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Combustion Science and Technology Volume 92, 1993 - Issue 1-3
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Original Articles

The Effects of Ambient Pressure Upon Global Shape and Hydrodynamic Behavior of Buoyant Laminar Jet Diffusion Flames

T. YUAN Laboratoire d'Aérothermique, CNRS 4ter Route des gardes, Meudon, 92190, FRANCE Fax:
,
D. DUROX Laboratoire d'Aérothermique, CNRS 4ter Route des gardes, Meudon, 92190, FRANCE Fax:
&
E. VILLERMAUX Institut de Mécanique de Grenoble, U.M.R. 101, BP 53 X, Grenoble, 38041, FRANCE Fax:
Pages 69-86 | Received 06 Jul 1992, Accepted 01 Feb 1993, Published online: 17 Apr 2007

Citations (14)

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Anurag Mishra, Pushan Sharma, Bisrat Yoseph Gebreyesus, Mayank Kumar & Anjan Ray. (2022) A Comprehensive Study on Flame Length under Oxygen Enhanced Laminar Non-premixed Combustion. Combustion Science and Technology 0:0, pages 1-22.
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Hamidreza Gohari Darabkhani & Yang Zhang. (2010) Methane Diffusion Flame Dynamics at Elevated Pressures. Combustion Science and Technology 182:3, pages 231-251.
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A. K. AGRAWAL, S. M. CHERRY & S. R. GOLLAHALLI. (1998) Effects of Buoyancy on Steady Hydrogen Gas-jet Diffusion Flames. Combustion Science and Technology 140:1-6, pages 51-68.
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Articles from other publishers (11)

Xiao Yang, Shijiu Ma, Jianmin Gao, Qian Du, Yu Zhang, Heming Dong, Shaohua Wu & Yukun Qin. (2023) Mechanism and effect assessment of sub-atmospheric pressure and co-flow air to suppress the flicker of buoyancy-driven methane laminar diffusion flame. Fuel Processing Technology 242, pages 107649.
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Haihang Li & Fei Tang. (2021) Effect of sub‐atmospheric pressures on buoyancy‐dominated hydrocarbon fuel fires: An experimental analysis on thermal flickering frequency. Fire and Materials 46:5, pages 762-770.
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Jinfei Zhao, Jiahao Liu, Haihang Li & Jian Wang. (2021) Flame projection lengths of horizontally oriented buoyant jet fires under different air pressures. Case Studies in Thermal Engineering 27, pages 101327.
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Jian Chen, Michael Delichatsios, Zhiwei Ding, Changhai Li & Shouxiang Lu. (2020) The effect of pressure on the characteristics of laminar jet diffusion flame: A similarity analysis and experimental study. Experimental Thermal and Fluid Science 116, pages 110127.
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Pingchuan Ma, Haihang Li & jian Wang. (2019) Scaling of heights and widths of laminar jet diffusion flames under subatmospheric pressures. IOP Conference Series: Earth and Environmental Science 257, pages 012041.
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Qiang Wang, Longhua Hu, Adriana Palacios & Suk Ho Chung. (2019) Burning characteristics of candle flames in sub-atmospheric pressures: An experimental study and scaling analysis. Proceedings of the Combustion Institute 37:2, pages 2065-2072.
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Jun Fang, Jing-wu Wang, Jin-fu Guan, Yong-ming Zhang & Jin-jun Wang. (2016) Momentum- and buoyancy-driven laminar methane diffusion flame shapes and radiation characteristics at sub-atmospheric pressures. Fuel 163, pages 295-303.
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J Li & Y Zhang. (2010) Fuel mixing effect on the flickering of jet diffusion flames. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 225:1, pages 155-162.
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H. Gohari Darabkhani, J. Bassi, H.W. Huang & Y. Zhang. (2009) Fuel effects on diffusion flames at elevated pressures. Fuel 88:2, pages 264-271.
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Burt W. Albers & Ajay K. Agrawal. (1999) Schlieren analysis of an oscillating gas-jet diffusion flame. Combustion and Flame 119:1-2, pages 84-94.
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D. Durox, T. Yuan, F. Baillot & J.M. Most. (1995) Premixed and diffusion flames in a centrifuge. Combustion and Flame 102:4, pages 501-511.
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