FireDOC Search

displaying 391 - 400 results in total 471

  • Bennett, B. A. V.; Cheng, Z.; Pitz, R. W.; Smooke, M. D.
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    Computational and Experimental Study of Oxygen-Enhanced Axisymmetric Laminar Methane Flames.
    Yale Univ., New Haven, CT; Vanderbilt University, Nashville, TN
    Combustion Theory and Modelling, Vol. 12, No. 3, 497-527, June 2008

  • Chaudhuri, S.; Cetegen, B. M.
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    Blowoff Characteristics of Bluff-Body Stabilized Conical Premixed Flames With Upstream Spatial Mixture Gradients and Velocity Oscillations.
    Connecticut Univ., Storrs
    Combustion and Flame, Vol. 153, No. 4, 616-633, June 2008

  • Wieske, P.; Grunefeld, G.
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    Experimental Investigation of the Extinction of Curved Laminar Diffusion Flames. Brief Communication.
    Lehr- und Forschungsgebiet Laser-Messverfahren in der Thermofluiddynamik (LTFD), Aachen, Germany
    Combustion and Flame, Vol. 153, No. 4, 647-649, June 2008

  • Oka, Y.; Sugawa, O.; Imamura, T.
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    Correlation of Temperature Rise and Velocity Along an Inclined Fire Plume Axis in Crosswinds.
    Yokohama National Univ., Japan; Tokyo University of Science, Suwa, 5000-1 Toyohira, Chino 391-0282, Japan
    Fire Safety Journal, Vol. 43, No. 6, 391-400, August 2008

  • Kostka, S., Jr.; Carnell, W. F., Jr.; Renfro, M. W.
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    Propagating Edge-Flame Response to Multiple Stoichiometry Gradients.
    Connecticut Univ., Storrs
    Combustion and Flame, Vol. 154, No. 1/2, 82-95, 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

  • Szego, G. G.; Dally, B. B.; Nathan, G. J.
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    Scaling of NOx Emissions From a Laboratory-Scale Mild Combustion Furnace.
    Adelaide Univ., South Australia 5005, Australia
    Combustion and Flame, Vol. 154, No. 1/2, 281-295, July 2008

  • Krishnan, S. S.; Abshire, J. M.; Sunderland, P. G.; Yuan, Z. G.; Gore, J. P.
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    Analytical Predictions of Shapes of Laminar Diffusion Flames in Microgravity and Earth Gravity.
    Indiana University-Purdue University Indianapolis, IN; Lockheed Martin Corp., Manassas, VA; Maryland Univ., College Park; NASA John H. Glenn Research Center at Lewis Field, Cleveland, OH; Purdue Univ., West Lafayette, IN
    Combustion Theory and Modelling, Vol. 12, No. 4, 605-620, August 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

  • Liu, S.; Fotache, C. G.; Chao, B. H.; Hautman, D. J.; Ochs, S. S.
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    Boundary Layer Modeling of Reactive Flow Over a Porous Surface With Angled Injection.
    United Technologies Research Center, East Hartford, CT; University of Hawaii at Manoa, Honolulu
    Combustion and Flame, Vol. 154, No. 3, 378-386, August 2008