FireDOC Search

displaying 11 - 20 results in total 35

  • Yan, M. M.; Faeth, G. M.
    view article (1.0)

    Analysis of Ignition by Laminar Thermal Plumes.
    Pennsylvania State Univ., University Park
    Combustion Institute/Eastern States Section. Chemical and Physical Processes in Combustion. Technical Meeting, 1982. Co-Hosted by: AeroChem Research Laboratories, Inc. and Princeton University. December 14-16, 1982, Atlantic City, NJ, 31/1-4 p., 1983

  • Pagni, P. J.; Shih, T. M.
    view article (1.0)

    Preliminary Analysis of Excess Pyrolyzate.
    California Univ., Berkeley
    UCB FRG 76-1, January 1976, 6 p.

  • Shelton, J. W.; Graeser, L.
    view article (1.0)

    Investigation of the Effects of Ambient Temperature and Forced Convection on Radiant Stove Efficiency.
    Shelton Energy Research, Santa Fe, NM
    August 1983,
    Wood Heating Educational and Research Foundation, Auburn University and U.S. Department of Energy. Solid Fuel Heating Technology Symposium Proceedings. March 11, 1983, Baltimore, MD, 156-193 p., 1983

  • Ahmadzadeh, J.; Harker, J. H.
    view article (1.0)

    Evaporation From Liquid Droplets in Free Fall. Shorter Communication.
    Transactions of the Institution of Chemical Engineers, Vol. 52, 108-111, 1974

  • Yung, S.
    view article (1.0)

    Asymptotic and Numerical Methods for the Theory of Heterogeneous Ignition.
    Illinois Univ., Chicago
    Thesis, 1973, 196 p.

  • West, J.; Bhattacharjee, S.; Altenkirch, R. A.
    view article (1.0)

    Comparison of the Roles Played by Natural and Forced Convection in Opposed-Flow Flame Spreading.
    San Diego Univ., CA; Mississippi State Univ., Mississippi State
    Combustion Science and Technology, Vol. 83, No. 1-3, 233-244, 1992
    National Aeronautics and Space Administration, Washington, DC,

  • Notardonato, J. J.; Burkhardt, L. A.; Cochran, T. H.
    view article (1.0)

    Effects of Pressure, Oxygen Concentration, and Forced Convection on Flame Spread Rate of Plexiglas, Nylon, and Teflon.
    NASA Lewis Research Center, Cleveland, OH
    National Aeronautics and Space Administration, Washington, DC, NASA TN D-7555, February 1974, 26 p.

  • Sommer, T. P.; So, R. M. C.; Zhang, H. S.
    view article (1.0)

    Heat Transfer Modeling and the Assumption of Zero Wall Temperature Fluctuations.
    Arizona State Univ., Tempe
    Journal of Heat Transfer, Vol. 116, No. 4, 855-863, November 1994
    NASA Langley Research Center, Hampton, VA,

  • Burch, D. M.; Peavy, B. A.
    view article (1.0)

    Transient Temperature Distributions in Heat-Generating Transpiration-Cooled Tubes and Plates.
    National Bureau of Standards, Washington, DC
    Journal of Heat Transfer, Vol. 97, No. 3, 406-410, August 1975
    Paper 75-HT-LL,

  • Rimanosky, E. M.; Janoff, D. D.; Altemir, D.; Pedley, M. D.
    view article (1.0)

    Effects of Configuration, Forced Convection, and Oxygen Concentration on the Flammability Behavior of Electronic Equipment.
    AlliedSignal Technical Services Corp. Team, Las Cruces, NM; Lockheed Engineering and Sciences Co., Houston, TX; NASA Johnson Space Center, Houston, TX
    ASTM STP 1267; ASTM PCN 04-012670-31,
    American Society for Testing and Materials. Flammability and Sensitivity of Materials in Oxygen-Enriched Atmospheres: Seventh (7th) Volume. ASTM STP 1267. Proceedings. March 16-17, 1995, ASTM, Philadelphia, PA, Denver, CO, Janoff, D. D.; Royals, W. T.; Gunaji, M., Editors, 168-183 p., 1995