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Combustion Theory and Modelling Volume 5, 2001 - Issue 2
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Original Articles

Structure and extinction of laminar ethanol-air spray flames

E Gutheil Interdisziplinäres Zentrum für Wissenschaftliches Rechnen, Universität Heidelberg, Im Neuenheimer Feld 368, 69120, Heidelberg, Germany
Pages 131-145 | Received 15 Aug 2000, Published online: 19 Aug 2006

Citations (29)

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Read on this site (7)

Qun Hu & Lipo Wang. (2023) Structure and similarity properties of the laminar counterflow spray flame. Combustion Theory and Modelling 27:6, pages 768-786.
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Yong Hu, Hernan Olguin & Eva Gutheil. (2017) A spray flamelet/progress variable approach combined with a transported joint PDF model for turbulent spray flames. Combustion Theory and Modelling 21:3, pages 575-602.
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Yong Hu, Hernan Olguin & Eva Gutheil. (2017) Transported Joint Probability Density Function Simulation of Turbulent Spray Flames Combined with a Spray Flamelet Model Using a Transported Scalar Dissipation Rate. Combustion Science and Technology 189:2, pages 322-339.
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D.O. Maionchi & F.F. Fachini. (2013) A simple spray–flamelet model: Influence of ambient temperature and fuel concentration, vaporisation source and fuel injection position. Combustion Theory and Modelling 17:3, pages 522-542.
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Huayang Zhu, RobertJ. Kee, Longhua Chen, Jingjing Cao, Min Xu & Yuyin Zhang. (2012) Vaporisation characteristics of methanol, ethanol and heptane droplets in opposed stagnation flow at low temperature and pressure. Combustion Theory and Modelling 16:4, pages 715-735.
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H.-W. Ge, I. Düwel, H. Kronemayer, R. W. Dibble, E. Gutheil, C. Schulz & J. Wolfrum. (2008) Laser-Based Experimental and Monte Carlo PDF Numerical Investigation of an Ethanol/Air Spray Flame. Combustion Science and Technology 180:8, pages 1529-1547.
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J B Greenberg & A Dvorjetski. (2003) Opposed flow polydisperse spray diffusion flames: Steady state and extinction analysis. Combustion Theory and Modelling 7:1, pages 145-162.
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Articles from other publishers (22)

Zhaoping Ying & Eva Gutheil. (2023) Multiple structures and transition mechanisms of laminar fuel-rich ethanol/air counterflowing spray flames. International Journal of Spray and Combustion Dynamics 15:4, pages 197-206.
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Yicun Wang, Changxiao Shao, Kun Luo, Ruipeng Cai, Tai Jin & Jianren Fan. (2023) LES of a turbulent lifted methanol spray flame using a novel spray flamelet/progress variable model. Energy 284, pages 128608.
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Zhaoping Ying, Hernan Olguin & Eva Gutheil. (2022) Multiple structures of laminar fuel-rich spray flames in the counterflow configuration. Combustion and Flame 243, pages 111997.
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Jonathan Wirtz, Benedicte Cuenot & Eleonore Riber. (2021) Numerical study of a polydisperse spray counterflow diffusion flame. Proceedings of the Combustion Institute 38:2, pages 3175-3182.
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Oscar Noreña & Eva Gutheil. (2020) Structures of Ethanol Spray Flames under CO2 Dilution of the Oxidizer in the Counterflow Configuration under MILD Combustion Conditions. Fluids 5:4, pages 194.
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Hernan Olguin, Arne Scholtissek, Sebastian Gonzalez, Felipe Gonzalez, Matthias Ihme, Christian Hasse & Eva Gutheil. (2019) Closure of the scalar dissipation rate in the spray flamelet equations through a transport equation for the gradient of the mixture fraction. Combustion and Flame 208, pages 330-350.
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Praveen Honhar, Yong Hu & Eva Gutheil. (2017) Analysis of Mixing Models for use in Simulations of Turbulent Spray Combustion. Flow, Turbulence and Combustion 99:2, pages 511-530.
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M. Orain & Y. Hardalupas. (2014) Droplet characteristics and local equivalence ratio of reacting mixture in spray counterflow flames. Experimental Thermal and Fluid Science 57, pages 261-274.
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Hernan Olguin & Eva Gutheil. (2014) Influence of evaporation on spray flamelet structures. Combustion and Flame 161:4, pages 987-996.
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Rana M. Humza, Yong Hu & Eva Gutheil. 2014. Experiments and Numerical Simulations of Turbulent Combustion of Diluted Sprays. Experiments and Numerical Simulations of Turbulent Combustion of Diluted Sprays 129 153 .
Hernan Olguin & Eva Gutheil. 2014. Experiments and Numerical Simulations of Turbulent Combustion of Diluted Sprays. Experiments and Numerical Simulations of Turbulent Combustion of Diluted Sprays 79 106 .
Eva Gutheil. 2011. Experiments and Numerical Simulations of Diluted Spray Turbulent Combustion. Experiments and Numerical Simulations of Diluted Spray Turbulent Combustion 1 39 .
Eva Gutheil. 2010. Handbook of Combustion. Handbook of Combustion 205 227 .
Daniela Urzica & Eva Gutheil. (2009) Structures of Laminar Methane/Nitrogen/Oxygen, Methane/Oxygen and Methane/Liquid Oxygen Counterflow Flames for Cryogenic Conditions and Elevated Pressures. Zeitschrift für Physikalische Chemie 223:4-5, pages 651-667.
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Masato Mikami, Yoshimi Mizuta, Yuki Tsuchida & Naoya Kojima. (2009) Flame structure and stabilization of lean-premixed sprays in a counterflow with low-volatility fuel. Proceedings of the Combustion Institute 32:2, pages 2223-2230.
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A. Dvorjetski & J.B. Greenberg. (2009) Analysis of steady state polydisperse counterflow spray diffusion flames in the large Stokes number limit. Proceedings of the Combustion Institute 32:2, pages 2205-2214.
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A. Dvorjetski & J.G. Greenberg. (2008) A Study of Oscillatory Droplet Trajectories in Spray Diffusion Flames. International Journal of Turbo and Jet Engines 25:4.
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H. -W. Ge, D. Urzica, M. Vogelgesang & E. Gutheil. 2007. Reactive Flows, Diffusion and Transport. Reactive Flows, Diffusion and Transport 397 417 .
Ariel Dvorjetski & J Barry Greenberg. (2005) Small Stokes Number Analysis of Counterflow Spray Diffusion Flames. Small Stokes Number Analysis of Counterflow Spray Diffusion Flames.
Masato Mikami, Kazuhiro Yamamoto, Osamu Moriue & Naoya Kojima. (2005) Combustion of partially premixed spray jets. Proceedings of the Combustion Institute 30:2, pages 2021-2028.
Crossref
A. Dvorjetski & J.B. Greenberg. (2004) Theoretical analysis of polydisperse water spray extinction of opposed flow diffusion flames. Fire Safety Journal 39:4, pages 309-326.
Crossref
Masato Mikami, Shingo Miyamoto & Naoya Kojima. (2002) Counterflow diffusion flame with polydisperse sprays. Proceedings of the Combustion Institute 29:1, pages 593-599.
Crossref

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