FireDOC Search

displaying 11 - 18 results in total 18

  • Kogan, V.; Schumacher, P. M.
    view article (1.0)

    Recommended Plutonium Release Fractions From Postulated Fires. Final Report.
    Battelle, Columbus, OH
    ['Final Report', 'RFP-4876']
    EG&G Rocky Flats, Inc., Golden, CO, Final Report; RFP-4876
    December 1993
    104 p.

  • Sacksteder, K. R.; Tien, J. S.
    view article (1.0)

    Buoyant Downward Diffusion Flame Spread and Extinction in Partial-Gravity Accelerations.
    NASA Lewis Research Center, Cleveland, OH; Case Western Reserve Univ., Cleveland, OH
    National Aeronautics and Space Administration, Washington, DC,
    Combustion Institute. Symposium (International) on Combustion, 25th. Proceedings. July 31-August 5, 1994, Combustion Institute, Pittsburgh, PA, Irvine, CA, 1685-1692 p., 1994

  • Matthews, J. W.; Blackshear, P. L., Jr.
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    Influence of Inorganic Impurity, Specimen Size, and Heating Rate on the Thermal Decomposition of Macroscopic Cellulosic Fuel Cylinders.
    University of Minnesota, Minneapolis
    Office of Civil Defense, Washington, DC,
    November 9, 1969
    University of Minnesota. Fire Research: A Collection of Papers Representing Research Completed During the Year Ending October 15, 1969. Summary of Combustion Laboratory Technical Report No. 7. Final Report. Part 3. November 9, 1969, 96-139 p., 1969

  • Olson, S. L.; Kashiwagi, T.
    view article (1.0)

    Three Dimensional Radiative Ignition and Flame Spread Over Thin Cellulose Fuels.
    NASA Lewis Research Center, Cleveland, OH; National Institute of Standards and Technology, Gaithersburg, MD
    NISTIR 6242
    NISTIR 6242
    October 1998
    National Institute of Standards and Technology. Annual Conference on Fire Research: Book of Abstracts. November 2-5, 1998, Gaithersburg, MD, Beall, K. A., Editors, 67-68 p., 1998

  • Olson, S. L.; Kashiwagi, T.; Fujita, O.; Kikuchi, M.; Ito, K.
    view article (1.0)

    Experimental Observations of Spot Radiative Ignition and Subsequent Three-Dimensional Flame Spread Over Thin Cellulose Fuels.
    NASA John H. Glenn Research Center at Lewis Field, Cleveland, OH; National Institute of Standards and Technology, Gaithersburg, MD; Hokkaido Univ., Japan
    Combustion and Flame, Vol. 125, No. 1/2, 852-864, April 2001
    National Aeronautics and Space Administration, Washington, DC,

  • Hurley, M. J.
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    Predicting Fire Exposures to Structures.
    Society of Fire Protection Engineers, Bethesda, MD
    Reaching New Horizons. Performance-Based Codes and Fire Safety Design Methods, 6th International Conference. Proceedings. June 14-16, 2006, Tokyo, Japan, Evans, D. D.; Gordon, J.; Hasemi, Y.; Sekizawa, A., Editors, 1-11 p., 2006

  • Pitts, W. M.
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    Ignition of Cellulosic Fuels by Heated and Radiative Surfaces.
    National Institute of Standards and Technology, Gaithersburg, MD
    ['NIST Technical Note 1481', 'NIST TN 1481']
    NIST Technical Note 1481; NIST TN 1481
    March 2007
    105 p.

  • Olson, S. L.; Miller, F. J.
    view article (1.0)

    Experimental Comparison of Opposed and Concurrent Flame Spread in a Forced Convective Microgravity Environment.
    NASA John H. Glenn Research Center at Lewis Field, Cleveland, OH; San Diego State Univ., CA
    ['Volume 32', 'Part 2']
    Volume 32; Part 2
    Combustion Institute, Symposium (International) on Combustion, 32nd. Proceedings. Volume 32. Part 2. August 3-8, 2008, Combustion Institute, Pittsburgh, PA, Montreal, Canada, Dagaut, P.; Sick, V., Editors, 2445-2452 p., 2009