Abstract
The numerical study demonstrates the perspectives of using a localized pulse-periodic energy supply, which in practice could be realized by means of electrical, optical, or microwave discharges, to enhance the supersonic mixing of compressible shear layers downstream of tandem oblique shock wave and expansion waves systems in conditions of incident the Mach number М∞ = 2 flow over 20-deg compression/expansion and expansion/compression ramps configurations.
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Seiner, J.M., Dash, S.M., Kenzakowski, D.C.: Historical survey on enhanced mixing in scramjet engines. J. Propul. Power 17(6), 1273–1286 (2001)
Zhang, Y., Wang, B., Zhang, H., Xue, S.: Mixing enhancement of compressible planar mixing layer impinged by oblique shock waves. J. Propul. Power 31(1), 156–169 (2015)
Zheltovodov, A.A., Pimonov, E.A.: Intensification of mixing of parallel compressible flows using a localized pulse-periodic energy supply. Tech. Phys. Lett. 13(11), 1016–1018 (2013)
Zheltovodov, A.A., Pimonov, E.A.: Numerical simulation of an energy deposition zone in quiescent air and in a supersonic flow under the conditions of interaction with a normal shock. Tech. Phys. 58(2), 170–184 (2013)
Schülein, E., Zheltovodov, A.A., Pimonov, E.A., Loginov, M.S.: Experimental and numerical modeling of the bow shock interaction with pulse-heated air bubbles. Int. J. Aerosp. Innov. 2(3), 165–187 (2010)
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Pimonov, E., Zheltovodov, A. (2017). Numerical Research of Supersonic Mixing in Conditions of Localized Pulse-Periodic Energy Supply Upstream of Tandem Shock and Expansion Waves. In: Ben-Dor, G., Sadot, O., Igra, O. (eds) 30th International Symposium on Shock Waves 1. Springer, Cham. https://doi.org/10.1007/978-3-319-46213-4_34
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DOI: https://doi.org/10.1007/978-3-319-46213-4_34
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