32
Views
13
CrossRef citations to date
0
Altmetric
Original Articles

An Extended Flame Zone in the Combustion of CH3Cl

, &
Pages 229-238 | Received 02 Oct 1994, Accepted 27 Feb 1995, Published online: 17 Apr 2007

References

  • Arepalli , S. , Presser , N. , Robie , D. and Gordon , R. J. ( 1985 ). Detection of Cl Atoms and HC1 Molecules by Resonantly Enhanced Multiphoton Ionization . Chem. Phys. Letters , 118 , 88 – 92 .
  • Bernstein , J. S. , Fein , A. , Choi , J B. , Cool , T. A. , Sausa , R. C. , Howard , S. L. , Locke , R. J. and Miziolek , A. W. ( 1993 ). Laser-Based Flame Species Profile Measurements A Comparison with Flame Model Prediction . Combustion and Flame , 92 , 85 – 105 .
  • Biordi , J. C. ( 1977 ). Molecular Beam Mass Spectrometry for Studying the Fundamental Chemistry of Flames . Prog. Energy Combust. Sci. , 3 , 151 – 173 .
  • Biordi , J. C. , Lazzara , C. P. and Papp , J. F. ( 1974 ). Molecular Beam Mass Spectrometry Applied to Determining the Kinetics of Reactions in Flames I Empirical Characterization of Flame Perturbation by Molecular Beam Sampling Probes . Combustion and Flame , 23 , 73 – 82 .
  • Bose , D. , Senkan , S. M. ( 1983 ). On the Combustion of Chlorinated Hydrocarbons I. Trichloroethylene . Combustion Sci. Tech. , 35 . 187 – 202 .
  • Boyle , J. G. , Pfefferle , L. D. , Gulcicek , E. E. and Colson , S. D. ( 1991 ). Laser-Driven Electron Ionization for a VUV Photoionization Time-of-Flight Mass Spectrometer . Rev. Sci. Instrum. , 62 , 323 – 333 .
  • Callaghan , R. , Arepalli , S. and Gordon , R. J. ( 1987 ). Resonantly Enhanced Two-Photon Spectroscopy of HO and DCI in the 77OOO-87OOOcm-1 Region . J. Chem. Phys. , 86 , 5273 – 5280 .
  • Chang , W. D. , and Senkan , S. M. ( 1985 ). A Computational Study of the Inhibition of Humid CO Oxidation by HCI and Cl2 During the Induction Period . Combust. Sci. Tech. , 43 , 49 – 66 .
  • Chang , W. D. , Karra , S. B. and Senkan , S. M. ( 1986 ). Molecular Beam Mass Spectroscopic Study of Trichloroethykne Flames . Environ. Sci. Tech. , 20 , 1243 – 1248 .
  • Chang , W. D. , Karra , S. B. and Senkan , S. M. ( 1987 ). A Computational Study or Chlorine Inhibition of CO Flames . Combustion and Flame , 69 , 113 – 122 .
  • Cheng , P. Y. and Dai , H. L. ( 1993 ). A Photoemitted Electron-Impact Ionization Method for Time-of-Flight Mass Spectrometry . Rev. Sci. lustrum. , 64 , 2211 – 2214 .
  • Greene , F T. , Brewer , J. and Milne , T. A. ( 1964 ) Mass Spectrometric Studies of Reactions in Flames. I. Beam Formation and Mass Dependence in Sampling l-atm gases|at. J. Chem. Phys. , 40 , 1488 – 1495 .
  • Ho , W. and Bozzelli , J. W. ( 1992 ). Validation of a Mechanism for Use in Modeling CH2C12 and/or CH3Cl Combustion and Pyrolysis . Twenty-Fourth Symposium (International) on Combustion , The Combustion Institute , pp. 743 – 748 .
  • Ho , W. , Yu , Q-R. and Bozzelli , J. W. ( 1992 ). Kinetic Study on Pyrolysis and Oxidation of CH3CI in Ar/H2/O2 Mixtures . Combust. Sci. Tech. , 85 , 23 – 63 .
  • Hung , S. L. and Pfefferle , L. D. ( 1992 ). A Flow Tube Kinetics Study of Methyl Chloride Oxidation . Combust. Sci. Tech. , 87 , 91 – 107 .
  • Karra , S. B. and Senkan , S. M. ( 1987 ). Chemical Structures of Sooting CH3Cl/CH4/O2/Ar and CH4/O2/Ar Flames . Combust. Sci. Tech. , 54 , 333 – 347 .
  • Karra , SB. , Gulman , D. and Senkan , S. M. ( 1988 ). Chemical Kinetic Modeling of Fuel-Rich CH3Cl/CH4/O2/Ar Flames . Combust. Sci. Tech. , 60 , 45 – 62 .
  • Kee , R. J. , Rupley , F. M. and Miller , J. A. ( 1989 ). Chemkin-II A Fortran Chemical Kinetics Package for the Analysis of Gas-Phase Chemical Kinetics . Sandia National Laboratories Report SAND89-8009 .
  • Kee , R. J. , Grear , J. F. , Smooke , M. D. and Miller , J. A. ( 1990 ). |atA Fortran Program for Modeling Steady Combustion and Flame , 94 , 191 – 204 .
  • Lee , K. Y. and Puri , I. K. (1993). A Reduced Kinetic Mechanism for Premixed CH3Cl/CH4/ air Flames. Laminar One-Dimensional Premixed Flames . Sandia National Laboratories Report SAND85-8240 .
  • Lee , K. Y. , Yang , M. H. and Puri , I. K. ( 1993 ). Numerical Simulation of Stoichiometric Premixed Flames Burning CH3Cl/CH4/ air Mixtures at Atmospheric Pressure with a Full and Short Reaction Mechanism and Comparison of the Flame Speeds with Experimental Results . Combustion and Flame , 92 , 419 – 439 .
  • Miller , D. I. , Senser , D. W. , Cundy , V. A. and Matula , R. A. ( 1984 ). Chemical Considerations in the Incineration of Chlorinated Methanes. I Methyl Chloride . Hazardous Waste and Hazardous Materials. , 1 , 1 – 18 .
  • Peeters , J. and Mahnen , G. ( 1972 ). Reaction Mechanisms and Rate Constants of Elementary Steps in Methane-Oxygen Flames . Fourteenth Symposium. (International) on Combustion , The Combustion Inhibited by Trace Ouantities of HCL, Combust, Sci., Tech. , 85 1 – 22 .
  • Roesler , J. F. , Yetter , R. A. and Dryer , F. L. ( 1992 ). Detailed Kinetic Modeling of Moist CO Oxidation Instituted , pp. 133 – 146 .
  • Rohwer , E. R. , Beavis , R. C. , Kostner , C. , Lindner , J. , Grotemeyer , J. and Schlag , E. W. ( 1988 ). Fast Pulsed Laser Induced Electron Generation for Electron Impact Mas Spectrometry . Z. Naturforsch. , 43a , 1151 – 1153 .
  • Satyapal , S. , Werner , J. H. and Cool , T. A. ( 1994 ) unpublished .
  • Senkan , S. M. ( 1984 ). |atOn the Combustion of Chlorinated Hydrocarbons II Detailed Chemical Kinetic Modeling of the Intermediate Zone of the Two-Stage Trichloroethylene-Oxygen-Nitrogen Flames. Combust. Sci. Tech. , 38 , 197 – 204 .
  • Smith , O. I. and Chandler , D. W. ( 1986 ). An Experimental Study of Probe Distortions to the Structure of One-Dimensional Flemes . Combustion and Flame , 63 , 19 – 29 .
  • Stepowski , D. , Puechberty , D. and Cottereau , M. J. ( 1981 ). Use of Laser-Induced Fluorescence of OH to Study the Perturbation of a Flame by a Probe . Eighteenth Symposium (International) on Combustion , The Combustion Institute , pp 1567 – 1573 .
  • Westbrook , C. K. ( 1982 ). Inhibition of Hydrocarbon Oxidation in Laminar Flames and Detonations by Halogenated Hydrocarbons . Nineteenth Symposium (International) on Combustion , The Combustion Institute , pp. 127 – 141 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.