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Combustion Science and Technology Volume 105, 1995 - Issue 1-3
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Original Articles

Modelling Sooting Turbulent Jet Flames Using an Extended Flamelet Technique

K. J. YOUNG School of Mechanical Engineering, Cranfield University, Bedford, England
&
J. B. MOSS School of Mechanical Engineering, Cranfield University, Bedford, England
Pages 33-53 | Received 18 Jul 1994, Accepted 19 Jan 1995, Published online: 15 May 2007

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Wei Yao, Jianping Zhang, Ali Nadjai, Tarek Beji & Michael Delichatsios. (2012) Development and Validation of a Global Soot Model in Turbulent Jet Flames. Combustion Science and Technology 184:5, pages 717-733.
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G. MA, J. Z. WEN, M. F. LIGHTSTONE & M. J. THOMSON. (2005) OPTIMIZATION OF SOOT MODELING IN TURBULENT NONPREMIXED ETHYLENE/AIR JET FLAMES. Combustion Science and Technology 177:8, pages 1567-1602.
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VENKATESH GOPALAKRISHNAN & JOHN ABRAHAM∗. (2004) COMPUTED NO AND SOOT DISTRIBUTION IN TURBULENT TRANSIENT JETS UNDER DIESEL CONDITIONS. Combustion Science and Technology 176:4, pages 603-641.
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B. MARRACINO & D. LENTINI. (1997) Radiation Modelling in Non-Luminous Nonpremixed Turbulent Flames. Combustion Science and Technology 128:1-6, pages 23-48.
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Articles from other publishers (38)

Wei Yao, Hang Liu, Lianjie Xue & Yabing Xiao. (2021) Performance analysis of a strut-aided hypersonic scramjet by full-scale IDDES modeling. Aerospace Science and Technology 117, pages 106941.
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Mohamed Ibrahim N.H.M. Udayakumar. (2021) Unsteady RANS Numerical Study on Soot Productivity in a Turbulent Jet Flames for various Reynolds Number Configurations. Materials Today: Proceedings 39, pages 538-546.
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Stelios Rigopoulos. (2019) Modelling of Soot Aerosol Dynamics in Turbulent Flow. Flow, Turbulence and Combustion 103:3, pages 565-604.
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Wei Yao & Xuejun Fan. (2019) Application of dynamic zone flamelet model to a GH2/GO2 rocket combustor. Application of dynamic zone flamelet model to a GH2/GO2 rocket combustor.
Fabian Sewerin & Stelios Rigopoulos. (2018) An LES-PBE-PDF approach for predicting the soot particle size distribution in turbulent flames. Combustion and Flame 189, pages 62-76.
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Masoud Darbandi, Majid Ghafourizadeh, Mohammad Hasan Saidi & G E. Schneider. (2017) Analysis of Smoke-Aerosol Formation in Pressurized Turbulent Kerosene/Air Flames Using Different Soot Models. Analysis of Smoke-Aerosol Formation in Pressurized Turbulent Kerosene/Air Flames Using Different Soot Models.
Wei Yao & Xuejun Fan. (2017) Development of zone flamelet model for scramjet combustor modeling. Development of zone flamelet model for scramjet combustor modeling.
Santu Golder & Jeffrey J. Doom. (2017) Simulation of an ethylene flame with turbulence, soot and radiation modeling. Simulation of an ethylene flame with turbulence, soot and radiation modeling.
Pedro J. Coelho. (2013) A theoretical analysis of the influence of turbulence on radiative emission in turbulent diffusion flames of methane. Combustion and Flame 160:3, pages 610-617.
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Pedro J. Coelho. (2012) The role of turbulent fluctuations on radiative emission in hydrogen and hydrogen-enriched methane flames. International Journal of Hydrogen Energy 37:17, pages 12741-12750.
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Wei Yao, Jianping Zhang, Ali Nadjai, Tarek Beji & Michael A. Delichatsios. (2011) A global soot model developed for fires: Validation in laminar flames and application in turbulent pool fires. Fire Safety Journal 46:7, pages 371-387.
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S. Welch, S.C. Paul & J.L. Torero. 2010. Fire Toxicity. Fire Toxicity 637 667 .
Gunhong Kim, Yongmo Kim & Yong-Jin Joo. (2009) Conditional Moment Closure for Modeling Combustion Processes and Structure of Oxy-Natural Gas Flame. Energy & Fuels 23:9, pages 4370-4377.
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Robert M. Woolley, Michael Fairweather & Yunardi. (2009) Conditional moment closure modelling of soot formation in turbulent, non-premixed methane and propane flames. Fuel 88:3, pages 393-407.
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Gunhong Kim, Sungmo Kang, Yongmo Kim & Kwan-Soo Lee. (2008) Conditional Moment Closure Modeling for a Three-Dimensional Turbulent Non-premixed Syngas Flame with a Cooling Wall. Energy & Fuels 22:6, pages 3639-3648.
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David O. Lignell, Jacqueline H. Chen & Philip J. Smith. (2008) Three-dimensional direct numerical simulation of soot formation and transport in a temporally evolving nonpremixed ethylene jet flame. Combustion and Flame 155:1-2, pages 316-333.
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M. Ravikanti, W. Malalasekera, M. Hossain & T. Mahmud. (2007) Flamelet Based NO x -Radiation Integrated Modelling of Turbulent Non-premixed Flame using Reynolds-stress Closure. Flow, Turbulence and Combustion 81:1-2, pages 301-319.
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J.B.M. Pierce & J.B. Moss. (2007) Smoke production, radiation heat transfer and fire growth in a liquid-fuelled compartment fire. Fire Safety Journal 42:4, pages 310-320.
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Chun Sang Yoo & Hong G. Im. (2007) Transient soot dynamics in turbulent nonpremixed ethylene–air counterflow flames. Proceedings of the Combustion Institute 31:1, pages 701-708.
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Andrea D’Anna, Mario Commodo, Santo Violi, Cristophe Allouis & John Kent. (2007) Nano organic carbon and soot in turbulent non-premixed ethylene flames. Proceedings of the Combustion Institute 31:1, pages 621-629.
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I.M. Aksit & J.B. Moss. (2006) A hybrid scalar model for sooting turbulent flames. Combustion and Flame 145:1-2, pages 231-244.
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Hossam El-Asrag, Suresh Menon, Tianfang Lu & Chung Law. (2006) Large Eddy Simulation of Soot Formation in Turbulent Premixed Flames. Large Eddy Simulation of Soot Formation in Turbulent Premixed Flames.
Gunhong Kim & Yongmo Kim. (2005) Non-adiabatic flamelet modeling for combustion processes of oxy-natural gas flame. Journal of Mechanical Science and Technology 19:9, pages 1781-1789.
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J.-F. Ripoll. (2004) An averaged formulation of the M1 radiation model with mean absorption coefficients and presumed probability density functions for turbulent flows. Journal of Quantitative Spectroscopy and Radiative Transfer 83:3-4, pages 493-517.
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Lionel Tessé, Francis Dupoirieux & Jean Taine. (2004) Monte Carlo modeling of radiative transfer in a turbulent sooty flame. International Journal of Heat and Mass Transfer 47:3, pages 555-572.
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P.J. Coelho, O.J. Teerling & D. Roekaerts. (2003) Spectral radiative effects and turbulence/radiation interaction in a non-luminous turbulent jet diffusion flame. Combustion and Flame 133:1-2, pages 75-91.
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M. Balthasar, F. Mauss, M. Pfitzner & A. Mack. (2002) Implementation and Validation of a New Soot Model and Application to Aeroengine Combustors. Journal of Engineering for Gas Turbines and Power 124:1, pages 66-74.
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G.M. Makhviladze & S.E. Yakush. (2002) Large-scale unconfined fires and explosions. Proceedings of the Combustion Institute 29:1, pages 195-210.
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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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V. Novozhilov. (2001) Computational fluid dynamics modeling of compartment fires. Progress in Energy and Combustion Science 27:6, pages 611-666.
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A Kronenburg, R.W Bilger & J.H Kent. (2000) Modeling soot formation in turbulent methane–air jet diffusion flames. Combustion and Flame 121:1-2, pages 24-40.
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X.S. Bai, L. Fuchs & F. Mauss. (2000) Laminar flamelet structure at low and vanishing scalar dissipation rate. Combustion and Flame 120:3, pages 285-300.
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B. Zamuner & R. Borghi. 2000. Pollutants from Combustion. Pollutants from Combustion 51 73 .
J.B. Moss & C.D. Stewart. (1998) Flamelet-based smoke properties for the field modelling of fires. Fire Safety Journal 30:3, pages 229-250.
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X.S. Bai, M. Balthasar, F. Mauss & L. Fuchs. (1998) Detailed soot modeling in turbulent jet diffusion flames. Symposium (International) on Combustion 27:1, pages 1623-1630.
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Ian M Kennedy. (1997) Models of soot formation and oxidation. Progress in Energy and Combustion Science 23:2, pages 95-132.
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K.N.C. Bray. (1996) The challenge of turbulent combustion. Symposium (International) on Combustion 26:1, pages 1-26.
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N.W. Bressloff, J.B. Moss & P.A. Rubini. (1996) CFD prediction of coupled radiation heat transfer and soot production in turbulent flames. Symposium (International) on Combustion 26:2, pages 2379-2386.
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