FireDOC Search

displaying 171 - 180 results in total 838

• Bowen, J. R.; Manson, N.; Oppenheim, A. K.; Soloukhin, R. I.; Summerfield, M.
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  Flames, Lasers, and Reactive Systems.
  Flames, Lasers, and Reactive Systems. Progress in Astronautics and Aeronautics. Volume 88, Am. Inst. of Aeronautics & Astronautics, New York, Bowen, J. R.; Manson, N.; Oppenheim, A. K.; Soloukhin, R. I.; Summerfield, M., Editors, 458 p., 1983

• Sokolik, A.S.
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  Self-Ignition Flame and Detonation in Gases.
  Academy of Sciences, USSR
  ['NASA TT F-125', 'OTS 63-11179', 'IPST Cat. No. 818']
  NASA TT F-125; OTS 63-11179; IPST Cat. No. 818
  1963
  464 p.

• Burke, R.; VanTiggelen, A.
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  Kinetics of Laminar Premixed Methand-Oxygen-Nitrogen Flames.
  Bull. Soc. Chim. Belg, Vol. 74, 426-449, 1965

• McLintock, I. S.
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  Effect of Various Diluents on Soot Production in Laminar Ethylene Diffusion Flames.
  Fire Research Station, Borehamwood, England
  Combustion and Flame, Vol. 12, No. 3, 217-225, June 1968

• 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

• Honnery, D. R.; Tappe, M.; Kent, J. H.
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  Two Parametric Models of Soot Growth Rates in Laminar Ethylene Diffusion Flames.
  Sydney Univ., Australia
  Combustion Science and Technology, Vol. 83, No. 1-3, 305-321, 1992

• Fendell, F.; Mitchell, J.; Chen, K.
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  Estimating the Deceleration of Spherical Laminar Flames in Highly Fuel-Rich Mixtures by Soot Radiation.
  TRW Space and Technology Group, Redondo Beach, CA
  Combustion and Flame, Vol. 90, No. 2, 196-198, 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
  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

• Xiang, L.; McDonough, J. M.; Saito, K.
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  Numerical Simulation of Flow and Temperature Field Induced by Coflow Laminar DiffusionFlames.
  Kentucky Univ., Lexington
  University of Science and Technology of China. Fire Science and Technology. Asian Conference, 1st (ACFST). October 9-13, 1992, International Academic Publishers, China, Hefei, China, Weicheng, F.; Zhuman, F., Editors, 294-299 p., 1992

• Puri, R.; Richardson, T. F.; Santoro, R. J.; Dobbins, R. A.
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  Aerosol Dynamic Processes of Soot Aggregates in a Laminar Ethene Diffusion Flame.
  Pennsylvania State Univ., University Park; Brown Univ., Providence, RI
  Combustion and Flame, Vol. 92, No. 3, 320-333, February 1993
  National Institute of Standards and Technology, Gaithersburg, MD; Pennsylvania State Univ., University Park; Brown Univ., Providence, RI; Air Force Office of Scientific Research, Fort Monmouth, NJ,