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Combustion Science and Technology Volume 103, 1994 - Issue 1-6
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Original Articles

SHORT COMMUNICATION High Pressure Oxidation of Liquid Fuels from Low to High Temperature. 3.n-Decane

P. DAGAUT C.N.R.S. Laboratoire de Combustion et Systémes Réactifs, 1C, Avenue de la Recherche Scientifique, Orléans, Cedex2, 45071, France
,
M. REUILLON C.N.R.S. Laboratoire de Combustion et Systémes Réactifs, 1C, Avenue de la Recherche Scientifique, Orléans, Cedex2, 45071, France
&
M. CATHONNET C.N.R.S. Laboratoire de Combustion et Systémes Réactifs, 1C, Avenue de la Recherche Scientifique, Orléans, Cedex2, 45071, France
Pages 349-359 | Received 07 Feb 1994, Accepted 25 Jul 1994, Published online: 17 Apr 2007

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GLADYS MORÉAC, EDWARDS. BLUROCK & FABIAN MAUSS. (2006) AUTOMATIC GENERATION OF A DETAILED MECHANISM FOR THE OXIDATION OF n-DECANE. Combustion Science and Technology 178:10-11, pages 2025-2038.
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. 2001. Scramjet Propulsion. Scramjet Propulsion 757 822 .
F. Battin-Leclerc, R. Fournet, P.A. Glaude, B. Judenherc, V. Warth, G.M. Côme & G. Scacchi. (2000) Modeling of the gas-phase oxidation of n-decane from 550 to 1600 K. Proceedings of the Combustion Institute 28:2, pages 1597-1605.
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