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displaying 521 - 530 results in total 587

  • Machrafi, H.; Cavadias, S.
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    Three-Stage Autoignition of Gasoline in an HCCI Engine: An Experimental and Chemical Kinetic Modeling Investigation.
    UPMC Université Paris 06, LGPPTS, Ecole Nationale Supérieure de Chimie de Paris, France; UPMC Université Paris 06, Institut Jean Le Rond D'Alembert, France
    Combustion and Flame, Vol. 155, No. 4, 557-570, December 2008

  • He, K.; Ierapetritou, M. G.; Androulakis, I. P.
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    Graph-Based Approach to Developing Adaptive Representations of Complex Reaction Mechanisms.
    Rutgers, The State University of New Jersey, Piscataway, NJ
    Combustion and Flame, Vol. 155, No. 4, 585-604, December 2008

  • Watson, K. W.; Pantoya, M. L.; Levitas, V. I.
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    Fast Reactions With Nano- and Micrometer Aluminum: A Study on Oxidation Versus Fluorination.
    Texas Tech Univ., Lubbock, TX
    Combustion and Flame, Vol. 155, No. 4, 619-634, December 2008

  • Gail, S.; Sarathy, S. M.; Thomas, M. J.; Dievart, P.; Dagaut, P.
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    Experimental and Chemical Kinetic Modeling Study of Small Methyl Esters Oxidation: Methyl (E)-2-butenoate and Methyl Butanoate.
    Toronto Univ., Toronto, ON M5S 3G8, Canada; CNRS, 1C, Ave de la Recherche Scientifique, 45071 Orléans Cedex 2, France
    Combustion and Flame, Vol. 155, No. 4, 635-650, December 2008

  • Andrae, J. C. G.; Brinck, T.; Kalghatgi, G. T.
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    HCCI Experiments With Toluene Reference Fuels Modeled by a Semidetailed Chemical Kinetic Model.
    Royal Institute of Technology (KTH), SE-100 44 Stockholm, Sweden; Shell Global Solutions (UK), P.O. Box 1, Chester CH1 3SH, UK
    Combustion and Flame, Vol. 155, No. 4, 696-712, December 2008

  • Ra, Y.; Reitz, R. D.
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    Reduced Chemical Kinetic Model for IC Engine Combustion Simulations With Primary Reference Fuels.
    Wisconsin-Madison Univ., Madison,
    Combustion and Flame, Vol. 155, No. 4, 713-738, December 2008

  • Mehl, M.; Vanhove, G.; Pitz, W. J.; Ranzi, E.
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    Oxidation and Combustion of the n-Hexene Isomers: A Wide Range Kinetic Modeling Study.
    Lawrence Livermore National Laboratory, Livermore, CA; Physico-Chimie des Processus de Combustion et de l'Atmosphère (PC2A), UST Lille 1, Villeneuve d'Ascq Cedex, France; Politecnico di Milano, Milano, Italy
    Combustion and Flame, Vol. 155, No. 4, 756-772, December 2008

  • Huang, Y.; Risha, G. A.; Yang, V.; Yetter, R. A.
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    Effect of Particle Size on Combustion of Aluminum Particle Dust in Air.
    Pennsylvania State University, University Park
    Combustion and Flame, Vol. 156, No. 1, 5-13, January 2009

  • Ma, L.; Mitgchell, R.
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    Modeling Char Oxidation Behavior Under Zone II Burning Conditions at Elevated Pressures.
    Stanford Univ., CA
    Combustion and Flame, Vol. 156, No. 1, 37-50, January 2009

  • Westbrook, C. K.; Pitz, W. J.; Herbinet, O.; Curran, H. J.; Silke, E. J.
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    Comprehsnsive Detailed Chemical Kinetic Reaction Mechanism for combustion of n-Alkane Hydrocarbons From n-Octane to n-Hexadecane.
    Lawrence Livermore National Laboratory, Livermore, CA; University College of Ireland, Galway, Ireland
    Combustion and Flame, Vol. 156, No. 1, 181-199, January 2009