FireDOC Search

displaying 1931 - 1940 results in total 5659

  • Smyth, K. C.; Tjossem, P. J. H.
    view article (1.0)

    Relative H-Atom and O-Atom Concentration Measurements in a Laminar, Methane/Air Diffusion Flame.
    National Institute of Standards and Technology, Gaithersburg, MD
    Combustion Institute, Symposium (International) on Combustion, 23rd. July 22-27, 1990, Combustion Institute, Pittsburgh, PA, Orleans, France, 1829-1837 p., 1991

  • Markham, J. R.; Zhang, Y. P.; Carangelo, R. M.; Solomon, P. R.
    view article (1.0)

    FT-IR Emission/Transmission Tomography of a Coal Flame.
    Advanced Fuel Research, Inc., East Hartford, CT
    Combustion Institute, Symposium (International) on Combustion, 23rd. July 22-27, 1990, Combustion Institute, Pittsburgh, PA, Orleans, France, 1869-1875 p., 1991

  • Mitchell, J. B. A.; Janssen, E.
    view article (1.0)

    Use of Additives for Smoke Reduction From Burning Pool Fires.
    University of Western Ontario, London, Canada
    ['NIST SP 995', 'Volume 2']
    NIST SP 995; Volume 2
    March 2003
    Environment Canada. Arctic and Marine Oilspill Program Technical Seminar, 14th. June 12-14, 1991, Environment Canada, Ottawa, Ontario, Vancouver, B.C., 391-397 p., ['1991', '2003']

  • Suzuki, H.
    view article (1.0)

    Characterization of Factors in Estimating Fire Hazard by Furnace Test Based on Patterns in the Simulation of Fire for the Classification of Organic Interior Building Materials. Part 1. Checks on the Factors in Estimating Fire Hazard of Several Organic Building Materials.
    Science University of Tokyo, Japan
    Nihon Kasaigakkai Renbunshu, Vol. 21, No. 1, 1-8, 1971

  • Handa, T.
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    Characterization of the Mode ofCombustion and Smoke Evolution of Organic Materials in Fires. Part 2. Analysis of the Change in Particle-Size of Polystyrene Smoke Particles Due to Secondary Oxidation.
    Science University of Tokyo, Japan
    Nihon Kasaigakkai Renbunshu, Vol. 21, No. 2, 33-38, 1972

  • Handa, T.
    view article (1.0)

    Characterization of Factors in Estimating Fire Hazard by Furnace Test Based on Patterns in the Simulation of Fire for the Classification of Organic Interior Building Materials. Part 2. Checks on Factors Concerning the Surface Flame-Spread Rate and Smoke-Evolution of Organic Building Materials by Small Inclined-Type Test Furnace.
    Science University of Tokyo, Japan
    Nihon Kasaigakkai Renbunshu, Vol. 21, No. 1, 25-32, 1971

  • Celmins, A.
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    Solid Propellant Burning Rate Measurement in a Closed Bomb.
    Army Ballistic Research Lab., Aberdeen Proving Ground, MD
    Combustion and Flame, Vol. 23, 381-397, 1974

  • Bunker, D. L.; Garrett, B.; Kleindienst, T.; Long, G. S., III
    view article (1.0)

    Discrete Simulation Methods in Combustion Kinetics.
    California Univ., Irvine
    Combustion and Flame, Vol. 23, 373-379, 1974

  • vanDolah, R. W.; Zabetakis, M. G.; Burgess, D. S.; Scott, G. S.
    view article (1.0)

    Review of Fire and Explosion Hazards of Flight Vehicle Combustibles. Technical Report.
    Bureau of Mines, Pittsburgh, PA
    ASD-TR-61-278
    Air Force, Wright-Patterson AFB, OH, ASD-TR-61-278
    October 1961
    104 p.

  • Handa, T.; Okada, K.; Suzuki, H.; Ebihara, N.; Takahashi, A.; Nagashima, T.; Gotoda, M.; Saito, M.
    view article (1.0)

    Combustion Characteristics and the Smoking Behavior of Fire Retarded Materials.
    Science University of Tokyo, Japan; Building Research Institute, Tokyo, Japan; Japan Atomic Energy Research Inst., Osaka, Japan; Toshiba Research Development Center, Kanagawa, Japan; Adachi Plywood Co., Ltd., Tokyo, Japan
    Japanese Association of Fire Science and Engineering. Main Reports on Production Movement and Control of Smoke in Buildings. Occasional Report. No. 1. 1974, 37-71 p., 1974