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2018 | OriginalPaper | Chapter

Triple-Shock Configurations, Vortices, and Instabilities Resulting from the Interaction of Energy Release with a Shock Layer in Gaseous Media

Authors : O. A. Azarova, L. G. Gvozdeva

Published in: Shock Wave Interactions

Publisher: Springer International Publishing

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Abstract

Triple-shock configurations and vortex structures are researched in problems of control of a high-speed flow past an aerodynamic body “plate-cylinder” at freestream Mach number M = 4. The effect of an energy source dislocated in the incoming flow ahead of a bow shock is evaluated for the gaseous media of different physical–chemical properties in a range of the ratio of specific heats γ from 1.1 to 1.4. The energy source is modeled as a heated rarefied channel. Changing the angles in triple-shock configuration and the effect of the stagnation pressure decreasing together with the front drag force reduction is studied depending on γ and rarefaction factor in the energy source. Generation of the Richtmyer–Meshkov instability accompanied the forming of the triple configuration is modeled for M = 8. Complex conservative difference schemes are used in the simulations.

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Bazhenova, T.V., Gvozdeva, L.G., Nettleton, M.A.: Unsteady interactions of shock waves. Prog. Aerosp. Sci. 21, 249–331 (1984)CrossRef

Arutyunyan, G.M., Belokon, V.A., Karchevsky, L.V.: On adiabatic index effect on reflection of shock waves. J. Appl. Mech. Tech. Phys. (1), 62–66 (1970) (in Russian)

Gvozdeva, L.G., Gavrenkov, S.A., Nesterov, A.A.: Study of slipstreams in triple-shock wave configuration. Shock Waves 25(3), 283–291 (2015)CrossRef

Gvozdeva, L.G., Gavrenkov, S.A.: New configuration of irregular reflection of shock waves. In: Knight, D., Lipatov, I., Reijasse, Ph. (eds.) Progress in Flight Physics, vol. 7, pp. 437–452. Torus Press (2015)

Georgievsky, P.Y., Levin, V.A.: Front separation flows for blunt and streamlined bodies supported by localized upstream energy deposition. In: 2nd European Conferences of Aerospace Sciences (EUCASS, July 1–6, Brussels), pp. 1–8 (2007)

Azarova, O.A.: Simulation of stochastic pulsating flows with instabilities using minimum-stencil difference schemes. J. Comp. Math. Math. Phys. 49(8), 1397–1414 (2009)MathSciNetMATH

Azarova, O.A., Knight, D.D., Kolesnichenko, Y.F.: Pulsating stochastic flows accompanying microwave filament/ supersonic shock layer interaction. Shock Waves 21(5), 439–450 (2011)CrossRef

Knight, D.: Survey of aerodynamic drag reduction at high speed by energy deposition. J. Propul. Power 24, 1153–1167 (2008)MathSciNetCrossRef

Knight D.: A short review of microwave and laser discharges for supersonic flow control. J. AerospaceLab (10), 1–12 (2015)

10.

Russell, A., Zare-Behtash, H., Kontis, K.: Joule heating flow control methods for high-speed flows. J. Electrost. (4), 1–90 (2016)

11.

Azarova, O.A., Gvozdeva, L.G.: Unsteady triple configurations and vortex-contact structures initiated by interaction of an energy source with a shock layer in gases. Tech. Phys. Lett. 42(8), 799–803 (2016)CrossRef

12.

Artem’ev, V.I., Bergel’son, V.I., Nemchinov, I.V., Orlova, T.I., Smirnov, V.A., Hazins, V.M.: Changing the regime of supersonic streamlining obstacle via arising the thin channel of low density. Fluid Dyn. (5), 146–151 (1989) (in Russian)

13.

Azarova, O.A.: Complex conservative difference schemes for computing supersonic flows past simple aerodynamic forms. J. Comp. Math. Math. Phys. 55(12), 2025–2049 (2015)MathSciNetMATH

14.

Grudnitsky, V.G., Prohorchuk, Y.A.: An approach of construction of difference schemes with arbitrary order of approximation of differential equations in partial derivatives. Reports of RAS 234(6), 1249–1252 (1977) (in Russian)

15.

Belotserkovsky, O.M., Grudnitsky, V.G., Prohorchuk, Y.A.: Difference scheme of the second order accuracy on a minimal stencil for hyperbolic equations. J. Comp. Math. Math. Phys. 23(1), 119–126 (1983) (in Russian)

16.

Semenov, A.N., Syschikova, M.P., Berezkina, M.K.: Experimental study of the specific features of the Mach reflection in a shock tube. J. Tech. Phys. 15(5), 795–803 (1970) (in Russian)

17.

Bazhenova, T.V., Gvozdeva, L.G., Lagutov, Y.P., Lyakhov, V.N., Poresov, Y.M., Fokeev, V.P.: Unstedy Interaction of Shock and Detonation Waves in Gases, 208 p. Nauka, Moscow (1986) (in Russian)

18.

Gvozdeva, L.G., Borsch V.L., Gavrenkov, S.A.: Analytical and numerical study of three shock configurations with negative reflection angle. In: Kontis, K. (ed) 28th International Symposium on Shock Waves, vol. 2, pp. 587–592. Springer (2012)

19.

Azarova, O.A.: Complex conservative difference schemes in modeling of instabilities and contact structures. In: Kontis, K. (ed) 28th International Symposium on Shock Waves, vol. 2, pp. 683–689. Springer (2012)

20.

Kemm, F.: On the proper setup of the double mach reflection as a test case for the resolution of gas dynamics codes. Comput. Fluids (4), 1–7 (2014)

21.

Georgievsky, P.Y., Levin, V.A.: Unsteady interaction of a sphere with atmospheric temperature inhomogeneity at supersonic speed. Fluid Dyn. 28(4), 568–574 (1993)CrossRef

22.

Azarova, O.A., Knight, D.D.: Interaction of microwave and laser discharge resulting “heat spots” with supersonic combined cylinder bodies. Aerosp. Sci. Technol. (43), 343–349 (2015)

23.

Kolesnichenko, Y.F., Brovkin, V.G., Azarova, O.A., Grudnitsky, V.G., Lashkov, V.A., Mashek, I.C.: Microwave energy release regimes for drag reduction in supersonic flows. Paper AIAA-2002-0353, 1–12 (2002)

24.

Azarova, O.A.: Generation of Richtmyer-Meshkov and secondary instabilities during the interaction of an energy release with a cylinder shock layer. Aerosp. Sci. Technol. (42), 376–383 (2015)

25.

Edney, B.: Anomalous heat transfer and pressure distributions on blunt bodies at hypersonic speeds in the presence of an impinging shock. Aeronautical Research Institutes of Sweden, FAA Rept. 115, Stockholm (1968)

26.

Adelgren, R.G., Yan, H., Elliott, G.S., Knight, D.D., Beutner, T.J., Zheltovodov, A.A.: Control of Edney IV interaction by pulsed laser energy deposition. AIAA J. 43(2), 256–269 (2005)CrossRef

27.

Hawley, J.P., Zabusky, N.J.: Vortex paradigm for shock-accelerated density-stratified interfaces. Phys. Rev. Lett. No. 63, 1241–1244 (1989)CrossRef

Title: Triple-Shock Configurations, Vortices, and Instabilities Resulting from the Interaction of Energy Release with a Shock Layer in Gaseous Media
Authors: O. A. Azarova
L. G. Gvozdeva
Publisher: Springer International Publishing
Book: Shock Wave Interactions
Print ISBN: 978-3-319-73179-7

Electronic ISBN: 978-3-319-73180-3

Copyright Year: 2018
DOI: https://doi.org/10.1007/978-3-319-73180-3_21

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