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Combustion Science and Technology Volume 41, 1984 - Issue 1-2
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Original Articles

Stabilization Heights in Lifted Methane-Air Jet Diffusion Flames Diluted with Nitrogen

STEFAN DONNERHACK lnstitut für Allgemeine Mechanik, Rheinisch- Westf´lische Technische, Hochschule, Aachen, West-Germany
&
NORBERT PETERS lnstitut für Allgemeine Mechanik, Rheinisch- Westf´lische Technische, Hochschule, Aachen, West-Germany
Pages 101-108 | Published online: 22 Sep 2010

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Sudarshan Kumar & SaurabhK. Goel. (2010) Modeling of Lifted Methane Jet Flames in a Vitiated Coflow Using a New Flame Extinction Model. Combustion Science and Technology 182:11-12, pages 1961-1978.
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DOMINIQUE THÉVENIN & SÉBASTIEN CANDEL. (1993) Effect of Variable Strain on the Dynamics of Diffusion Flame Ignition. Combustion Science and Technology 91:1-3, pages 73-94.
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LeMOYNE BOYER & MARDSON QUEIROZ. (1991) Temperature Dissipation Measurements in a Lifted Turbulent Diffusion Flame. Combustion Science and Technology 79:1-3, pages 1-34.
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Articles from other publishers (34)

A.M. Khedr, A.M. Elbaz, Mahmoud M.A. Ahmed, M.F. Zayed, M.S. Senosy, H. Kayed, S. Kruse, Y. Ren, H. Pitsch & M.S. Mansour. (2024) The mixing field and flame structure near the reaction zone of turbulent planar flames at different levels of mixture inhomogeneity. Fuel 358, pages 130216.
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Ahmed O. Said, Eric W. Darby & Ashwani K. Gupta. (2017) Effect of N 2 -CO 2 Mixture on Entrainment and Emission in a High Intensity Combustor . Effect of N 2 -CO 2 Mixture on Entrainment and Emission in a High Intensity Combustor .
Derek Bradley, Philip H. Gaskell, Xiaojun Gu & Adriana Palacios. (2016) Jet flame heights, lift-off distances, and mean flame surface density for extensive ranges of fuels and flow rates. Combustion and Flame 164, pages 400-409.
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Rudra N. Roy, Sudarshan Kumar & Sheshadri Sreedhara. (2015) Predictions of lift-off height of turbulent methane and propane flames issuing in cold surroundings using conditional moment closure coupled with an extinction model. Combustion and Flame 162:4, pages 1164-1166.
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Zhi Chen, Shaohong Ruan & Nedunchezhian Swaminathan. (2015) Simulation of turbulent lifted methane jet flames: Effects of air-dilution and transient flame propagation. Combustion and Flame 162:3, pages 703-716.
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V. N. Prasad, M. Juddoo, A. Kourmatzis & A. R. Masri. (2014) Investigation of Lifted Flame Propagation Under Pulsing Conditions Using High-Speed OH-LIF and LES. Flow, Turbulence and Combustion 93:3, pages 425-437.
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James Kribs, Nancy Moore, Tamir Hasan & Kevin Lyons. (2013) Nitrogen-Diluted Methane Flames in the Near-and Far-Field. Journal of Energy Resources Technology 135:4.
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Sylvain Lamige, Jiesheng Min, Cédric Galizzi, Frédéric André, Françoise Baillot, Dany Escudié & Kevin M. Lyons. (2013) On preheating and dilution effects in non-premixed jet flame stabilization. Combustion and Flame 160:6, pages 1102-1111.
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P. Kasabov, N. Zarzalis & P. Habisreuther. (2013) Experimental Study on Lifted Flames Operated with Liquid Kerosene at Elevated Pressure and Stabilized by Outer Recirculation. Flow, Turbulence and Combustion 90:3, pages 605-619.
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Wei Wang & Tarek Echekki. (2011) Investigation of lifted jet flames stabilization mechanism using RANS simulations. Fire Safety Journal 46:5, pages 254-261.
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C.J. Lawn. (2009) Lifted flames on fuel jets in co-flowing air. Progress in Energy and Combustion Science 35:1, pages 1-30.
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T. Mahmud, S.K. Sangha, M. Costa & A. Santos. (2007) Experimental and computational study of a lifted, non-premixed turbulent free jet flame. Fuel 86:5-6, pages 793-806.
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I.S. Kim & E. Mastorakos. (2005) Simulations of turbulent lifted jet flames with two-dimensional conditional moment closure. Proceedings of the Combustion Institute 30:1, pages 911-918.
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Arndt Joedicke, Norbert Peters & Mohy Mansour. (2005) The stabilization mechanism and structure of turbulent hydrocarbon lifted flames. Proceedings of the Combustion Institute 30:1, pages 901-909.
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Mohy S Mansour. (2004) The flow field structure at the base of lifted turbulent partially premixed jet flames. Experimental Thermal and Fluid Science 28:7, pages 771-779.
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Mohy S. Mansour. (2003) Stability characteristics of lifted turbulent partially premixed jet flames. Combustion and Flame 133:3, pages 263-274.
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C.Y. Ma, T. Mahmud, M. Fairweather, E. Hampartsoumian & P.H. Gaskell. (2002) Prediction of lifted, non-premixed turbulent flames using a mixedness-reactedness flamelet model with radiation heat loss. Combustion and Flame 128:1-2, pages 60-73.
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M. Herrmann, M. Chen, B. Binninger, N. Peters, V. Favier, J. Réveillon & L. Vervisch. 2001. Numerical Flow Simulation II. Numerical Flow Simulation II 161 180 .
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C.P. Burgess & C.J. Lawn. (1999) The premixture model of turbulent burning to describe lifted jet flames. Combustion and Flame 119:1-2, pages 95-108.
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D. Bradley, P.H. Gaskell & X.J. Gu. (1998) The mathematical modeling of liftoff and blowoff of turbulent non-premixed methane jet flames at high strain rates. Symposium (International) on Combustion 27:1, pages 1199-1206.
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A.D. Birch & G.K. Hargrave. (1989) Lift-off heights in underexpanded natural gas jet flames. Symposium (International) on Combustion 22:1, pages 825-831.
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Richard C. Miake-Lye & Jay A. Hammer. (1989) Lifted turbulent jet flames: A stability criterion based on the jet large-scale structure. Symposium (International) on Combustion 22:1, pages 817-824.
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E. Effelsberg & N. Peters. (1989) Scalar dissipation rates in turbulent jets and jet diffusion flames. Symposium (International) on Combustion 22:1, pages 693-700.
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P. Givi, W.-H. Jou & R.W. Metcalfe. (1988) Flame extinction in a temporally developing mixing layer. Symposium (International) on Combustion 21:1, pages 1251-1261.
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N. Peters. (1988) Laminar flamelet concepts in turbulent combustion. Symposium (International) on Combustion 21:1, pages 1231-1250.
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