Brackman, R.T., Collision of electrons with hydrogen atoms. I. Ionization. II. Excitation of Lyman-Alpha radiation. Phys. Rev., Ser. 2, Vol. 112, p 1141, November 1958.CrossRefGoogle Scholar
18 Tate, J.T. and Smith, P.T., The efficiencies of ionization and ionization potentials of various gases under electron impact. Phys. Rev., Ser. 2, Vol. 39, p 270, January 1932.Google Scholar
19 McClure, G.W., Ionization and dissociation of fast H2 molecules incident on hydrogen gas. Phys. Rev., Ser. 2(A), Vol. 132, p 1226, June 1964.Google Scholar
20 Hornung, H.G., Non-equilibrium dissociating nitrogen flow over spheres and circular cylinders. J. Fluid Mech. , Vol. 53, p 149, May 1972.CrossRefGoogle Scholar