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Combustion Science and Technology Volume 47, 1986 - Issue 3-4
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Original Articles

Effects of Oxygen on Soot Formation in Methane Diffusion Flames

K. SAITO Department of Mechanical and Aerospace Engineering. The Engineering Quadrangle, Princeton University., Princeton, NJ, 08544
,
F. A. WILLIAMS Department of Mechanical and Aerospace Engineering. The Engineering Quadrangle, Princeton University., Princeton, NJ, 08544
&
A. S. GORDON Department of Applied Mechanics and Engineering Sciences University of California, La Jolla, CA, 92093
Pages 117-138 | Received 24 Jul 1984, Accepted 20 Feb 1985, Published online: 27 Apr 2007

Citations (58)

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Y. Nakamura, H. Yamashita & K. Saito. (2006) A numerical study on extinction behaviour of laminar micro-diffusion flames. Combustion Theory and Modelling 10:6, pages 927-938.
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VAHID MAJIDI, KOZO SAITO, ALVINS. GORDON & FORMANA. WILLIAMS. (1999) Laser-Desorption Time-of-Flight Mass-Spectrometry Analysis of Soot from Various Hydrocarbon Fuels. Combustion Science and Technology 145:1-6, pages 37-56.
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A.S. GORDON, S.C. LI & FA WILLIAMS. (1999) Visible Flame Heights of Laminar Coflow Diffusion Flames. Combustion Science and Technology 141:1-6, pages 1-18.
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S. C. LI, A. S. GORDON & F. A. WILLIAMS. (1995) A Simplified Method for the Computation of Burke-Schumann Flames in Infinite Atmospheres. Combustion Science and Technology 104:1-3, pages 75-91.
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S. VENKATESH & K. SAITO. (1992) Estimates on the Effect of Chlorine on the Global Soot Production Rates in Laminar Hydrocarbon-Air Diffusion Flames* . Combustion Science and Technology 85:1-6, pages 297-311.
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G. W. SIDEBOTHAM, K. SAITO & I. GLASSMAN. (1992) Pyrolysis Zone Structure of Allene, 1,3 Butadiene and Benzene Smoke Point Diffusion Flames* . Combustion Science and Technology 85:1-6, pages 283-296.
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GEORGEW. SIDEBOTHAM & IRVIN GLASSMAN. (1992) Effect of Oxygen Addition to a Near-Sooting Ethene Inverse Diffusion Flame. Combustion Science and Technology 81:4-6, pages 207-219.
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K. SAITO, A. S. GORDON, F. A. WILLIAMS & W. F. STICKLE. (1991) A Study of the Early History of Soot Formation in Various Hydrocarbon Diffusion Flames. Combustion Science and Technology 80:1-3, pages 103-119.
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J. H. TIEN & S. H. SOHRAB. (1990) Effects of Air-Side Oxygen Addition on Soot Formation in Methane Coflow Diffusion Flame. Combustion Science and Technology 73:4-6, pages 617-623.
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K. SAITO, F. A. WILLIAMS & A. S. GORDON. (1987) A Study of the Two-Color Soot Zone for Small Hydrocarbon Diffusion Flames. Combustion Science and Technology 51:4-6, pages 285-305.
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S. Cao, B. Ma, B.A.V. Bennett, D. Giassi, D.P. Stocker, F. Takahashi, M.B. Long & M.D. Smooke. (2015) A computational and experimental study of coflow laminar methane/air diffusion flames: Effects of fuel dilution, inlet velocity, and gravity. Proceedings of the Combustion Institute 35:1, pages 897-903.
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Peter H. Joo, Marc R.J. Charest, Clinton P.T. Groth & Ömer L. Gülder. (2013) Comparison of structures of laminar methane–oxygen and methane–air diffusion flames from atmospheric to 60atm. Combustion and Flame 160:10, pages 1990-1998.
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T.X. Li, H.G. Zhang, F.J. Wang, Z. Chen & K. Saito. (2007) Synthesis of carbon nanotubes on Ni-alloy and Si-substrates using counterflow methane–air diffusion flames. Proceedings of the Combustion Institute 31:2, pages 1849-1856.
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Hemant P. Mungekar & Arvind Atreya. (2006) Flame Radiation and Soot Emission From Partially Premixed Methane Counterflow Flames. Journal of Heat Transfer 128:4, pages 361-367.
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Charles S. McEnally, Lisa D. Pfefferle, Burak Atakan & Katharina Kohse-Höinghaus. (2006) Studies of aromatic hydrocarbon formation mechanisms in flames: Progress towards closing the fuel gap. Progress in Energy and Combustion Science 32:3, pages 247-294.
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Hemant P. Mungekar & Arvind Atreya. (2006) Effect of partial premixing on the sooting structure of methane flames. Combustion and Flame 144:1-2, pages 336-348.
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T.S. Cheng, Y.-C. Chao, C.-Y. Wu, Y.-H. Li, Y. Nakamura, K.-Y. Lee, T. Yuan & T.S. Leu. (2005) Experimental and numerical investigation of microscale hydrogen diffusion flames. Proceedings of the Combustion Institute 30:2, pages 2489-2497.
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Sung Hoon Shim, Kook Young Ahn, Sang Hyun Jeong, Sang In Keel & Hyun Dong Shin. (2004) Study of deposit morphology in a propane diffusion-flame under fuel-rich conditions. Applied Energy 79:2, pages 179-189.
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Claudya P. Arana, Mariusz Pontoni, Swarnendu Sen & Ishwar K. Puri. (2004) Field measurements of soot volume fractions in laminar partially premixed coflow ethylene/air flames. Combustion and Flame 138:4, pages 362-372.
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Murray J. Height, Jack B. Howard, Jefferson W. Tester & John B. Vander Sande. (2004) Flame synthesis of single-walled carbon nanotubes. Carbon 42:11, pages 2295-2307.
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Sung Hoon Shim & Hyun Dong Shin. (2002) Transition morphology of deposits on SiC fibers in propane/air laminar diffusion flames. Combustion and Flame 131:1-2, pages 210-218.
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Charles S McEnally & Lisa D Pfefferle. (1999) Experimental study of nonfuel hydrocarbon concentrations in coflowing partially premixed methane/air flames. Combustion and Flame 118:4, pages 619-632.
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K.-C. Lin & G. M. Faeth. (1999) Shapes of Nonbuoyant Round Luminous Laminar-Jet Diffusion Flames in Coflowing Air. AIAA Journal 37:6, pages 759-765.
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Ömer L. Gülder. (1995) Effects of oxygen on soot formation in methane, propane, and n-Butane diffusion flames. Combustion and Flame 101:3, pages 302-310.
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M. Ikegami. 1993. Advanced Combustion Science. Advanced Combustion Science 161 204 .
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D.W. Mackowski, R.A. Altenkirch, M.P. Menguc & K. Saito. (1989) Radiative properties of chain-agglomerated soot formed in hydrocarbon diffusion flames. Symposium (International) on Combustion 22:1, pages 1263-1269.
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H.S. Hura & I. Glassman. (1989) Soot formation in diffusion flames of fuel/oxygen mixtures. Symposium (International) on Combustion 22:1, pages 371-378.
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B.D. Shaw, F.L. Dryer, F.A. Williams & J.B. HaggardJrJr. (1988) Sooting and disruption in spherically symmetrical combustion of decane droplets in air. Acta Astronautica 17:11-12, pages 1195-1202.
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