Gautam Choubey & Manvendra Tiwari. 2022. Scramjet Combustion. Scramjet Combustion
65
158
.
Qili Liu, Damiano Baccarella & Tonghun Lee. (2020) Review of combustion stabilization for hypersonic airbreathing propulsion. Progress in Aerospace Sciences 119, pages 100636.
Crossref
Keiji Takeno, Shohei Yamamoto, Ryo Sakatsume, Shiori Hirakawa, Hiroki Takeda, Volodymyr Shentsov, Dmitriy Makarov & Vladimir Molkov. (2020) Effect of shock structure on stabilization and blow-off of hydrogen jet flames. International Journal of Hydrogen Energy 45:16, pages 10145-10154.
Crossref
Zhiwei Huang, Majie Zhao & Huangwei Zhang. (2020) Modelling n-heptane dilute spray flames in a model supersonic combustor fueled by hydrogen. Fuel 264, pages 116809.
Crossref
Yanhua Wang & Wenyan Song. (2019) Experimental investigation of influence factors on flame holding in a supersonic combustor. Aerospace Science and Technology 85, pages 180-186.
Crossref
Shohei Yamamoto, Ryo Sakatsume & Keiji Takeno. (2018) Blow-off process of highly under-expanded hydrogen non-premixed jet flame. International Journal of Hydrogen Energy 43:10, pages 5199-5205.
Crossref
Ji-Ho Kim, Young-Bin Yoon, Chul-Woung Park & Jae-Won Hahn. (2012) The Characteristic Modes and Structures of Bluff-Body Stabilized Flames in Supersonic Coflow Air. International Journal of Aeronautical and Space Sciences 13:3, pages 386-397.
Crossref
Chadwick Rasmussen & James Driscoll. (2008) Blowout Limits of Flames in High-Speed Airflows: Critical Damkohler Number. Blowout Limits of Flames in High-Speed Airflows: Critical Damkohler Number.
James F. Driscoll & Chadwick C. Rasmussen. (2005) Correlation and Analysis of Blowout Limits of Flames in High-Speed Airflows. Journal of Propulsion and Power 21:6, pages 1035-1044.
Crossref
J. Driscoll, M. Lewis, K. Yu, W. Dahm, A. Gupta, A. Marshall, D. Van Wie & C. Cadou. (2004) Propulsion Research Conducted at the University of Maryland - University of Michigan Space Vehicle Technology Institute. Propulsion Research Conducted at the University of Maryland - University of Michigan Space Vehicle Technology Institute.
Ji-Ho Kim, Youngbin Yoon, In-Seuck Jeung, Hwanil Huh & Jeong-Yeol Choi. (2003) Numerical Study of Mixing Enhancement by Shock Waves in Model Scramjet Engine. AIAA Journal 41:6, pages 1074-1080.
Crossref
Rodney A. Bryant & James F. Driscoll. (2001) Structure of Supersonic Flames Imaged Using OH/Acetone Planar Laser-Induced Fluorescence. AIAA Journal 39:9, pages 1735-1741.
Crossref
Albert Ratner, James F. Driscoll, Hwanil Huh & Rodney A. Bryant. (2001) Combustion Efficiencies of Supersonic Flames. Journal of Propulsion and Power 17:2, pages 301-307.
Crossref
Christopher J. Roy & Jack R. Edwards. (2000) Numerical Simulation of a Three-Dimensional Flame/Shock Wave Interaction. AIAA Journal 38:5, pages 745-754.
Crossref
Rodney Bryant, Albert Ratner & James Driscoll. (1999) Using PLIF determined flame structure to analyze supersonic combustion efficiencies. Using PLIF determined flame structure to analyze supersonic combustion efficiencies.
J.-H. Kim, Y. Yoon, J.-Y. Choi & I.-S. Jeung. (1998) Numerical study of hydrogen jet flames in supersonic flows - Effect of shock waves. Numerical study of hydrogen jet flames in supersonic flows - Effect of shock waves.
Christopher Roy & Jack Edwards. (1998) Numerical simulation of a three-dimensional flame/shock wave interaction. Numerical simulation of a three-dimensional flame/shock wave interaction.
J Driscoll. (1996) Measured lengths of supersonic hydrogen-air jet flames—Compared to subsonic flame lengths—and analysis. Combustion and Flame 107:1-2, pages 176-186.
Crossref
Hwanil Huh & James Driscoll. (1996) Measured effects of shock waves on supersonic hydrogen-air flames. Measured effects of shock waves on supersonic hydrogen-air flames.
Youngbin Yoon, Jeffrey M. Donbar, Hwanil Huh & James F. Driscoll. (1996) Measured supersonic flame properties - Heat-release patterns, pressure losses, thermal choking limits. Journal of Propulsion and Power 12:4, pages 718-723.
Crossref
Hwanil Huh & James F. Driscoll. (1996) Shock-wave-enhancement of the mixing and the stability limits of supersonic hydrogen-air jet flames. Symposium (International) on Combustion 26:2, pages 2933-2939.
Crossref
James Driscoll, Hwanil Huh, Youngbin Yoon & Jeffrey Donbar. (1995) Measured properties of supersonic hydrogen-air jet flames. Measured properties of supersonic hydrogen-air jet flames.