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Combustion Theory and Modelling Volume 10, 2006 - Issue 6
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Original Articles

A numerical study on extinction behaviour of laminar micro-diffusion flames

Y. Nakamura Division of Mechanical and Space Engineering, Hokkaido University, N 13 W 8, Kita-ku, 060-8628, Sapporo, Japan
,
H. Yamashita Department of Mechanical Science and Engineering, Nagoya University, Furo-cho, Chikusa-ku, 464-8603, Nagoya, Japan
&
K. Saito Department of Mechanical Engineering, University of Kentucky, Lexington, KY, 40508, USA
Pages 927-938 | Published online: 03 Feb 2007

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Yingying Xu, Xiaoxiang Chen & Zhuo Xiong. (2023) Influence of CO addition on the flame structure and temperature of a micro-jet methane diffusion flame. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 45:1, pages 2496-2508.
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Jiepeng Huo, Hang Su, Liqiao Jiang, Daiqing Zhao, Xing Li & Xiaohan Wang. (2022) The Effect of Gap Width on Premixed Flame Propagation in Non-adiabatic Closed Hele–Shaw Cells. Combustion Science and Technology 194:13, pages 2793-2816.
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Taro Hirasawa, Kunihiro Gotanda, Hiroki Masuda & Yuji Nakamura. (2012) Impact of Flame–Flame Interactions in Identical Twin Diffusion Microflames. Combustion Science and Technology 184:10-11, pages 1651-1663.
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Articles from other publishers (38)

Kaifeng Liu, Haolan Tan & Aiwu Fan. (2024) A numerical study on the structure and dynamics of fuel-rich premixed H2–air jet flames above a divergent micro-nozzle. International Journal of Hydrogen Energy 49, pages 240-252.
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Bin Hou & Aiwu Fan. (2022) A numerical study on the combustion limits of mesoscale methane jet flames with hydrogen addition. International Journal of Hydrogen Energy 47:71, pages 30639-30652.
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Bing Liu, Yikun Chen, Huachen Liu, Qiao Wu, Minghui Wang & Jianlong Wan. (2022) Effect of Thermal Conductivity of Tube-Wall on Blow-Off Limit of a Micro-Jet Methane Diffusion Flame. Energy Engineering 119:2, pages 815-826.
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Daisuke SATO, Shuta NAKACHI, Kaito HONDA, Keisuke OBU, Toshiyuki KATSUMI & Satoshi KADOWAKI. (2022) Experimental analysis on micro diffusion flames formed by oxygen combustion of H<sub>2</sub>-CO<sub>2</sub> mixture using counterflow burners. Journal of Thermal Science and Technology 17:1, pages 22-00012-22-00012.
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Qiumin Chen, Xiang Wang, Jingsong Gong & Shengli Xu. (2022) Numerical investigation of the combustion characteristics of hydrogen and oxygen in a microthruster. International Journal of Hydrogen Energy 47:8, pages 5627-5637.
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Aravind Muraleedharan, Jithin Edacheri Veetil, Akram Mohammad, Sudarshan Kumar & Ratna Kishore Velamati. (2021) Effect of Burner Wall Material on Microjet Hydrogen Diffusion Flames near Extinction: A Numerical Study. Energies 14:24, pages 8266.
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Haolin Yang, Yong Wu, Xiaojun Zeng, Xiaohan Wang & Daiqing Zhao. (2021) Partially-Premixed Combustion Characteristics and Thermal Performance of Micro Jet Array Burners with Different Nozzle Spacings. Journal of Thermal Science 30:5, pages 1718-1730.
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Dinggen Li, Renlang Wang, Gang Yang & Jianlong Wan. (2021) Effect of hydrogen addition on the structure and stabilization of a micro-jet methane diffusion flame. International Journal of Hydrogen Energy 46:7, pages 5790-5798.
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Xing Li, Shengrong Xie, Jing Zhang, Daiqing Zhao & Xiaohan Wang. (2020) Experimental and numerical study on the quenching limits and mechanism of small-scale H2 diffusion flames. International Journal of Hydrogen Energy 45:58, pages 34281-34291.
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Aravind Muraleedharan, E.V. Jithin, B. Aravind, Sudarshan Kumar & Ratna Kishore Velamati. (2020) Combustion characteristics of syngas laminar microjet diffusion flames. Journal of the Taiwan Institute of Chemical Engineers 115, pages 47-59.
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Ying Xiang, Shixuan Wang, Zili Yuan & Aiwu Fan. (2020) Effects of channel length on propagation behaviors of non-premixed H2-air flames in Y-shaped micro combustors. International Journal of Hydrogen Energy 45:39, pages 20449-20457.
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Dan Li, Bing Liu, Long Huang, Lei Liu, Wei-chang Ke, Jian-long Wan & Hao Liu. (2020) A non-monotonic blow-off limit of micro-jet methane diffusion flame at different tube-wall thicknesses不同管壁厚度下甲烷扩散微射流火焰的非单调吹熄极限. Journal of Central South University 27:6, pages 1880-1890.
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Tomomi Sasaki & Kazunori Kuwana. (2020) Buoyancy Effects on the Shape of a Small Axisymmetric Diffusion Flame. JOURNAL OF CHEMICAL ENGINEERING OF JAPAN 53:2, pages 58-63.
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Luyao Zhao, Dan Zhang, Jingwu Wang, Jun Fang, Kaiyuan Li, Jinfu Guan, Jinjun Wang & Yongming Zhang. 2020. The Proceedings of 11th Asia-Oceania Symposium on Fire Science and Technology. The Proceedings of 11th Asia-Oceania Symposium on Fire Science and Technology 65 76 .
Varun Kumar, Vivek Rastogi, Shilpi Agarwal & Chandra Shakher. (2019) Holo-shear lens based interferometer for measurement of temperature distribution and fluctuation of temperature in micro flame. Holo-shear lens based interferometer for measurement of temperature distribution and fluctuation of temperature in micro flame.
P. R. Resende, Mohsen Ayoobi & Alexandre M. Afonso. (2019) Numerical Investigations of Micro-Scale Diffusion Combustion: A Brief Review. Applied Sciences 9:16, pages 3356.
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Shilpi Agarwal, Vivek Rastogi, Varun Kumar, Satish K. Dubey & Chandra Shakher. (2019) Measurement of temperature and temperature fluctuations in wick stabilized micro flame using digital holographic interferometry. Measurement of temperature and temperature fluctuations in wick stabilized micro flame using digital holographic interferometry.
Vivek Rastogi, Shilpi Agarwal, Varun Kumar & Chandra Shakher. (2019) Temperature Measurement of Macro and Micro Diffusion Flame by Digital Holographic Interferometry using Volume Phase Holographic Grating. Temperature Measurement of Macro and Micro Diffusion Flame by Digital Holographic Interferometry using Volume Phase Holographic Grating.
Shilpi Agarwal & Chandra Shakher. (2018) Effect of magnetic field on temperature profile and flame flow characteristics of micro flame using Talbot interferometer. Optik 168, pages 817-826.
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Jian Gao, Akter Hossain, Tsuneyoshi Matsuoka & Yuji Nakamura. (2017) A numerical study on heat-recirculation assisted combustion for small scale jet diffusion flames at near-extinction condition. Combustion and Flame 178, pages 182-194.
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Jing Zhang, Xing Li, Haolin Yang, Liqiao Jiang, Xiaohan Wang & Daiqing Zhao. (2017) Study on the combustion characteristics of non-premixed hydrogen micro-jet flame and the thermal interaction with solid micro tube. International Journal of Hydrogen Energy 42:6, pages 3853-3862.
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Xing Li, Jing Zhang, Haolin Yang, Liqiao Jiang, Xiaohan Wang & Daiqing Zhao. (2017) Combustion characteristics of non-premixed methane micro-jet flame in coflow air and thermal interaction between flame and micro tube. Applied Thermal Engineering 112, pages 296-303.
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Yuji NAKAMURA, Jian GAO & Tsuneyoshi MATSUOKA. (2017) Progress in small-scale combustion. Journal of Thermal Science and Technology 12:1, pages JTST0001-JTST0001.
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Jian Gao, Akter Hossain & Yuji Nakamura. (2017) Flame base structures of micro-jet hydrogen/methane diffusion flames. Proceedings of the Combustion Institute 36:3, pages 4209-4216.
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Kazunori Kuwana, Seia Kato, Akihiro Kosugi, Taro Hirasawa & Yuji Nakamura. (2016) Experimental and theoretical study on the interaction between two identical micro-slot diffusion flames: Burner pitch effects. Combustion and Flame 165, pages 346-353.
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Akter Hossain & Yuji Nakamura. (2015) Thermal and chemical structures formed in the micro burner of miniaturized hydrogen-air jet flames. Proceedings of the Combustion Institute 35:3, pages 3413-3420.
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K Kuwana, S Kato, A Kosugi, T Hirasawa & Y Nakamura. (2014) Interaction of Two Micro-slot Flames: Heat Release Rate and Flame Shape. Journal of Physics: Conference Series 557, pages 012079.
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Akter Hossain & Yuji Nakamura. (2014) A numerical study on the ability to predict the heat release rate using CH* chemiluminescence in non-sooting counterflow diffusion flames. Combustion and Flame 161:1, pages 162-172.
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Kakeru Fujiwara & Yuji Nakamura. (2013) Experimental study on the unique stability mechanism via miniaturization of jet diffusion flames (microflame) by utilizing preheated air system. Combustion and Flame 160:8, pages 1373-1380.
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Tao Xu, Xue-nong Gao, Jing Yang, Yun-hua Gan, Ze-liang Yang & Zheng-guo Zhang. (2013) Experimental and Numerical Simulation Study of the Microscale Laminar Flow Diffusion Combustion of Liquid Ethanol. Industrial & Engineering Chemistry Research 52:23, pages 8021-8027.
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V.R. Lecoustre, P.B. Sunderland, B.H. Chao & R.L. Axelbaum. (2013) Modeled quenching limits of spherical hydrogen diffusion flames. Proceedings of the Combustion Institute 34:1, pages 887-894.
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Kakeru FUJIWARA, Yuji NAKAMURA & Taro HIRASAWA. (2011) Development of "Tiny" Droplet Flame Simulator: "Super-Stabilized" Micro-Jet Flame in a Hot Air. Journal of Thermal Science and Technology 6:2, pages 235-246.
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V.R. Lecoustre, P.B. Sunderland, B.H. Chao & R.L. Axelbaum. (2010) Extremely weak hydrogen flames. Combustion and Flame 157:11, pages 2209-2210.
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Yuji NAKAMURA, Hiroki MASUDA & Taro HIRASAWA. (2010) A Key Length Scale on Characterizing Microflames. Journal of High Temperature Society 36:5, pages 207-213.
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Nelson K. AKAFUAH & Kozo SAITO. (2010) Recent Advances in the Study of Micro-Diffusion Flames. Journal of High Temperature Society 36:5, pages 202-206.
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Yang Long & Indrek S. Wichman. (2009) Theoretical and numerical analysis of a spreading opposed-flow diffusion flame. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences 465:2110, pages 3209-3238.
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M. S. Butler, R. L. Axelbaum, C. W. Moran & P. B. Sunderland. (2008) Flame Quenching Limits of Hydrogen Leaks. SAE International Journal of Passenger Cars - Mechanical Systems 1:1, pages 605-612.
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Kazunori Kuwana, Nami Tagami, Satoru Mizuno & Tamio Ida. (2009) Extinction of laminar jet diffusion microflames. Proceedings of the Combustion Institute 32:2, pages 3115-3121.
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