FireDOC Search

displaying 481 - 490 results in total 571

  • Lockett, R. D.; Woolley, R.
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    Instabilities and Soot Formation in High-Pressure, Rich, Iso-Octane-Air Explosion Flames. Part 1. Dynamical Structure.
    City Univ., Northampton Square, London, England; Sheffield Univ., UK
    Combustion and Flame, Vol. 151, No. 4, 601-622, December 2007

  • Hoshino, T.; Iwata, Y.; Koseki, H.
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    Oxidation Stability and Risk Evaluation of Biodiesel.
    Thermal Science: International Scientific Journal, Vol. 11, No. 17, 87-100, 2007

  • Tripathi, D. D.
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    New Approaches for Increasing the Incubation Period of Spontaneous Combustion of Coal in an Underground Mine Panel.
    Central Institute of Mining and Fuel Research, Dhanbad, 826001, India
    Fire Technology, Vol. 44, No. 2, 185-198, June 2008

  • Campbell, P. A.; Mitchell, R. E.
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    Impact of the Distributions of Surface Oxides and Their Migration on Characterization of the Heterogeneous Carbon-Oxygen Reaction.
    University of Technology, Jamaica, Kingston 6, Jamaica; Stanford Univ., CA
    Combustion and Flame, Vol. 154, No. 1/2, 47-66, July 2008

  • Kim, K. B.; Masiello, K. A.; Hahn, D. W.
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    Reduction of Soot Emissions by Iron Pentacarbonly in Isooctane Diffusion Flames.
    Florida Univ., Gainesville
    Combustion and Flame, Vol. 154, No. 1/2, 164-180, July 2008

  • Dixon, M. J.; Schoegl, I.; Hull, C. B.; Ellzey, J. L.
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    Experimental and Numerical Conversion of Liquid Heptane to Syngas Through Combustion in Porous Media.
    University of Texas, Austin
    Combustion and Flame, Vol. 154, No. 1/2, 217-231, July 2008

  • Yamada, H.; Suzaki, K.; Tezaki, A.; Goto, Y.
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    Transition From Cool Flame to Thermal Flame in Compression Ignition Process.
    National Traffic Safety and Environment Laboratory, 7-42-27 Jindaiji-Higashimachi, Chofu, Tokyo 182-0012, Japan; Toyama Univ., Gofuku 3190, Toyama-shi, Toyama 930-8555, Japan
    Combustion and Flame, Vol. 154, No. 1/2, 248-258, July 2008

  • Zhang, Q.; Guo, H.; Liu, F.; Smallwood, G. J.; Thomson, M. J.
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    Implementation of an Advanced Fixed Sectional Aerosol Dynamics Model With Soot Aggregate Formation in a Laminar Methane/Air Coflow Diffusion Flame.
    Toronto Univ., Ontario; National Research Council of Canada, Ottawa, Ontario
    Combustion Theory and Modelling, Vol. 12, No. 4, 621-641, August 2008

  • Leroy, V.; Leoni, E.; Santoni, P. A.
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    Reduced Mechanism for the Combustion of Evolved Gases in Forest Fires.
    University of Corsica, 20250 Corte, France
    Combustion and Flame, Vol. 154, No. 3, 410-433, August 2008

  • Nowak, L.; Guibert, P.; Cavadias, S.; Dupre, S.; Momique, J. C.
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    Methodology Development of a Time-Resolved In-Cylinder Fuel Oxidation Analysis: Homogeneous Charge Compression Ignition Combustion Study Application.
    Université de Pierre et Marie Curie, 78210 Saint Cyr l'Ecole, France; PSA Peugeot Citroën, Centre Technique de Vélizy, Route de Gizy, 78943 Vélizy-Villacoublay, France
    Combustion and Flame, Vol. 154, No. 3, 462-472, August 2008