FireDOC Search

displaying 1 - 10 results in total 27

  • Cooper, L. Y.
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    Model for Predicting the Generation Rate and Distribution of Products of Combustion in Two-Layer Fire Environments.
    National Institute of Standards and Technology, Gaithersburg, MD
    NISTIR 4403
    NISTIR 4403
    September 1990
    53 p.
    American Society of Mechanical Engineers (ASME). Heat and Mass Transfer in Fire and Combustion Systems. ASME HTD Vol. 176. 1991, ASME, New York, Yao, S. C.; Chung, J. N., Editors, 9-22 p., ['1990', '1991']

  • Cooper, L. Y.
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    Applications of the Generalized Global Equivalence Ratio Model (GGERM) for Predicting the Generation Rate and Distribution of Products of Combustion in Two-Layer Fire Environments: Methane and Hexanes.
    National Institute of Standards and Technology, Gaithersburg, MD
    NISTIR 4590
    NISTIR 4590
    June 1991
    76 p.

  • Pitts, W. M.
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    Reactivity of Product Gases Generated in Idealized Enclosure Fire Environments.
    National Institute of Standards and Technology, Gaithersburg, MD
    Combustion Institute, Symposium (International) on Combustion, 24th. July 5-10, 1992, Sydney, Australia, 1737-1746 p., 1992

  • Gottuk, D. T.; Roby, R. J.; Peatross, M. J.; Beyler, C. L.
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    Carbon Monoxide Production in Compartment Fires.
    Virginia Polytechnic Institute and State Univ., Blacksburg; Hughes Associates, Inc., Columbia, MD
    Journal of Fire Protection Engineering, Vol. 4, No. 4, 133-150, October/November/December 1992

  • Pitts, W. M.
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    Limitations of the Global Equivalence Ratio Concept for Predicting CO Formation in Room Fires.
    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'], 152-159 p., 1992

  • Cooper, L. Y.
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    Applications of the Generalized Global Equivalence Ratio Model (GGERM) for Predicting the Generation Rate and Distribution of Products of Combustion in Two-Layer Fire Environments.
    National Institute of Standards and Technology, Gaithersburg, MD
    HTD-Vol. 199
    HTD-Vol. 199
    American Society of Mechanical Engineers (ASME). Heat Transfer in Fire and Combustion Systems. 28th National Heat Transfer Conference and Exhibition. August 9-12, 1992, American Society of Mechanical Engineers, NY, San Diego, CA, Kanuary, A. M.; Brewster, M. Q., Editors, 123-134 p., 1992

  • Cooper, L. Y.
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    Overview of a Model for Predicting the Generation Rate and Distribution of Products of Combustion in Two-Layer Fire Environments.
    National Institute of Standards and Technology, Gaithersburg, MD
    Session B-2
    Session B-2
    Combustion Institute/Eastern States Section. Chemical and Physical Processes in Combustion. Fall Technical Meeting, 1990. December 3-5, 1990, Orlando, FL, 64/1-4 p., 1990

  • Pitts, W. M.
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    Global Equivalence Ratio Concept and the Prediction of Carbon Monoxide Formation in Enclosure Fires.
    National Institute of Standards and Technology, Gaithersburg, MD
    NIST Monograph 179
    NIST Monograph 179
    June 1994
    171 p.

  • Santoro, R. J.
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    Fundamental Mechanisms for CO and Soot Formation. Final Report.
    Pennsylvania State Univ., University Park
    NIST GCR 94-661
    National Institute of Standards and Technology, Gaithersburg, MD, NIST GCR 94-661
    November 1994
    167 p.

  • Leonard, S.; Mulholland, G. W.; Puri, R.; Santoro, R. J.
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    Generation of CO and Smoke During Underventilated Combustion.
    Pennsylvania State Univ., University Park; National Institute of Standards and Technology, Gaithersburg, MD
    Combustion and Flame, Vol. 98, 20-34, 1994