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  • McDermott, R. J.
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    FDS Wall Flows. Part 1: Straight Channels.
    National Institute of Standards and Technology, Gaithersburg, MD
    NIST Technical Note 1640; NIST TN 1640, July 2009, 18 p.

  • Raghavan, V.; Rangwala, A. S.; Torero, J. L.
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    Laminar Flame Propagation on a Horizontal Fuel Surface: Verification of Classical Emmons Solution.
    Indian Institute of Technology Madras, Chennai, India; Worcester Polytechnic Inst., MA; Edinburgh Univ., Scotland
    Combustion Theory and Modelling, Vol. 13, No. 1, 121-141, February 2009

  • Coppola, G.; Coriton, B.; Gomez, A.
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    Highly Turbulent Counterflow Flames: A Laboratory Scale Benchmark for Practical Systems.
    Yale Univ., New Haven, CT
    Combustion and Flame, Vol. 156, No. 9, 1834-1843, September 2009

  • Barve, V. V.; Ezekoye, O. A.; Clemens, N. T.
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    Soot Reduction in Strongly Forced Lifted CH4-Air Laminar Flames.
    Siemens Energy Inc., Orlando, FL; University of Texas, Austin
    Combustion Theory and Modelling, Vol. 13, No. 4, 671-703, August 2009

  • Barlow, R. S.; Ozarovsky, H. C.; Karpetis, A. N.; Lindstedt, R. P.
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    Piloted Jet Flames of CH4/H2air: Experiments on Localized Extinction in the Near Field at High Reynolds Numbers.
    Sandia National Laboratories, Livermore, CA; Imperial College London, Exhibition Road, London SW7-2AZ, UK; Texas A&M University, College Station, TX
    Combustion and Flame, Vol. 156, No. 11, 2117-2128, November 2009

  • Sen, B. A.; Menon, S.
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    Linear Eddy Mixing Based Tabulation and Artificial Neural Networks for Large Eddy Simulations of Turbulent Flames.
    Georgia Institute of Technology, Atlanta
    Combustion and Flame, Vol. 157, No. 1, 62-74, January 2010

  • Vervisch, L.; omingo, P.; Lodatao, G.; Veynante, D.
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    Scalar Energy Fluctuations in Large-Eddy Simulation of Turbulent Flames: StatisticalBudgets and Mesh Quality Criterion.
    CORIA - CNRS and INSA de Rouen, 76801 Saint-Etienne-du-Rouvray, France; EM2C - CNRS and Ecole Centrale Paris, 92295 Châtenay-Malabry, France
    Combustion and Flame, Vol. 157, No. 4, 778-789, April 2010

  • Wu, G.; Sirignano, W. A.
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    Transient Burning of a Convective Fuel Droplet.
    California Univ., Irvine
    Combustion and Flame, Vol. 157, No. 5, 970-981, May 2010

  • Mehta, R. S.; Haworth, D. C.; Modest, M. F.
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    Composition PDF/Photon Monte Carlo Modeling of Moderately Sooting Turbulent Jet Flames.
    Pennsylvania State Univ., University Park
    Combustion and Flame, Vol. 157, No. 5, 982-994, May 2010

  • Valiev, D.; Bychkov, V.; Akkerman, V.; Law, C. K.; Eriksson, L. E.
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    Flame Acceleration in Channels With Obstacles in the Deflagration-to-Detonation Transition.
    Umea University, 901 87 Umea, Sweden; Princeton Univ., NJ; Chalmers University of Technology, 412 96 Gothenburg, Sweden
    Combustion and Flame, Vol. 157, No. 5, 1012-1021, May 2010