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Combustion Science and Technology Volume 184, 2012 - Issue 5
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Original Articles

Effects of Swirl on Intermittency Characteristics in Non-Premixed Flames

K. K. J. Ranga Dinesh Engineering Department, Lancaster University, Lancaster, Lancashire, UKCorrespondence[email protected]
,
K. W. Jenkins School of Engineering, Cranfield University, Cranfield, Bedford, UK
,
M. P. Kirkpatrick School of Aerospace, Mechanical and Mechatronic Engineering, The University of Sydney, Sydney, Australia
&
W. Malalasekera Wolfson School of Mechanical and Manufacturing Engineering, Loughborough University, Loughborough, Leicestershire, UK
Pages 629-659 | Received 18 Feb 2011, Accepted 22 Dec 2011, Published online: 14 May 2012

Citations (15)

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Read on this site (2)

Mohammad Safavi & Ehsan Amani. (2018) A comparative study of turbulence models for non-premixed swirl-stabilized flames. Journal of Turbulence 19:11-12, pages 1017-1050.
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V. Mahendra Reddy, Darshan Trivedi, Darshan Sawant & Sudarshan Kumar. (2015) Investigations on Emission Characteristics of Liquid Fuels in a Swirl Combustor. Combustion Science and Technology 187:3, pages 469-488.
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Articles from other publishers (13)

Mohamed Y. Hashim, Jonggeun Bae & Jeekeun Lee. (2023) Experimental and numerical studies of the effects of the contraction ratios on the swirling flow characteristics of the model combustor outlet in lean gas turbines. Applied Thermal Engineering 218, pages 119371.
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Wei Du, Shuiqing Zhou, Huichong Qiu, Jianguo Zhao & Yutao Fan. (2022) Experiment and numerical study of the combustion behavior of hydrogen-blended natural gas in swirl burners. Case Studies in Thermal Engineering 39, pages 102468.
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Maarten Vanierschot, Jens S. Müller, Moritz Sieber, Mustafa Percin, Bas W. van Oudheusden & Kilian Oberleithner. (2019) Single- and double-helix vortex breakdown as two dominant global modes in turbulent swirling jet flow. Journal of Fluid Mechanics 883.
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Omer Musa, Li Weixuan, Chen Xiong, Gong Lunkun & Liao Wenhe. (2018) Experimental investigation on the effect of swirling flow on combustion characteristics and performance of solid fuel ramjet. Acta Astronautica 148, pages 163-174.
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Omer Musa, Chen Xiong, Zhou Chang-sheng, Li Ying-kun & Liao Wen-He. (2018) Investigations on the influence of swirl intensity on solid-fuel ramjet engine. Computers & Fluids 167, pages 82-99.
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Omer Musa, Chen Xiong & Zhou Changsheng. (2017) Combustion characteristics and turbulence modeling of swirling reacting flow in solid fuel ramjet. Acta Astronautica 139, pages 1-17.
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Omer Musa, Chen Xiong, Zhou Changsheng & Weixuan Li. (2017) Effect of inlet conditions on swirling turbulent reacting flows in a solid fuel ramjet engine. Applied Thermal Engineering 113, pages 186-207.
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Omer Musa, Chen Xiong, Zhou Changsheng & Gong Lunkun. (2016) Assessment of the modified rotation/curvature correction SST turbulence model for simulating swirling reacting unsteady flows in a solid-fuel ramjet engine. Acta Astronautica 129, pages 241-252.
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Babak Kashir, Sadegh Tabejamaat & Nafiseh Jalalatian. (2015) The impact of hydrogen enrichment and bluff-body lip thickness on characteristics of blended propane/hydrogen bluff-body stabilized turbulent diffusion flames. Energy Conversion and Management 103, pages 1-13.
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Babak Kashir, Sadegh Tabejamaat & Nafiseh Jalalatian. (2015) A numerical study on combustion characteristics of blended methane-hydrogen bluff-body stabilized swirl diffusion flames. International Journal of Hydrogen Energy 40:18, pages 6243-6258.
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V. Mahendra Reddy, Amit Katoch, William L. Roberts & Sudarshan Kumar. (2015) Experimental and numerical analysis for high intensity swirl based ultra-low emission flameless combustor operating with liquid fuels. Proceedings of the Combustion Institute 35:3, pages 3581-3589.
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K.K.J. Ranga Dinesh, K.H. Luo, M.P. Kirkpatrick & W. Malalasekera. (2013) Burning syngas in a high swirl burner: Effects of fuel composition. International Journal of Hydrogen Energy 38:21, pages 9028-9042.
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K.K.J. Ranga Dinesh, X. Jiang, M.P. Kirkpatrick & W. Malalasekera. (2012) Combustion characteristics of H2/N2 and H2/CO syngas nonpremixed flames. International Journal of Hydrogen Energy 37:21, pages 16186-16200.
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