Processes of fuel self-ignition and flame stabilization with transverse hydrogen fuel injection into a supersonic combustion chamber-Reference-Cited by-同舟云学术

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Processes of fuel self-ignition and flame stabilization with transverse hydrogen fuel injection into a supersonic combustion chamber

Published:2020-07 Issue:4 Volume:27 Page:573-584
ISSN:0869-8643
Container-title:Thermophysics and Aeromechanics
language:en
Short-container-title:Thermophys. Aeromech.

Author:

Goldfeld M. A.

Publisher

Pleiades Publishing Ltd

Subject

Nuclear and High Energy Physics,Radiation

Link

http://link.springer.com/content/pdf/10.1134/S0869864320040101.pdf

Reference36 articles.

1. K.R. Jackson, M.R. Gruber, and S. Buccellato, Mach 6–8 hydrocarbon-fueled scramjet flight experiment: the HIFIRE flight 2 project, J. Propulsion and Power, 2015, Vol. 31, No. 1, P. 36–53.

2. J.P. Drummond, Methods for prediction of high-speed reacting flows in aerospace propulsion, AIAA J., 2014, Vol. 52, No 3, P. 465–485.

3. A. Ingenito and C. Bruno, Physics and regimes of supersonic combustion, AIAA J., 2010, Vol. 48, No 3, P. 515–525.

4. R. Masumoto, S. Tomioka, K. Kudo, A. Murakami, K. Kato, and H. Yamasaki, Experimental study on combustion modes in a supersonic combustor, J. Propulsion and Power, 2011, Vol. 27, No. 2, P. 346–355.

5. D.J. Micka and J.F. Driscoll, Stratified jet flames in a heated (1390 K) air cross-flow with auto-ignition, Combust. Flame, 2012, Vol. 159, P. 1205–1214.

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4. Investigation of turbulent flow in vortex cold-wall combustion chamber under different spark ignition times;Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy;2023-02-07

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