FireDOC Search

displaying 31 - 40 results in total 120

  • Sapko, M. J.; Furno, A. L.; Kuchta, J. M.
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    Flame and Pressure Development of Large-Scale CH4-Air-N2 Explosions. Buoyancy Effects and Venting Requirements.
    Bureau of Mines, Pittsburgh, PA
    RI 8176, 1976, 36 p.

  • Briggs, G. A.
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    Plume Rise and Buoyancy Effects.
    National Oceanic and Atmospheric Admin., Oak Ridge, TN
    Chapter 8; DOE/TIC-27601,
    Atmospheric Science and Power Production, Department of Energy, Oak Ridge, TN, Randerson, D., Editors, 327-366 p., 1984

  • Doria, M. L.
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    Numerical Model for the Prediciton of Two Dimensional Unsteady Flows of Multicomponent Gases With Strong Buoyancy Effects and Recirculation.
    Notre Dame Univ., IN
    TR 37191-74-4, November 12, 1974, 50 p.

  • Kandola, B. S.
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    Effects of Atmospheric Wind on Flows Through Natural Convection Roof Vents.
    AEA Technologies, Warrington, UK
    Fire Technology, Vol. 26, No. 2, 106-120, May 1990

  • Jones, W. W.
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    Effect of Buoyancy on the Thermal Ignition of Carbon Monoxide.
    National Bureau of Standards, Washington, DC
    American Chemical Society. Supercomputers in Chemistry. ACS National Meeting, 180th. ACS Symposium Series 173. Cosponsored by the ACS Divisions of Computers in Chemistry and Physical Chemistry and the U.S. National Resource for Computation in Chemistry at the Second Chemical Congress of the North American Continent. August 26-27, 1980, Las Vegas, NV, Lykos, P.; Shavitt, I., Editors, 89-107 p., 1980

  • Davis, R. W.; Moore, E. F.; Santoro, R. J.; Ness, J. R.
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    Isolation of Buoyancy Effects in Jet Diffusion Flame Experiments. Short Communication.
    National Institute of Standards and Technology, Gaithersburg, MD; Pennsylvania State Univ., University Park
    Combustion Science and Technology, Vol. 73, No. 4-6, 625-635, 1990

  • Newhall, J. L.; Fernandez-Pello, A. C.; Pagni, P. J.
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    Experimental Observations of the Effect of Pressure and Buoyancy on Cellulose Co-Current Smoldering.
    California Univ., Berkeley
    Fire and Materials, Vol. 14, No. 4, 145-150, 1989

  • Rimen, J.
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    Partially Inherent Buoyancy Lifejacket for Use With BA.
    Fire Experiment Unit, Moreton-in-Marsh, UK
    Fire Research News, Vol. 13, 9-10, Spring 1991

  • Kapoor, K.; Jaluria, Y.
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    Mixed Convection Flow Due to a Buoyant Wall Jet Turning Downward at a Corner.
    Rutgers, State University of New Jersey, New Brunswick
    National Institute of Standards and Technology, Gaithersburg, MD,
    American Society of Mechanical Engineers (ASME). National Heat Transfer Conference, 28th. Mixed Convection Heat Transfer, 1991. HTD-Vol. 163. July 28-31, 1991, Am. Soc. of Mechanical Engineers, New York, NY, Minneapolis, MN, Pepper, D. W.; Armaly, B. F.; Ebadian, M. A.; Oosthuizen, P. H., Editors, 119-128 p., 1991

  • Zhou, L.; Fernandez-Pello, A. C.
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    Turbulent, Concurrent, Ceiling Flame Spread: The Effect of Buoyancy.
    California Univ., Berkeley
    Combustion and Flame, Vol. 92, No. 1-2, 45-59, 1993
    National Institute of Standards and Technology, Gaithersburg, MD,