FireDOC Search

displaying 671 - 680 results in total 935

  • Dober, G. G.; Watson, H. C.
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    Wall Sub-Model in KIVA3 for the Prediction of Transient Exhaust HC Concentrations.
    Melbourne Univ., VIC 3010, Australia
    Combustion Theory and Modelling, Vol. 11, No. 2, 165-185, April 2007

  • Massingberd-Mundy, P.
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    Predicting the Unpredictable?
    Vision Fire and Security
    International Fire Protection (IFP) Magazine, No. 28, 49-53, November 2006

  • Arora, R. K.
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    Evolution of U.S. Fire Alarm Systems.
    Arora Engineers Inc., Woodbridge, NJ
    Consulting-Specifying Engineer, Vol. 41, No. 4, 39-40,42,44, April 2007

  • Li, J.; Chow, W. K.
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    Numerical Simulations on Aerodynamics of Thermally Induced Plumes.
    Beijing University of Technology, China; Hong Kong Polytechnic Univ., Kowloon, Hong Kong, China
    Journal of Fire Sciences, Vol. 25, No. 2, 119-160, March 2007

  • Horvat, A.; Sinai, Y.
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    Numerical Simulation of Backdraft Phenomena.
    ANSYS Europe Ltd., OX14 4SA Abingdon, Oxfordshire, UK
    Fire Safety Journal, Vol. 42, No. 3, 200-209, April 2007

  • Kang, K.
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    Smoke Model and Its Application for Smoke Management in an Underground Mass Transit Station.
    Hatch Mott MacDonald, New York, NY
    Fire Safety Journal, Vol. 42, No. 3, 218-231, April 2007

  • Gobeau, N.
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    Evaluation of CFD Methods for Predicting Smoke Movement in Enclosed Spaces.
    Health and Safety Laboratory, Buxton, UK
    Fire Protection Engineering, No. 34, 22-24,26,28,32, Spring 2007

  • Lowndes, I. S.; Silvester, S. A.; Giddings, D.; Pickering, S.; Hassan, A.; Lester, E.
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    Computational Modeling of Flame Spread Along a Converyor Belt.
    Nottingham Univ., UK
    Fire Safety Journal, Vol. 42, No. 1, 51-67, February 2007

  • Wen, J. X.; Kang, K.; Donchev, T.; Karwatzki, J. M.
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    Validation of FDS for the Prediction of Medium-Scale Pool Fires.
    Kingston Univ., London, England
    Fire Safety Journal, Vol. 42, No. 2, 127-138, March 2007

  • Adiga, K. C.; Hatcher, R. F., Jr.; Sheinson, R. S.; Williams, F. W.; Ayers, S.
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    Computational and Experimental Study of Ultra Fine Water Mist as a Total Flooding Agent.
    NanoMist Systems, Warner Robins, GA; Naval Research Laboratory, Washington, DC; Geo-Centers, Inc., Chesapeake Beach, MD
    Fire Safety Journal, Vol. 42, No. 2, 150-160, March 2007