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Combustion Science and Technology Volume 158, 2000 - Issue 1
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Original Articles

Study of the Mechanisms of Flame Acceleration in a Tube of Constant Cross Section

S. KERAMPRAN Laboratoire de Combustion et de Détonique (UPR 9028 CNRS) Université de Poitiers - ENSMA
,
D. DESBORDES Laboratoire de Combustion et de Détonique (UPR 9028 CNRS) Université de Poitiers - ENSMA
&
B. VEYSSIÈRE Laboratoire de Combustion et de Détonique (UPR 9028 CNRS) Université de Poitiers - ENSMA
Pages 71-91 | Received 01 May 2000, Published online: 15 May 2007

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Ting Shen & Huahua Xiao. (2022) Numerical study of the stability of premixed flames propagating in half-open tubes. Combustion Theory and Modelling 26:4, pages 774-795.
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Vitaly Bychkov, Damir Valiev, V'yacheslav Akkerman & ChungK. Law. (2012) Gas Compression Moderates Flame Acceleration in Deflagration-to-Detonation Transition. Combustion Science and Technology 184:7-8, pages 1066-1079.
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Articles from other publishers (36)

Fan Nan, Zhen-min Luo, Fang-ming Cheng, Rui-kang Li, Ding-han Li, Ya-li Sun & Tao Wang. (2024) Quantitative study on the inhibitory effect of carbon dioxide on hydrogen explosion and the production of carbon monoxide. International Journal of Hydrogen Energy 58, pages 1576-1586.
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Chengeng Qian & Mikhail A. Liberman. (2023) On the mechanism of “tulip flame” formation: The effect of ignition sources. Physics of Fluids 35:11.
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Zhuangzhuang Xu, Haoxin Deng, Shengnan Wei, Mengmeng Yan, Xiaoping Wen, Fahui Wang & Guoyan Chen. (2023) Experimental and numerical study of the effect of initial temperature on the combustion characteristics of premixed syngas/air flame. International Journal of Hydrogen Energy 48:12, pages 4875-4890.
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Siyu Zhang, Xiaoping Wen, Zhidong Guo, Sumei Zhang & Wentao Ji. (2023) Experimental study on the multi-level suppression of N2 and CO2 on hydrogen-air explosion. Process Safety and Environmental Protection 169, pages 970-981.
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Xu Qiming, Chen Guohua, Zhang Qiang & Su Shen. (2022) Numerical simulation study and dimensional analysis of hydrogen explosion characteristics in a closed rectangular duct with obstacles. International Journal of Hydrogen Energy 47:92, pages 39288-39301.
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Y. Ballossier, F. Virot & J. Melguizo-Gavilanes. (2021) Flame propagation and acceleration in narrow channels: sensitivity to facility specific parameters. Shock Waves 31:4, pages 307-321.
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Haoxin Deng, Zhifeng Yao, Guoyan Chen, Xiaoping Wen, Fahui Wang, Qiaosheng Zhang, Jianfei Dong & Mingming Huang. (2021) Numerical study of the effects of laminar flame speed on flame dynamics in the early stages of flame propagation in two-dimensional half open tubes. International Journal of Hydrogen Energy 46:1, pages 1288-1301.
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Michael A. LibermanMichael A. Liberman. 2021. Combustion Physics. Combustion Physics 241 277 .
Xuxu Sun & Shouxiang Lu. (2020) On the mechanisms of flame propagation in methane-air mixtures with concentration gradient. Energy 202, pages 117782.
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Xufeng Yang, Minggao Yu, Kai Zheng, Pengpeng Luan & Shixin Han. (2020) An experimental study on premixed syngas/air flame propagating across an obstacle in closed duct. Fuel 267, pages 117200.
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Mohammadreza Baigmohammadi, Olivier Roussel & Claude M. Dion. (2019) A Numerical Study of Lean Propane-Air Flame Acceleration at the Early Stages of Burning in Cold and Hot Isothermal Walled Small-Size Tubes. Flow, Turbulence and Combustion 104:1, pages 179-207.
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Zexu Li, Jiansong Wu, Mingyu Liu, Yuntao Li & Qiuju Ma. (2019) Numerical Analysis of the Characteristics of Gas Explosion Process in Natural Gas Compartment of Utility Tunnel Using FLACS. Sustainability 12:1, pages 153.
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Guillaume Lecocq, Emmanuel Leprette, Jérôme Daubech & Christophe Proust. (2019) Further insight into the gas flame acceleration mechanisms in pipes. Part II: Numerical work. Journal of Loss Prevention in the Process Industries 62, pages 103919.
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Ligang Zheng, Zengguo Dou, Depeng Du, Xi Wang, Hongwang Jin, Minggao Yu & Yan Wang. (2019) Study on explosion characteristics of premixed hydrogen/biogas/air mixture in a duct. International Journal of Hydrogen Energy 44:49, pages 27159-27173.
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Hui-Ning Yang, Yu-Jhen Lin, Chien-Ho Liu, Mo-Geng Chin, Cheng-Chieh Wang, Hsiao-Yun Tsai & Jenq-Renn Chen. (2019) Suppression of flame propagation in a long duct by inertia isolation with inert gases. Journal of Loss Prevention in the Process Industries 59, pages 23-34.
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Joshua A. Gray & Deanna A. Lacoste. (2019) Effects of Nanosecond Repetitively Pulsed Plasma Discharges on a Propagating Hydrogen--Air Flame. Effects of Nanosecond Repetitively Pulsed Plasma Discharges on a Propagating Hydrogen--Air Flame.
Sheng Qi, Yang Du, Peili Zhang, Guoqing Li, Shimao Wang, Yangchao Li & Tong Dong. (2018) Experimental study of gasoline vapor deflagration in a duct with an open end. Combustion and Flame 193, pages 16-24.
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Kai Zheng, Minggao Yu, Ligang Zheng, Xiaoping Wen, Tingxiang Chu & Liang Wang. (2017) Experimental study on premixed flame propagation of hydrogen/methane/air deflagration in closed ducts. International Journal of Hydrogen Energy 42:8, pages 5426-5438.
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Russell A. Ogle. 2017. Dust Explosion Dynamics. Dust Explosion Dynamics 499 566 .
Berk Demirgok, Hayri Sezer & V’yacheslav Akkerman. (2015) Flame acceleration due to wall friction: Accuracy and intrinsic limitations of the formulations. Modern Physics Letters B 29:32, pages 1550205.
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Minggao Yu, Kai Zheng, Ligang Zheng, Tingxiang Chu & Pinkun Guo. (2015) Scale effects on premixed flame propagation of hydrogen/methane deflagration. International Journal of Hydrogen Energy 40:38, pages 13121-13133.
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Thomas A. ConnellyDimitrios C. Kyritsis. (2015) Experimental Investigation of Flame Propagation in Long, Narrow, and Open Tubes. Journal of Energy Engineering 141:2.
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Berk Demirgok, Orlando Ugarte, Damir Valiev & V’yacheslav Akkerman. (2015) Effect of thermal expansion on flame propagation in channels with nonslip walls. Proceedings of the Combustion Institute 35:1, pages 929-936.
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Bogdan Ponizy, Alain Claverie & Bernard Veyssière. (2014) Tulip flame - the mechanism of flame front inversion. Combustion and Flame 161:12, pages 3051-3062.
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Joshua Gray, Jonas P. Moeck & Christian O. Paschereit. (2013) Flame Propagation from the Closed End of an Open-ended Tube: an analysis of the effects of fuel type, tube length, and equivalence ratio and an insight into flame dynamics. Flame Propagation from the Closed End of an Open-ended Tube: an analysis of the effects of fuel type, tube length, and equivalence ratio and an insight into flame dynamics.
Fernando F. Fachini & Luc Bauwens. (2013) Oscillatory flame propagation: Coupling with the acoustic field. Proceedings of the Combustion Institute 34:2, pages 2043-2048.
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V. V. Golub, D. I. Baklanov, S. V. Golovastov, K. V. Ivanov, M. F. Ivanov, A. D. Kiverin & V. V. Volodin. 2012. 28th International Symposium on Shock Waves. 28th International Symposium on Shock Waves 273 279 .
Damir M. Valiev, Vitaly Bychkov, V’yacheslav Akkerman & Lars-Erik Eriksson. (2009) Different stages of flame acceleration from slow burning to Chapman-Jouguet deflagration. Physical Review E 80:3.
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Luc Bauwens, C. Regis L. Bauwens & Ida Wierzba. (2009) Oscillating flames: multiple-scale analysis. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences 465:2107, pages 2089-2110.
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C. Regis L. Bauwens, Luc Bauwens & Ida Wierzba. (2007) Accelerating flames in tubes—an analysis. Proceedings of the Combustion Institute 31:2, pages 2381-2388.
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Vitaly Bychkov & V’yacheslav Akkerman. (2006) Explosion triggering by an accelerating flame. Physical Review E 73:6.
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V'yacheslav Akkerman, Vitaly Bychkov, Arkady Petchenko & Lars-Erik Eriksson. (2006) Accelerating flames in cylindrical tubes with nonslip at the walls. Combustion and Flame 145:1-2, pages 206-219.
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Vadim N. Gamezo & Elaine S. Oran. (2006) Flame Acceleration in Narrow Channels: Applications for Micropropulsion in Low-Gravity Environments. AIAA Journal 44:2, pages 329-336.
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Vitaly Bychkov, Arkady Petchenko, V’yacheslav Akkerman & Lars-Erik Eriksson. (2005) Theory and modeling of accelerating flames in tubes. Physical Review E 72:4.
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T. Rung, U. Bunge, M. Schatz & F. Thiele. (2003) Restatement of the Spalart-Allmaras Eddy-Viscosity Model in Strain-Adaptive Formulation. AIAA Journal 41:7, pages 1396-1399.
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James D. Ott, Elaine S. Oran & John D. AndersonJr.Jr.. (2003) A Mechanism for Flame Acceleration in Narrow Tubes. AIAA Journal 41:7, pages 1391-1396.
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