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Combustion Theory and Modelling Volume 13, 2009 - Issue 6
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Original Articles

Numerical study of the effects of gravity on soot formation in laminar coflow methane/air diffusion flames under different air stream velocities

Wenjun Kong Institute of Engineering Thermophysics, Chinese Academy of Sciences, Beijing, China
&
Fengshan Liu Institute for Chemical Process and Environmental Tech., National Research Council Canada, Ottawa, Canada
Pages 993-1023 | Received 19 Feb 2009, Accepted 02 Sep 2009, Published online: 05 Feb 2010

Citations (25)

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Read on this site (2)

Armin Veshkini & Seth B. Dworkin. (2017) A computational study of soot formation and flame structure of coflow laminar methane/air diffusion flames under microgravity and normal gravity. Combustion Theory and Modelling 21:5, pages 864-878.
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Petros Akridis & Stelios Rigopoulos. (2017) Modelling of soot formation in laminar diffusion flames using a comprehensive CFD-PBE model with detailed gas-phase chemistry. Combustion Theory and Modelling 21:1, pages 35-48.
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Articles from other publishers (23)

Fengshan Liu, Jean-Louis Consalvi & Fatiha Nmira. (2023) The importance of accurately modelling soot and radiation coupling in laminar and laboratory-scale turbulent diffusion flames. Combustion and Flame 258, pages 112573.
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Subrat Garnayak, Amjad Ali Pasha, Radi Alsulami, Medhat A. Nemitallah, Abdul Gani Abdul Jameel, Sukanta K. Dash & V. Mahendra Reddy. (2022) Numerical investigation to evaluate the effects of gravity and pressure on flame structure and soot formation of turbulent non-premixed methane-air flame. Propulsion and Power Research 11:4, pages 473-495.
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Shihong Ye, Miaomiao Hao, Haoran Guo, Lin Lu, Huanhuan Xu & Xiaohan Ren. (2021) A review of motivations, methods, and achievements on microgravity combustion research. E3S Web of Conferences 300, pages 01021.
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A. Guibaud, J.-M. Citerne, J.-L. Consalvi, J.L. Torero, O. Fujita, M. Kikuchi, P.V. Ferkul, N. Smirnov, G. Jomaas, B. Toth, S. Rouvreau & G. Legros. (2021) Accessing the soot-related radiative heat feedback in a flame spreading in microgravity: optical designs and associated limitations. Proceedings of the Combustion Institute 38:3, pages 4805-4814.
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Fengshan Liu, Jean-Louis Consalvi, Pedro J. Coelho, Frédéric Andre, Mingyan Gu, Vladimir Solovjov & Brent W. Webb. (2020) The impact of radiative heat transfer in combustion processes and its modeling – with a focus on turbulent flames. Fuel 281, pages 118555.
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Augustin Guibaud, Jean-Marie Citerne, Jean-Louis Consalvi, Osamu Fujita, Jose Torero & Guillaume Legros. (2019) Experimental Evaluation of Flame Radiative Feedback: Methodology and Application to Opposed Flame Spread Over Coated Wires in Microgravity. Fire Technology 56:1, pages 185-207.
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A. Guibaud, J. L. Consalvi, J. M. Orlac’h, J. M. Citerne & G. Legros. (2019) Soot Production and Radiative Heat Transfer in Opposed Flame Spread over a Polyethylene Insulated Wire in Microgravity. Fire Technology 56:1, pages 287-314.
Crossref
Arup Jyoti Bhowal & Bijan Kumar Mandal. (2018) A Transient Study on the Development of Temperature Field and Soot under Reduced Gravity in a Methane Air Diffusion Flame. Microgravity Science and Technology 31:1, pages 13-29.
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Jérôme Yon, François-Xavier Ouf, Damien Hebert, James Brian Mitchell, Nadine Teuscher, Jean-Luc Le Garrec, Alexandre Bescond, Werner Baumann, Djoudi Ourdani, Thomas Bizien & Javier Perez. (2018) Investigation of soot oxidation by coupling LII, SAXS and scattering measurements. Combustion and Flame 190, pages 441-453.
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Alumah Arad, Eran Sher & Giora Enden. (2017) Modeling soot formation in diesel-biodiesel flames. Fuel 206, pages 437-452.
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Jean-Marie Citerne, Hugo Dutilleul, Koki Kizawa, Masashi Nagachi, Osamu Fujita, Masao Kikuchi, Grunde Jomaas, Sébastien Rouvreau, Jose L. Torero & Guillaume Legros. (2016) Fire safety in space – Investigating flame spread interaction over wires. Acta Astronautica 126, pages 500-509.
Crossref
Arup Jyoti Bhowal & Bijan Kumar Mandal. (2016) A Computational Study of Soot Formation in Methane Air Co-Flow Diffusion Flame Under Microgravity Conditions. Microgravity Science and Technology 28:4, pages 395-412.
Crossref
Petros Akridis & Stelios Rigopoulos. (2015) Modelling of Soot Formation in a Laminar Coflow Non-premixed Flame with a Detailed CFD-Population Balance Model. Procedia Engineering 102, pages 1274-1283.
Crossref
Bin Ma, Su Cao, Davide Giassi, Dennis P. Stocker, Fumiaki Takahashi, Beth Anne V. Bennett, Mitchell D. Smooke & Marshall B. Long. (2015) An experimental and computational study of soot formation in a coflow jet flame under microgravity and normal gravity. Proceedings of the Combustion Institute 35:1, pages 839-846.
Crossref
G. Legros & J.L. Torero. (2015) Phenomenological model of soot production inside a non-buoyant laminar diffusion flame. Proceedings of the Combustion Institute 35:3, pages 2545-2553.
Crossref
Y. Zhang, D. Liu, S. Li, Y. Li & C. Lou. (2014) The influence of gravity levels on soot formation for the combustion of ethylene-air mixture. Russian Journal of Physical Chemistry A 88:13, pages 2300-2307.
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R. Demarco, F. Nmira & J.L. Consalvi. (2013) Influence of thermal radiation on soot production in Laminar axisymmetric diffusion flames. Journal of Quantitative Spectroscopy and Radiative Transfer 120, pages 52-69.
Crossref
Marc R.J. Charest, Clinton P.T. Groth & Ömer L. Gülder. (2011) A numerical study on the effects of pressure and gravity in laminar ethylene diffusion flames. Combustion and Flame 158:10, pages 1933-1945.
Crossref
Fengshan Liu, Gregory J. Smallwood & Wenjun Kong. (2011) The importance of thermal radiation transfer in laminar diffusion flames at normal and microgravity. Journal of Quantitative Spectroscopy and Radiative Transfer 112:7, pages 1241-1249.
Crossref
Marc R.J. Charest, Clinton P.T. Groth & Ömer L. Gülder. (2011) Effects of gravity and pressure on laminar coflow methane–air diffusion flames at pressures from 1 to 60 atmospheres. Combustion and Flame 158:5, pages 860-875.
Crossref
Marc Charest, Clinton Groth & Ömer Gülder. (2011) Effects of Pressure and Gravity in Laminar Coflow Ethylene Diffusion Flames. Effects of Pressure and Gravity in Laminar Coflow Ethylene Diffusion Flames.
Jörg Reimann, Stephan-André Kuhlmann & Stefan Will. (2010) Investigations on Soot Formation in Heptane Jet Diffusion Flames by Optical Techniques. Microgravity Science and Technology 22:4, pages 499-505.
Crossref
Wenjun Kong & Fengshan Liu. (2009) Effects of Gravity on Soot Formation in a Coflow Laminar Methane/Air Diffusion Flame. Microgravity Science and Technology 22:2, pages 205-214.
Crossref

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