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Combustion Science and Technology Volume 110-111, 1995 - Issue 1
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Original Articles

Exhaust and In-Situ Measurements of Nitric Oxide for Laminar Partially Premixed C2H6-Air Flames: Effect of Premixing Level at Constant Fuel Flowrate

TAE KWON KIM Low Emission Engine Laboratory, Korea Institute of Machinery and Metals, P.O. Box 101, Yuseong, Daejeon, 305-600, Korea
,
B. J. ALDER Low Emission Engine Laboratory, Korea Institute of Machinery and Metals, P.O. Box 101, Yuseong, Daejeon, 305-600, Korea
,
N. M. LAURENDEAU Low Emission Engine Laboratory, Korea Institute of Machinery and Metals, P.O. Box 101, Yuseong, Daejeon, 305-600, Korea
&
J. P. GORE Low Emission Engine Laboratory, Korea Institute of Machinery and Metals, P.O. Box 101, Yuseong, Daejeon, 305-600, Korea
Pages 361-378 | Received 12 Jun 1995, Accepted 06 Sep 1995, Published online: 27 Apr 2007

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Abhisek Banerjee, Prithwish Kundu, Vitaliy Gnatenko, Serguei Zelepouga, John Wagner, Yaroslav Chudnovsky & Alexei Saveliev. (2020) NOx Minimization in Staged Combustion Using Rich Premixed Flame in Porous Media. Combustion Science and Technology 192:9, pages 1633-1649.
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B.J. ALDER, L.K. TSENG, N.M. LAURENDEAU & J.P. GORE. (2000) Short Communication Effects of Partial Premixing on NOx Emission Indices of Soot-Containing Flames. Combustion Science and Technology 152:1, pages 167-178.
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R. V. RAVIKRISHNA, WILLIAMP. PARTRIDGE$suffix/text()$suffix/text() & NORMANDM. LAURENDEAU. (1999) Quantification of Planar Laser-Induced Fluorescence Measurements of Nitric Oxide in Laminar Partially Premixed Flames. Combustion Science and Technology 144:1-6, pages 79-92.
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B. J. ALDER, K.H. LYLE, N.M. LAURENDEAU & J. P. GORE. (1998) Effect of Overall Equivalence Ratio on Minimum Nitric Oxide Emission Index in Laminar and Turbulent Partially Premixed Flames. Combustion Science and Technology 140:1-6, pages 461-468.
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Articles from other publishers (21)

Lis Corral-Gómez, Octavio Armas, José A. Soriano, José V. Pastor, José M. García-Oliver & Carlos Micó. (2022) An Optical Engine Used as a Physical Model for Studies of the Combustion Process Applying a Two-Color Pyrometry Technique. Energies 15:13, pages 4717.
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Tommy Genova, Michelle Otero, Anthony Morales, Bernhard Stiehl, Scott Martin & Kareem Ahmed. (2022) Preheating and premixing effects on NOx emissions in a high-pressure axially staged combustor. Combustion and Flame 235, pages 111710.
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OA Kashkousha, MM Kamal, AM Abdulaziz & MA Nosier. (2014) Inverse diffusion and partially premixed flames with elliptical/swirling- and cross-flows. Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy 229:1, pages 44-59.
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K.C. Marr, N.T. Clemens & O.A. Ezekoye. (2012) Mixing characteristics and emissions of strongly-forced non-premixed and partially-premixed jet flames in crossflow. Combustion and Flame 159:2, pages 707-721.
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M. M. Kamal & A Amohamad. (2007) Investigation of liquid fuel combustion in a cross-flow burner. Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy 221:3, pages 371-385.
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Hemant Mungekar & Arvind Atreya. (2007) NO formation in counterflow partially premixed flames. Combustion and Flame 148:3, pages 148-157.
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P. Hariharan, C. Periasamy & S. R. Gollahalli. (2006) Aspect Ratio Effects on Partially Premixed Flames From Elliptic Burners in Coflow. Aspect Ratio Effects on Partially Premixed Flames From Elliptic Burners in Coflow.
Yong Ki Jeong, Chung Hwan Jeon & Young June Chang. (2006) Evaluation of the equivalence ratio of the reacting mixture using intensity ratio of chemiluminescence in laminar partially premixed CH4-air flames. Experimental Thermal and Fluid Science 30:7, pages 663-673.
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C.E. Lee, C.B. Oh & J.H. Kim. (2004) Numerical and experimental investigations of the NOx emission characteristics of CH4-air coflow jet flames. Fuel 83:17-18, pages 2323-2334.
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. (2004) Flame Structure and NOx Emission Characteristics in Laminar Partially Premixed CH 4 /Air Flames: Effects of Fuel Split Percentage and Mixing Distance . Transactions of the Korean Society of Mechanical Engineers B 28:7, pages 818-825.
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Tae-Gwon Kim & Jun-Yeong Jang. (2002) Combustion Radicals and NOx Emissions Characteristics by Control of Partially Premixed Flames. Transactions of the Korean Society of Mechanical Engineers B 26:4, pages 561-569.
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H. Xue & S. Aggarwal. (2002) NO(x) emissions in n-heptane/air partially premixed flames. NO(x) emissions in n-heptane/air partially premixed flames.
T.S Cheng, Y.-C Chao, D.-C Wu, H.-W Hsu & T Yuan. (2001) Effects of partial premixing on pollutant emissions in swirling methane jet flames. Combustion and Flame 125:1-2, pages 865-878.
Crossref
Beth Anne V Bennett, Charles S McEnally, Lisa D Pfefferle & Mitchell D Smooke. (2000) Computational and experimental study of axisymmetric coflow partially premixed methane/air flames. Combustion and Flame 123:4, pages 522-546.
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Charles S. McEnally & Lisa D. Pfefferle. (2000) Experimental study of nonfuel hydrocarbons and soot in coflowing partially premixed ethylene/air flames. Combustion and Flame 121:4, pages 575-592.
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T.-W Lee, A Mitrovic & T Wang. (2000) Temperature, velocity, and nox/co emission measurements in turbulent flames: effects of partial premixing with central fuel injection. Combustion and Flame 121:1-2, pages 378-385.
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Linda G. Blevins, Michael W. Renfro, Kent H. Lyle, Normand M. Laurendeau & Jay P. Gore. (1999) Experimental study of temperature and CH radical location in partially premixed CH4/air coflow flames. Combustion and Flame 118:4, pages 684-696.
Crossref
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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S Li. (1999) NOx formation in two-stage methane–air flames. Combustion and Flame 118:3, pages 399-414.
Crossref
Min Suk Cha, Wonnam Lee, Young-Hoon Song & Suk Ho Chung. (1999) An investigation of the structure and the NO formation characteristics of partially premixed methane flames using planar laser induced fluorescence. An investigation of the structure and the NO formation characteristics of partially premixed methane flames using planar laser induced fluorescence.
A. Mitrovic & T.-W. Lee. (1998) Soot formation characteristics of laminar partially premixed flames. Combustion and Flame 115:3, pages 437-442.
Crossref

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