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Combustion Science and Technology Volume 1, 1970 - Issue 6
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Original Articles

Analytical Study of the Kinetics of Formation of Nitrogen Oxide in Hydrocarbon-Air Combustion

PIERRE J. MARTENEY United Aircraft Research Laboratories, East Hartford, Connecticut, 06108
Pages 461-469 | Received 29 Jan 1970, Published online: 10 May 2007

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M. CATHONNET. (1994) Chemical Kinetic Modeling of Combustion from 1969 to 2019. Combustion Science and Technology 98:4-6, pages 265-279.
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NORMANDM. LAURENDEAU. (1975) Fast Nitrogen Dioxide Reactions: Significance during NO Decomposition and NO2 Formation. Combustion Science and Technology 11:3-4, pages 89-96.
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C. G. W. SHEPPARD. (1975) A Simple Model for Carbon Monoxide Oxidation in Gas Turbine Combustors†. Combustion Science and Technology 11:1-2, pages 49-56.
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J. H. TUTTLE, R. A. SHISLER & A. M. MELLOR. (1974) Nitrogen Dioxide Formation in Gas Turbine Engines: Measurements and Measurement Methods. Combustion Science and Technology 9:5-6, pages 261-271.
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ELMARR. ALTWICKER & THOMAST. SHEN. (1974) Effect of Metallic Additives on the NO^-Emissions From a Small Oil Burner. Combustion Science and Technology 9:1-2, pages 61-70.
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D. R. HARDESTY & F. J. WEINBERG. (1973) Burners Producing Large Excess Enthalpies. Combustion Science and Technology 8:5-6, pages 201-214.
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DAVIDT. PRATT, BARRYR. BOWMAN, ROBERTJ. ROBERTUS & CLAYTONT. CROWE. (1972) Comparison of Four Simple Models of Steady Flow Combustion of Pyrolyzed Methane and Air. Combustion Science and Technology 6:3, pages 187-190.
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THOMAS MIKUS & JOHNB. HEYWOOD. (1971) The Automotive Gas Turbine and Nitric Oxide Emissions. Combustion Science and Technology 4:1, pages 149-158.
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D. C. HAMMOND$suffix/text()$suffix/text() & A. M. MELLOR. (1971) Analytical Calculations for the Performance and Pollutant Emissions of Gas Turbine Combustors. Combustion Science and Technology 4:1, pages 101-112.
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J. B. LIVESEY, A. L. ROBERTS & ALAN WILLIAMS. (1971) The Formation of Oxides of Nitrogen in some Oxy-Propane Flames. Combustion Science and Technology 4:1, pages 9-15.
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CRAIGT. BOWMAN. (1971) Investigation of Nitric Oxide Formation Kinetics in Combustion Processes: The Hydrogen-Oxygen-Nitrogen Reaction. Combustion Science and Technology 3:1, pages 37-45.
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Articles from other publishers (38)

Abhisek Banerjee & Alexei Saveliev. (2020) Emission Characteristics of Heat Recirculating Porous Burners With High Temperature Energy Extraction. Frontiers in Chemistry 8.
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Shreshtha Kumar Gupta, Abhijit Kumar Kushwaha & Vaibhav Kumar Arghode. (2020) Investigation of peripheral vortex reverse flow (PVRF) combustor for gas turbine engines. Energy 193, pages 116766.
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Henry J. Curran. (2019) Developing detailed chemical kinetic mechanisms for fuel combustion. Proceedings of the Combustion Institute 37:1, pages 57-81.
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Irvin Glassman, Richard A. Yetter & Nick G. Glumac. 2015. Combustion. Combustion 393 475 .
Muhammed Tayyeb Javed, Naseem Irfan & Muhammad Asim Ibrahim. 2010. Handbook of Combustion. Handbook of Combustion 153 173 .
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J.P. Bingue, A.V. Saveliev & L.A. Kennedy. (2007) NO reburning in ultrarich filtration combustion of methane. Proceedings of the Combustion Institute 31:2, pages 3417-3424.
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Charles K. Westbrook, Yasuhiro Mizobuchi, Thierry J. Poinsot, Phillip J. Smith & Jürgen Warnatz. (2005) Computational combustion. Proceedings of the Combustion Institute 30:1, pages 125-157.
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Irvin Glassman. 1996. Combustion. Combustion 351 433 .
IRVIN GLASSMAN. 1987. Combustion. Combustion 318 385 .
A.A. Desoky. 1986. Hydrogen Systems. Hydrogen Systems 515 533 .
S. Byggstøyl & B. F. Magnussen. 1985. Turbulent Shear Flows 4. Turbulent Shear Flows 4 381 395 .
D. W. Naegeli, D. M. Yost & E. C. Owens. Engine Wear With Methanol Fuel in a Nitrogen-Free Environnment. Engine Wear With Methanol Fuel in a Nitrogen-Free Environnment.
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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Charles K. Westbrook & Frederick L. Dryer. (1981) Chemical kinetics and modeling of combustion processes. Symposium (International) on Combustion 18:1, pages 749-767.
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P.M. RubinsN.R. Marchionna. (1978) Evaluation of NO, Prediction-Correlation Equations for Small Gas Turbines. Journal of Aircraft 15:8, pages 497-502.
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. 1978. Alternative Hydrocarbon Fuels: Combustion and Chemical Kinetics. Alternative Hydrocarbon Fuels: Combustion and Chemical Kinetics 255 306 .
R.W. Schefer & R.F. Sawyer. (1977) Lean premixed recirculating flow combustion for control of oxides of nitrogen. Symposium (International) on Combustion 16:1, pages 119-134.
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IRVIN GLASSMAN. 1977. Combustion. Combustion 202 257 .
J.M. Tarbell & C.A. Petty. (1977) Combustion modifications for the control of NOx emissions. Chemical Engineering Science 32:10, pages 1177-1188.
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H. F. Nelson. (1976) Nitric oxide formation in combustion. AIAA Journal 14:9, pages 1177-1182.
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Michikata Kono, Seiichiro Kumagai & Tadami Sakai. (1976) Ignition of gases by two successive sparks with reference to frequency effect of capacitance sparks. Combustion and Flame 27, pages 85-98.
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P. RUBINS & N. MARCHIONNA. (1976) Evaluation of NOx prediction-correlation equations for small gas turbines. Evaluation of NOx prediction-correlation equations for small gas turbines.
J.H. Ay & M. Sichel. (1976) Theoretical analysis of NO formation near the primary reaction zone in methane combustion. Combustion and Flame 26, pages 1-15.
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David T. Pratt. (1975) Theories of mixing in continuous combustion. Symposium (International) on Combustion 15:1, pages 1339-1351.
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J. Odgers. (1975) Current theories of combustion within gas turbine chambers. Symposium (International) on Combustion 15:1, pages 1321-1338.
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N.P. Cernansky & R.F. Sawyer. (1975) NO and NO2 formation in a turbulent hydrocarbon/air diffusion flame. Symposium (International) on Combustion 15:1, pages 1039-1050.
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A.R. Morr & J.B. Heywood. (1974) Partial equilibrium model for predicting concentration of CO in combustion. Acta Astronautica 1:7-8, pages 949-966.
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I. T. OSGERBY. (1974) Literature Review of Turbine Combustor Modeling and Emissions. AIAA Journal 12:6, pages 743-754.
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HOWARD B. PALMER. 1974. Combustion Technology. Combustion Technology 1 33 .
J.B. Homer & M.M. Sutton. (1973) Nitric oxide formation and radical overshoot in premixed hydrogen flames. Combustion and Flame 20:1, pages 71-76.
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B.R. Bowman, D.T. Pratt & C.T. Crowe. (1973) Effects of turbulent mixing and chemical kineticson nitric oxide production in a jet-stirred reactor. Symposium (International) on Combustion 14:1, pages 819-830.
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Craig T. Bowman. (1973) Kinetics of nitric oxide formation incombustion processes. Symposium (International) on Combustion 14:1, pages 729-738.
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RICHARD ROBERTSLEONARD D. ACETOREINER KOLLRACKDONALD P. TEIXEIRAJOHN M. BONN. (1972) An Analytical Model for Nitric Oxide Formation in a Gas Turbine Combustor. AIAA Journal 10:6, pages 820-826.
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A. M. Mellor. 1972. Emissions from Continuous Combustion Systems. Emissions from Continuous Combustion Systems 23 53 .
L. ACETOJ. BONNELL. (1971) An analytical model for nitric oxide formation in a gas turbine combustion chamber. An analytical model for nitric oxide formation in a gas turbine combustion chamber.
J. HEYWOOD. (1971) Gas turbine combustor modeling for calculating nitric oxide emissions. Gas turbine combustor modeling for calculating nitric oxide emissions.
ROBERT JENNINGS HEINSOHN, PHILIP M. BECKER, JANICE M. MARGLE & GERALD F. ELWINGER. 1971. Proceedings of the Second International Clean Air Congress. Proceedings of the Second International Clean Air Congress 827 835 .

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