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Combustion Science and Technology Volume 17, 1977 - Issue 3-4
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Original Articles

Theoretical Analysis on Flame Stabilization by a Bluff-Body

K. M. KUNDU Central Mechanical Engineering Research Institute, Durgapur, 713209, India
,
D. BANERJEE Bengal Engineering College, Howrah-3, India
&
D. BHADURI Central Mechanical Engineering Research Institute, Durgapur, 713209, India
Pages 153-162 | Received 21 Mar 1977, Accepted 29 Jun 1977, Published online: 07 May 2007

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Vadim N. Kurdyumov & Carmen Jiménez. (2022) Flame stabilisation by a highly conductive body: multiple steady-state solutions and time-dependent dynamics. Combustion Theory and Modelling 26:4, pages 669-685.
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J.-T. YANG & C.-W. YEN. (1996) Reacting Flow Over a Non-Traditional Flame Stabilizer. Combustion Science and Technology 112:1, pages 95-116.
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D. G. Talley. (1988) The Influence of Upstream Mixture Stratification on the Stabilization of Flames Behind Bluff Bodies. Combustion Science and Technology 59:1-3, pages 199-211.
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Articles from other publishers (37)

Gautham Vadlamudi, Akhil Aravind & Saptarshi Basu. (2023) Insights into the flame transitions and flame stabilization mechanisms in a freely falling burning droplet encountering a co-flow. Journal of Fluid Mechanics 977.
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Gurunadh Velidi & Chun Sang Yoo. (2023) A Review on Flame Stabilization Technologies for UAV Engine Micro-Meso Scale Combustors: Progress and Challenges. Energies 16:9, pages 3968.
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A.M. Hamed, M.M. Kamal, M. Abd ElHameed, W. Aboelsoud & A.E. Hussin. (2023) Hollow bluff body-stabilized natural gas-air premixed flames. Fuel 334, pages 126717.
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A.M. Hamed, M.M. Kamal & A.E. Hussin. (2023) Characteristics of hollow bluff body-stabilized natural gas-air premixed flames with heat recirculation. Fuel 333, pages 126430.
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Georgios Paterakis, Konstantinos Souflas, Andreas Naxakis & Panayiotis Koutmos. (2021) A Study of Recirculating Flow Fields Downstream of a Diverse Range of Axisymmetric Bluff Body Geometries Suitable for Flame Stabilization. Aerospace 8:11, pages 339.
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Pier Carlo Nassini, Daniele Pampaloni, Roberto Meloni & Antonio Andreini. (2021) Lean blow-out prediction in an industrial gas turbine combustor through a LES-based CFD analysis. Combustion and Flame 229, pages 111391.
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Ziwan Li, Yixiang Yuan, V.L. Varsegov, Baoting Guo, Bo Xiao & P.H. Duan. (2021) Study on the mixing characteristics of circular transverse jet in crossflow. Aerospace Science and Technology 112, pages 106599.
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. 2020. Stabilization and Dynamic of Premixed Swirling Flames. Stabilization and Dynamic of Premixed Swirling Flames 345 367 .
Paul Palies. 2020. Stabilization and Dynamic of Premixed Swirling Flames. Stabilization and Dynamic of Premixed Swirling Flames 159 210 .
Jicang Si, Guochang Wang & Jianchun Mi. (2019) Characterization of MILD Combustion of a Premixed CH 4 /Air Jet Flame versus Its Conventional Counterpart . ACS Omega 4:27, pages 22373-22384.
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G. Wang, J. Si, M. Xu & J. Mi. (2019) MILD combustion versus conventional bluff-body flame of a premixed CH4/air jet in hot coflow. Energy 187, pages 115934.
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Abhishek Kaluri, Philip Malte & Igor Novosselov. (2018) Real-time prediction of lean blowout using chemical reactor network. Fuel 234, pages 797-808.
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S. Berger, F. Duchaine & L. Y. M. Gicquel. (2017) Bluff-body Thermal Property and Initial State Effects on a Laminar Premixed Flame Anchoring Pattern. Flow, Turbulence and Combustion 100:2, pages 561-591.
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Yu Jeong Kim, Bok Jik Lee & Hong G. Im. (2018) Dynamics of lean premixed flames stabilized on a meso-scale bluff-body in an unconfined flow field. Mathematical Modelling of Natural Phenomena 13:6, pages 48.
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Jingzhang Liu, Zhaohui Liu, Sheng Chen, Stanley Ong Santos & Chuguang Zheng. (2017) A numerical investigation on flame stability of oxy-coal combustion: Effects of blockage ratio, swirl number, recycle ratio and partial pressure ratio of oxygen. International Journal of Greenhouse Gas Control 57, pages 63-72.
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R. Santhosh & Saptarshi Basu. (2016) Transitions and blowoff of unconfined non-premixed swirling flame. Combustion and Flame 164, pages 35-52.
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Chukwuka Mbagwu & James F. Driscoll. (2016) A Method to Compute Flameout Limits of Scramjet-Powered Hypersonic Vehicles. A Method to Compute Flameout Limits of Scramjet-Powered Hypersonic Vehicles.
Chukwuka Mbagwu & James F. Driscoll. (2015) A Method to Compute Flameout Limits of Scramjet-Powered Hypersonic Vehicles. A Method to Compute Flameout Limits of Scramjet-Powered Hypersonic Vehicles.
Kushal S. Kedia & Ahmed F. Ghoniem. (2015) The blow-off mechanism of a bluff-body stabilized laminar premixed flame. Combustion and Flame 162:4, pages 1304-1315.
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Shengrong Zhu & Sumanta Acharya. (2014) Flame Dynamics With Hydrogen Addition at Lean Blowout Limits. Journal of Engineering for Gas Turbines and Power 136:5.
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Ivan R. Sigfrid, Ronald Whiddon, Robert Collin & Jens Klingmann. (2014) Influence of reactive species on the lean blowout limit of an industrial DLE gas turbine burner. Combustion and Flame 161:5, pages 1365-1373.
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Shengrong Zhu & Sumanta Acharya. (2012) An Experimental Study of Lean Blowout With Hydrogen-Enriched Fuels. Journal of Engineering for Gas Turbines and Power 134:4.
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Qingguo Zhang, Santosh J. Shanbhogue & Tim Lieuwen. (2010) Dynamics of Premixed H2/CH4 Flames Under Near Blowoff Conditions. Journal of Engineering for Gas Turbines and Power 132:11.
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Santosh J. Shanbhogue, Sajjad Husain & Tim Lieuwen. (2009) Lean blowoff of bluff body stabilized flames: Scaling and dynamics. Progress in Energy and Combustion Science 35:1, pages 98-120.
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James F. Driscoll & Chadwick C. Rasmussen. (2005) Correlation and Analysis of Blowout Limits of Flames in High-Speed Airflows. Journal of Propulsion and Power 21:6, pages 1035-1044.
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J. Driscoll, M. Lewis, K. Yu, W. Dahm, A. Gupta, A. Marshall, D. Van Wie & C. Cadou. (2004) Propulsion Research Conducted at the University of Maryland - University of Michigan Space Vehicle Technology Institute. Propulsion Research Conducted at the University of Maryland - University of Michigan Space Vehicle Technology Institute.
Gang Chen, Ji‐Hua Qiu, Ming‐Hou Xu & Chu‐Guang Zheng. (2008) Investigation and Application of “Bluff‐body in Cavity” Burner for Pulverized Coal Combustion. Developments in Chemical Engineering and Mineral Processing 9:3-4, pages 357-370.
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Muh-Rong Wang, Kuang-De Jen, Yung-Sheng Shiue & Wei-Hsiang Lai. (1995) Fuel Injection Technique to Control the Flame Limits of a Twin-Plate Flameholder. International Journal of Turbo and Jet Engines 12:2.
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M.R. Wang, K.D. Jen, C.J. Kuo & W.H. Lai. (1994) Flameholding Characteristics of Twin-Plate Flameholders. International Journal of Turbo and Jet Engines 11:4.
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D. Thevenin & S. Candel. (1994) Diffusion and premixed flame ignition dynamics in a field of variable strain rate. Symposium (International) on Combustion 25:1, pages 1547-1554.
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G. Garrard & C. Bartlett. (1993) Premixed, turbulent hydrogen and air combustion using piloted, two-dimensional bluff body flame holders. Premixed, turbulent hydrogen and air combustion using piloted, two-dimensional bluff body flame holders.
PHILIP BALAAM & MICHAEL MICCI. (1990) The stabilization and spectroscopic study of microwave generated resonant cavity plasmas. The stabilization and spectroscopic study of microwave generated resonant cavity plasmas.
R. G. BillJr.Jr.. (1985) Flame structures in the near wake of circular cylinders. AIAA Journal 23:12, pages 1872-1876.
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Shigeki Yamaguchi, Norio Ohiwa & Tatsuya Hasegawa. (1985) Structure and blow-off mechanism of rod-stabilized premixed flame. Combustion and Flame 62:1, pages 31-41.
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N.A. Al Dabbagh & G.E. Andrews. (1984) Weak extinction and turbulent burning velocity for grid plate stabilized premixed flames. Combustion and Flame 55:1, pages 31-52.
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Merrill K. King. (1982) Ignition and Combustion of Boron Particles and Clouds. Journal of Spacecraft and Rockets 19:4, pages 294-306.
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Krishnan Radhakrishnan, John B. Heywood & Rodney J. Tabaczynski. (1981) Premixed turbulent flame blowoff velocity correlation based on coherent structures in turbulent flows. Combustion and Flame 42, pages 19-33.
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