FireDOC Search

displaying 41 - 50 results in total 171

  • Skinner, G. B.; Miller, D. R.; Katon, J. E.; Hedley, W. H.
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    Research Program for Understanding the Mechanisms of Flame Inhibition. Technical Report.
    Air Force Systems Command, Wright-Patterson AFB, OH
    Monsanto Research Corp., Dayton, OH, ASD-TR-61-717, March 1962, 97 p.

  • Egolfopoulos, F. N.; Du, D. X.; Law, C. K.
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    Comprehensive Study of Methanol Kinetics in Freely-Propagating and Burner-Stabilized Flames, Flow and Static Reactors, and Shock Tubes.
    Princeton Univ., NJ
    Combustion Science and Technology, Vol. 83, No. 1-3, 33-75, 1992

  • Sloane, T. M.
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    Ignition and Flame Propagation Modeling With an Improved Propane Oxidation Mechanism.
    General Motors Research Labs., Warren, MI
    Combustion Science and Technology, Vol. 83, No. 1-3, 77-96, 1992

  • Cerighton, J. R.; Lund, C. M.
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    Modeling Study of Flame Structure in Low-Pressure, Laminar, Pre-Mixed Methane Flames.
    Lawrence Livermore Lab., CA
    NBS SP 561,
    National Bureau of Standards. Characterization of High Temperature Vapors and Gases. Volume 1. Volume 2. Proceedings of the Materials Research Symposium, 10th. September 18-22, 1978, National Bureau of Standards, Gaithersburg, MD, Hastie, J. W., Editors, 1223-1247 p., 1979

  • Dobbins, R. A.; Govatzidakis, G. J.; Lu, W.; Schwartzman, A. F.; Fletcher, R. A.
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    Rate of Carbonization of Soot Precursor Particles.
    Brown Univ., Providence, RI; National Institute of Standards and Technology, Gaithersburg, MD
    Army Research Office, Washington, DC,
    Combustion Institute/Eastern States Section. Chemical and Physical Processes in Combustion. Proceedings. Fall Technical Meeting, 1995. October 16-18, 1995, Worcester, MA, 269-272 p., 1995

  • Alexiou, A.; Williams, A.
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    Soot Formation in Shock-Tube Pyrolysis of Toluene, Toluene-Methanol, Toluene-Ethanol, and Toluene-Oxygen Mixtures.
    Leeds Univ., Yorkshire, UK
    Combustion and Flame, Vol. 104, No. 1/2, 51-65, January 1996

  • Hidada, Y.; Hattori, K.; Okuno, T.; Inami, K.; Abe, T.; Koike, T.
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    Shock-Tube and Modeling Study of Acetylene Pryolysis and Oxidation.
    Ehime Univ., Matsuyama, Japan; National Defense Academy, Yokosuka, Japan
    Combustion and Flame, Vol. 107, No. 4, 401-417, December 1996

  • Kaplan, K.
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    Shock Tube Facilities Available for blast/Bire Interaction Studies Their Capabilities and Limitations.
    DCPA (Formerly OCD) Fire Research Contractors Meeting, 10th Annual. Proceedings. Technical Summary Research Report 10. April 25-27, 1972, Asilomar, CA, Dorsett, H. G., Editors, 47-48 p., 1974

  • Hersh, S.
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    SupersonicCombustion Chemistry and Mixing of High Energy Density Fuels Related to Advance Air-Breathing Engine Desing. Final Report.
    Dynamic Science, Irvine, CA
    AFOSR-TR-71-1382, April 1971, 40 p.

  • Solomon, W. C.; Blauer, J. A.; Jaye, F. C.; Hnat, J. G.
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    Vibrational Excitation of Hydrogen Fluoride Behind Incident Shock Waves.
    Air Force Rocket Propulsion Lab., Edwards, CA
    International Journal of Chemical Kinetics, Vol. 3, 215-222, 1971
    WSS/CI Paper 71-17,