FireDOC Search

displaying 81 - 90 results in total 357

• Guelzim, A.; Souil, J. M.; Vantelon, J. P.; Borner, J. P.
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  Flame Radiation From Pool Fires Tilted by Wind.
  Universite de Poitiers, France; Electricite de France, Chatou
  Interscience Communications Ltd.; National Institute of Standards and Technology; Building Research Establishment; and Society of Fire Protection Engineers. Interflam 1993. (Interflam '93). Fire Safety. International Fire Conference, 6th. March 30-April 1, 1993, Interscience Communications Ltd., London, England, Oxford, England, Franks, C. A., Editors, 121-131 p., 1993

• Bech, C.; Svenum, P.; Buist, I.
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  Effect of Wind, Ice and Waves on the In-Situ Burning of Emulsions and Aged Oils.
  SINTEF Applied Chemistry, Trondheim, Norway; S.L. Ross Environmental Research Ltd., Ottawa, Canada
  ['NIST SP 995', 'Volume 2']
  NIST SP 995; Volume 2
  March 2003
  Environment Canada. Arctic and Marine Oil Spill Program Technical Seminar, 16th. Volume 2. June 7-9, 1993, Environment Canada, Ottawa, Ontario, Edmonton, Alberta, Canada, 735-748 p., ['1993', '2003']

• Whalen, T. M.; Simiu, E.; Harris, G.; Lin, J.; Surry, D.
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  Use of Aerodynamic Databases for the Effective Estimation of Wind Effects in Main Wind-Force Resisting Systems: Application to Low Buildings.
  National Institute of Standards and Technology, Gaithersburg, MD; CECO Building Systems, Columbia, MS; University of Western Ontario, Canada
  Journal of Wind Engineering and Industrial Aerodynamics, Vol. 77-78, 685-693, 1998

• Ohlemiller, T. J.; Corley, D. M.
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  Heat Release Rate and Induced Wind Field in a Large Scale Fire.
  National Institute of Standards and Technology, Gaithersburg, MD
  Combustion Science and Technology, Vol. 97, 315-330, 1994
  Defense Nuclear Agency, Alexandria, VA,

• Hirano, T.; Suzuki, T.
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  Flame Propagation Across Liquids: A Review of Gas Phase Phenomena.
  Tokyo Univ., Japan; Ibaraki Univ., Japan
  Fire Safety Journal, Vol. 21, No. 3, 207-229, 1993

• McCaughey, M. M.; Fletcher, D. F.
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  Calculations of the Wind-Induced Pressure Distribution on a Model Building.
  SRD, AEA Technology, UK
  Fire Safety Journal, Vol. 21, No. 3, 189-205, 1993

• Pagni, P. J.
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  Causes of the 20 October 1991 Oakland Hills Conflagration. Short Communication.
  California Univ., Berkeley
  Fire Safety Journal, Vol. 21, No. 4, 331-339, 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.

• Sentinel
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  Proper Wall Construction Can Blunt Wind Damage.
  Sentinel, Vol. 50, No. 4, 9, Fourth Quarter 1993

• Trelles, J. J.; Pagni, P. J.
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  Practical Scheme for Calculating the Fire-Induced Winds in the October 20, 1991 Oakland Hills Fire.
  California Univ., Berkeley
  National Institute of Standards and Technology, Gaithersburg, MD,
  U.S./Japan Government Cooperative Program on Natural Resources (UJNR). Fire Research and Safety. 12th Joint Panel Meeting. October 27-November 2, 1992, Building Research Inst., Ibaraki, Japan Fire Research Inst., Tokyo, Japan, ['Tsukuba, Japan', 'Tokyo, Japan'], 297-305 p., 1992