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Combustion Science and Technology Volume 17, 1977 - Issue 3-4
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Original Articles

Calculation of the Detonation Velocity of a Mixture of Liquid Fuel Droplets and a Gaseous Oxidizer

S. A. GUBIN Moscow Engineering Physical Institute, Moscow, USSR
&
M. SICHEL Department of Aerospace Engineering, The University of Michigan, Ann Arbor, Michigan, USA
Pages 109-117 | Received 24 May 1977, Published online: 07 May 2007

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Ariana G. Martinez & Stephen D. Heister. (2022) Wave Structure of Heterogeneous Detonations at High Operating Pressures. Combustion Science and Technology 0:0, pages 1-26.
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S. Cheatham & K. Kailasanath. (2005) Numerical modelling of liquid-fuelled detonations in tubes. Combustion Theory and Modelling 9:1, pages 23-48.
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Articles from other publishers (31)

Marc Salvadori, Achyut Panchal & Suresh Menon. (2023) Numerical Study of Spray Combustion Effects on Detonation Propagation. AIAA Journal, pages 1-18.
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Songbai Yao, Chunhai Guo & Wenwu Zhang. (2023) Effects of droplet evaporation on the flow field of hydrogen-enhanced rotating detonation engines with liquid kerosene. International Journal of Hydrogen Energy 48:85, pages 33335-33345.
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Vidhan Malik, Sheikh Salauddin, Rachel Hytovick, Ral Bielawski, Venkat Raman, John Bennewitz, Jason Burr, Eric Paulson, William Hargus & Kareem Ahmed. (2023) Detonation wave driven by aerosolized liquid RP-2 spray. Proceedings of the Combustion Institute 39:3, pages 2807-2815.
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Anil P. Nair, Alex R. Keller, Nicolas Q. Minesi, Daniel I. Pineda & R. Mitchell Spearrin. (2023) Detonation cell size of liquid hypergolic propellants: Estimation from a non-premixed combustor. Proceedings of the Combustion Institute 39:3, pages 2757-2765.
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Hongtao Zheng, Wanli Zhu, Xiongbin Jia & Ningbo Zhao. (2022) Eulerian–Lagrangian modeling of deflagration to detonation transition in n-decane/oxygen/nitrogen mixtures. Physics of Fluids 34:12.
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H. Kadosh & D. Michaels. (2022) Experimental study of pulse detonation engine with liquid ethanol and oxygen mixtures. Shock Waves 32:4, pages 353-362.
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Nicolas Tricard & Xinyu Zhao. (2022) One dimensional modeling of spray detonations considering loss effects. One dimensional modeling of spray detonations considering loss effects.
Ariana G. Martinez & Stephen D. Heister. (2022) Wave Structure of Heterogeneous Detonations in Rotating Detonation Rocket Engines. Wave Structure of Heterogeneous Detonations in Rotating Detonation Rocket Engines.
Xiongbin Jia, Ningbo Zhao, Shizheng Liu, Xiang Chen, Wanli Zhu & Hongtao Zheng. (2021) Numerical investigation of detonation initiation for low-volatility liquid fuel/air mixtures. Aerospace Science and Technology 113, pages 106690.
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Qingyang Meng, Majie Zhao, Hongtao Zheng & Huangwei Zhang. (2021) Eulerian Lagrangian modelling of rotating detonative combustion in partially pre-vaporized n-heptane sprays with hydrogen addition . Fuel 290, pages 119808.
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Oleksandr G. Girin. (2019) Self-sustained regimes of liquid aerosol detonation. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences 475:2232, pages 20190325.
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V. B. Nguyen, C. J. Teo, P.-H. Chang, J. M. Li & B. C. Khoo. (2019) Numerical investigation of the liquid-fueled pulse detonation engine for different operating conditions. Shock Waves 29:8, pages 1205-1225.
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Vijay Anand & Ephraim Gutmark. (2019) Rotating detonation combustors and their similarities to rocket instabilities. Progress in Energy and Combustion Science 73, pages 182-234.
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S.M. Frolov, V.S. Aksenov, V.S. Ivanov, I.O. Shamshin & A.E. Zangiev. (2019) Air-breathing pulsed detonation thrust module: Numerical simulations and firing tests. Aerospace Science and Technology 89, pages 275-287.
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Van Bo Nguyen, Quoc Thien Phan, Jiun-Ming Li, Boo Cheong Khoo & Chiang Juay Teo. 2019. 31st International Symposium on Shock Waves 2. 31st International Symposium on Shock Waves 2 69 78 .
. 2012. Lees' Loss Prevention in the Process Industries. Lees' Loss Prevention in the Process Industries 3129 3580 .
Fan Zhang. 2009. Shock Wave Science and Technology Reference Library. Shock Wave Science and Technology Reference Library 315 384 .
Fan Zhang. 2009. Shock Wave Science and Technology Reference Library. Shock Wave Science and Technology Reference Library 1 85 .
K. Kailasanath. (2006) Liquid-Fueled Detonations in Tubes. Journal of Propulsion and Power 22:6, pages 1261-1268.
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. 2005. Lees' Loss Prevention in the Process Industries. Lees' Loss Prevention in the Process Industries 151 200 .
K. Kailasanath. (2003) Multiphase Detonations in Pulse Detonation Engines-A Status Report. Multiphase Detonations in Pulse Detonation Engines-A Status Report.
Sally Cheatham & Kazhikathra Kailasanath. (2003) Numerical Simulations of Multiphase Detonations in a Shock Tube. Numerical Simulations of Multiphase Detonations in a Shock Tube.
M. SichelN. A. Tonello, E. S. OranD. A. Jones. (2002) A two–step kinetics model for numerical simulation of explosions and detonations in H 2 –O 2 mixtures . Proceedings of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences 458:2017, pages 49-82.
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. 1993. Dynamic Aspects of Detonations. Dynamic Aspects of Detonations 241 252 .
. (1997) Numerical simulations of detonation transmission. Proceedings of the Royal Society of London. Series A: Mathematical and Physical Sciences 436:1897, pages 267-297.
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. 1991. Numerical Approaches to Combustion Modeling. Numerical Approaches to Combustion Modeling 447 479 .
. 1986. Dynamics of Explosions. Dynamics of Explosions 461 473 .
M. Sichel, S. W. Baek, C. W. Kauffman, B. Maker, J. A. Nicholls & P. Wolanski. (1985) The shock wave ignition of dusts. AIAA Journal 23:9, pages 1374-1380.
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M. SICHEL, S. BAEK, C. KAUFFMAN, B. MAKER, J. NICHOLLS & P. WOLANSKI. (1984) The shock wave ignition of dusts. The shock wave ignition of dusts.
R. Bar-Or, M. Sichel & J.A. Nicholls. (1982) The reaction zone structure of cylindrical detonations in monodisperse sprays. Symposium (International) on Combustion 19:1, pages 665-673.
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R. Bar-Or, M. Sichel & J.A. Nicholls. (1981) The propagation of cylindrical detonations in monodisperse sprays. Symposium (International) on Combustion 18:1, pages 1599-1606.
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