Investigation of the Flow Structure in a Model Scramjet Air Intake with Transverse Hydrogen Fuel Injection into Supersonic Crossflow-Reference-Cited by-同舟云学术

Investigation of the Flow Structure in a Model Scramjet Air Intake with Transverse Hydrogen Fuel Injection into Supersonic Crossflow

Published:2021-05 Issue:3 Volume:56 Page:334-342
ISSN:0015-4628
Container-title:Fluid Dynamics
language:en
Short-container-title:Fluid Dyn

Author:

Seleznev R. K.

Publisher

Pleiades Publishing Ltd

Subject

Fluid Flow and Transfer Processes,General Physics and Astronomy,Mechanical Engineering

Link

https://link.springer.com/content/pdf/10.1134/S0015462821030083.pdf

Reference16 articles.

1. Seleznev, R.K., Surzhikov S.T., and Shang, J.S., A review of the scramjet experimental data base, Progress in Aerospace Sciences, 2019, vol. 106, no. 2, pp. 43–70.

2. Waltrup P.J., White, M.E., Zarlingo, F., and Gravlin, E.S., History of ramjet and scramjet propulsion development for U.S. Navy missiles, Johns Hopkins APL Technical Digest (Applied Physics Laboratory), 1997, vol. 18, no. 2, pp. 234–242.

3. Seleznev, R.K., History of scramjet propulsion development, Journal of Physics: Conf. Ser., 2018, vol. 1009, no. 1, p. 012028.

4. Gamba, M., Miller, V.A., Mungal, M.G., and Hanson, R.K., Ignition and lame structure in a compact inlet/scramjet combustor model, AIAA 2011-2366.

5. Zhao, M., Zhou, T., Ye, T., Zhu, M., and Zhang, H., Large eddy simulation of reacting flow in a hydrogen jet into supersonic cross-flow combustor with an inlet compression ramp, International Journal of Hydrogen Energy, 2017, vol. 42, no. 26, pp. 16782–16792.

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