FireDOC Search

displaying 31 - 40 results in total 120

  • Nielsen, H. J.; Tao, L.; Wolf, L.
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    Analysis of Convection Column Above a Fire Storm. Final Report.
    IIT Research Inst., Chicago, IL
    IIT RI Project A6004
    Office of Civil Defense, Washington, DC, IIT RI Project A6004
    April 1, 1963
    72 p.

  • Emmons, H. W.
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    Ceiling Jet in Fires.
    Harvard Univ., Cambridge, MA
    International Association for Fire Safety Science. Fire Safety Science. Proceedings. 3rd International Symposium. July 8-12, 1991, Elsevier Applied Science, New York, Edinburgh, Scotland, Cox, G.; Langford, B., Editors, 249-260 p., 1991

  • Sugawa, O.; Sathoh, H.; Oka, Y.
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    Flame Height From Rectangular Fire Sources Considering Mixing Factor.
    Science University of Tokyo, Chiba, Japan; Kajima Institute of Construction Technology, Tokyo, Japan
    International Association for Fire Safety Science. Fire Safety Science. Proceedings. 3rd International Symposium. July 8-12, 1991, Elsevier Applied Science, New York, Edinburgh, Scotland, Cox, G.; Langford, B., Editors, 435-444 p., 1991

  • Wharton, R. K.
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    Comment on "Horizontal Burn Test at Different Oxygen Levels".
    Health and Safety Executive, Buxton, UK
    Journal of Fire Sciences, Vol. 10, No. 3, 183-186, May/June 1992

  • Tsang, W.; Macek, A.; Domalski, E.; Walker, J. A.; Charagundla, S. R.; Colbert, J. C.; Kirklin, D. R.; Ledford, A. E., Jr.; Decker, P. H.; Ryan, R. V.
    view article (1.0)

    Combustion Characteristics of Refuse Derived Fuels. Final Report.
    National Bureau of Standards, Washington, DC
    Final Report
    Department of Energy, Washington, DC, Final Report
    1985
    205 p.

  • Mowrer, F. W.
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    Closed-Form Estimate of Fire-Induced Ventilation Through Single Rectangular Wall Openings.
    Maryland Univ., College Park
    Journal of Fire Protection Engineering, Vol. 4, No. 3, 105-116, 1992

  • Thomas, P. H.
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    Smoke Flow in Buildings: Entrainment Around the Corner (Hydraulic Model).
    Lund Univ., Sweden
    LUTVDG/TVBB-3067-SE
    Swedish Fire Research Board, Stockholm, Sweden, LUTVDG/TVBB-3067-SE
    June 1992
    21 p.

  • Pivovarov, M. A.; Zhang, H.; Ramaker, D. E.; Tatem, P. A.; Williams, F. W.
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    Similarity Solutions in Bouoyance-Controlled Turbulent Diffusion Flame Modeling (Turbulent Buoyant Diffusion Flame Modeling).
    George Washington Univ., Washington, DC; Naval Research Laboratory, Washington, DC
    Combustion and Flame, Vol. 92, No. 3, 308-319, February 1993

  • Gupta, A. K.
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    Fire Plume: Theories and Their Analysis.
    Central Building Research Institute, Roorkee, India
    Journal of Applied Fire Science, Vol. 2, No. 4, 269-298, 1992-1993

  • Zhang, X.; Ghoniem, A. F.
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    Computational Model for the Rise and Dispersion of Wind-Blown, Buoyancy-Driven Plumes. Part 2. Linearly Stratified Atmosphere.
    Massachusetts Institute of Technology, Cambridge
    NIST GCR 93-637
    National Institute of Standards and Technology, Gaithersburg, MD, NIST GCR 93-637
    December 1993
    47 p.