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Combustion Science and Technology Volume 30, 1983 - Issue 1-6
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Original Articles

The Sulfur Catalyzed Recombination of Atomic Oxygen in a CO/O2/Ar Flame

OWEN I. SMITH Chemical Engineering Department, UCLA, Los Angeles, CA, 90024
,
SHIE-NING WANG Chemical Engineering Department, UCLA, Los Angeles, CA, 90024
,
SPYROS TSEREGOUNIS Chemical Engineering Department, UCLA, Los Angeles, CA, 90024
&
CHARLES K. WESTBROOK LawrenceLivermore Laboratory, Livermore, CA, 94550
Pages 241-271 | Received 27 Jan 1982, Accepted 20 Jul 1982, Published online: 27 Apr 2007

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E. HAMPARTSOUMIAN & W. NIMMO. (1995) An Experimental Investigation of Sulphur-Nitrogen Interactions in Turbulent Spray Flames. Combustion Science and Technology 110-111:1, pages 487-504.
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J. F. PAUWELS, M. CARLIER, P. DEVOLDER & L. R. SOCHET. (1992) The Influence of Hydrogen Sulfide on the Combustion of Methanol in a Stoichiometric Premixed Flame. Experimental and Numerical Studies. Combustion Science and Technology 86:1-6, pages 237-252.
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CHARLES k. WESTBROOK. (1983) Numerical Modeling of Flame Inhibition by CF3Br. Combustion Science and Technology 34:1-6, pages 201-225.
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Articles from other publishers (31)

A. A. Mantashyan & E. M. Makaryan. (2021) Kinetic Analysis of the Effect of Sulfur Dioxide on the Oxidative Conversion of Methane and Hydrogen in a Wide Range of Temperatures. Combustion, Explosion, and Shock Waves 57:1, pages 1-13.
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Peter Glarborg. 2019. Mathematical Modelling of Gas-Phase Complex Reaction Systems: Pyrolysis and Combustion. Mathematical Modelling of Gas-Phase Complex Reaction Systems: Pyrolysis and Combustion 603 645 .
A. A. Mantashyan, E. M. Makaryan, A. A. Arutyunyan & G. M. Gevorgyan. (2016) Chemical conversion of SO2 in low-temperature and low-pressure oxyhydrogen flames. 1. Kinetic analysis of the process. Combustion, Explosion, and Shock Waves 52:6, pages 643-650.
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María Abián, Ángela Millera, Rafael Bilbao & María U. Alzueta. (2015) Impact of SO2 on the formation of soot from ethylene pyrolysis. Fuel 159, pages 550-558.
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A. A. Mantashyan. (2014) Conjugated processes of the chemical transformation of sulfur dioxide under the effect of chain gas-phase reactions. Russian Journal of Physical Chemistry A 89:1, pages 38-43.
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A. A. Mantashyan, E. M. Makaryan, A. M. Avetisyan, A. A. Arutyunyan & G. M. Gevorgyan. (2014) Effect of SO2 on the chain reaction of hydrogen oxidation: Intermittent flames. Combustion, Explosion, and Shock Waves 50:1, pages 1-9.
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J. Giménez-López, M. Martínez, A. Millera, R. Bilbao & M.U. Alzueta. (2011) SO2 effects on CO oxidation in a CO2 atmosphere, characteristic of oxy-fuel conditions. Combustion and Flame 158:1, pages 48-56.
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Steven E. Wheeler & Henry F. SchaeferIIIIII. (2009) Thermochemistry of the HOSO Radical, a Key Intermediate in Fossil Fuel Combustion. The Journal of Physical Chemistry A 113:24, pages 6779-6788.
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Gregory T. Linteris, Marc D. Rumminger & Valeri I. Babushok. (2008) Catalytic inhibition of laminar flames by transition metal compounds. Progress in Energy and Combustion Science 34:3, pages 288-329.
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Lusi Hindiyarti, Peter Glarborg & Paul Marshall. (2007) Reactions of SO 3 with the O/H Radical Pool under Combustion Conditions . The Journal of Physical Chemistry A 111:19, pages 3984-3991.
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M. Tayyeb Javed, Naseem Irfan & B.M. Gibbs. (2007) Control of combustion-generated nitrogen oxides by selective non-catalytic reduction. Journal of Environmental Management 83:3, pages 251-289.
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Peter Glarborg. (2007) Hidden interactions—Trace species governing combustion and emissions. Proceedings of the Combustion Institute 31:1, pages 77-98.
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Christian Lund Rasmussen, Peter Glarborg & Paul Marshall. (2007) Mechanisms of radical removal by SO2. Proceedings of the Combustion Institute 31:1, pages 339-347.
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Ayten Yilmaz, Lusi Hindiyarti, Anker D. Jensen, Peter Glarborg & Paul Marshall. (2006) Thermal Dissociation of SO 3 at 1000−1400 K . The Journal of Physical Chemistry A 110:21, pages 6654-6659.
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Ivan A. Gargurevich. (2005) Hydrogen Sulfide Combustion:  Relevant Issues under Claus Furnace Conditions. Industrial & Engineering Chemistry Research 44:20, pages 7706-7729.
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George B. Bacskay & John C. Mackie. (2005) Oxidation of CO by SO 2 :  A Theoretical Study . The Journal of Physical Chemistry A 109:9, pages 2019-2025.
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O.P. Korobeinichev, V.M. Shvartsberg, A.G. Shmakov, T.A. Bolshova, T.M. Jayaweera, C.F. Melius, W.J. Pitz, C.K. Westbrook & H. Curran. (2005) Flame inhibition by phosphorus-containing compounds in lean and rich propane flames. Proceedings of the Combustion Institute 30:2, pages 2353-2360.
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Xiaolin Wei, Uwe Schnell, Xiaohai Han & Klaus R.G. Hein. (2004) Interactions of CO, HCl, and SOx in pulverised coal flames. Fuel 83:9, pages 1227-1233.
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Yoshinori Murakami, Shouichi Onishi, Takaomi Kobayashi, Nobuyuki Fujii, Nobuyasu Isshiki, Kentaro Tsuchiya, Atsumu Tezaki & Hiroyuki Matsui. (2003) High Temperature Reaction of S + SO 2 → SO + SO: Implication of S 2 O 2 Intermediate Complex Formation . The Journal of Physical Chemistry A 107:50, pages 10996-11000.
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Xiaolin Wei, Xiaohai Han, Uwe Schnell, Jörg Maier, Holger Wörner & Klaus R. G. Hein. (2003) The Effect of HCl and SO 2 on NO x Formation in Coal Flames . Energy & Fuels 17:5, pages 1392-1398.
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Maria U Alzueta, Rafael Bilbao & Peter Glarborg. (2001) Inhibition and sensitization of fuel oxidation by SO2. Combustion and Flame 127:4, pages 2234-2251.
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Keith Schofield. (2001) The kinetic nature of sulfur’s chemistry in flames. Combustion and Flame 124:1-2, pages 137-155.
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M. A. Mueller, R. A. Yetter & F. L. Dryer. (2000) Kinetic modeling of the CO/H2O/O2/NO/SO2 system: Implications for high-pressure fall-off in the SO2 + O(+M) = SO3(+M) reaction. International Journal of Chemical Kinetics 32:6, pages 317-339.
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Eldon L. Knuth. (1995) Composition distortion in MBMS sampling. Combustion and Flame 103:3, pages 171-180.
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Keith Schofield. 1992. Gas Phase Metal Reactions. Gas Phase Metal Reactions 529 571 .
S.L. Chen, J.A. Cole, M.P. Heap, J.C. Kramlich, J.M. Mccarthy & D.W. Pershing. (1989) Advanced NOx reduction processes using-NH and -CN compounds in conjunction with staged air addition. Symposium (International) on Combustion 22:1, pages 1135-1145.
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Michael R. Zachariah & Owen I. Smith. (1987) Experimental and numerical studies of sulfur chemistry in H2/O2/SO2 flames. Combustion and Flame 69:2, pages 125-139.
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Masayuki Taniguchi, Nobuhito Hirasawa & Hiroshi Yoshida. (1987) ESR and Mass-Spectrometric Studies of Methanol Combustion. III. The Effect of CS 2 and CH 3 NH 2 Additions on the Concentration Profiles of Chemical Species in a Methanol–Air Flame . Bulletin of the Chemical Society of Japan 60:7, pages 2349-2354.
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A. Tim Chen, Philip C. Malte & Mark M. Thornton. (1985) Sulfur-nitrogen interaction in stirred flames. Symposium (International) on Combustion 20:1, pages 769-777.
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Spyros I. Tseregounis & Owen I. Smith. (1985) An experimental investigation of fuel sulfur-fuel nitrogen interactions in low-pressure premixed flames. Symposium (International) on Combustion 20:1, pages 761-768.
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Charles K. Westbrook & Frederick L. Dryer. (1984) Chemical kinetic modeling of hydrocarbon combustion. Progress in Energy and Combustion Science 10:1, pages 1-57.
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