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Combustion Science and Technology Volume 28, 1982 - Issue 5-6
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Original Articles

An Analysis of the Forced Convective Burning of a Combustible Particle

A. C. FERNANDEZ-PELLO Department of Mechanical Engineering, University of California, Berkeley, CA, 94720
Pages 305-313 | Received 05 Oct 1981, Accepted 23 Dec 1981, Published online: 10 May 2007

Citations (18)

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Read on this site (4)

C.R. XU & W.B. FU. (1998) Study on the Burning Rate of a Char Particle under Forced Convection Conditions. Combustion Science and Technology 138:1-6, pages 27-42.
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CHANGRONG XU & WEIBIAO FU. (1997) Study on the Burning Rate of a Carbon Particle Under Forced Convection Conditions. Combustion Science and Technology 124:1-6, pages 167-182.
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J. H. Kim & S. H. Park. (1996) NUMERICAL STUDY ON COMBUSTION OF A LIQUID FUEL DROPLET. Numerical Heat Transfer, Part A: Applications 29:8, pages 843-858.
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R. H. RANGEL & A. C. FERNANDEZ-PELLO. (1984) Mixed Convective Droplet Combustion with Internal Circulation. Combustion Science and Technology 42:1-2, pages 47-65.
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Articles from other publishers (14)

N P Kopylov, I R Khasanov, A E Kuznetsov & E Yu Sushkina. (2022) Spark transfer in forest fires and their localization using aviation. Journal of Physics: Conference Series 2389:1, pages 012012.
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Maria Thomsen, Carlos Fernandez-Pello, Xinyan Huang, Sandra L. Olson & Paul V. Ferkul. (2019) Opposed flow burning of PMMA cylinders in normoxic atmospheres. Fire Safety Journal 110, pages 102903.
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Ali Tohidi & Nigel Berkeley Kaye. (2017) Aerodynamic characterization of rod-like debris with application to firebrand transport. Journal of Wind Engineering and Industrial Aerodynamics 168, pages 297-311.
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Sara E. Caton, Raquel S. P. Hakes, Daniel J. Gorham, Aixi Zhou & Michael J. Gollner. (2016) Review of Pathways for Building Fire Spread in the Wildland Urban Interface Part I: Exposure Conditions. Fire Technology 53:2, pages 429-473.
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Eunmo Koo, Rodman R. Linn, Patrick J. Pagni & Carleton B. Edminster. (2012) Modelling firebrand transport in wildfires using HIGRAD/FIRETEC. International Journal of Wildland Fire 21:4, pages 396.
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Eunmo Koo, Patrick J. Pagni, David R. Weise & John P. Woycheese. (2010) Firebrands and spotting ignition in large-scale fires. International Journal of Wildland Fire 19:7, pages 818.
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Rolf K. Eckhoff. 2003. Dust Explosions in the Process Industries. Dust Explosions in the Process Industries 251 IV .
Joel Daou. (1998) Ignition and combustion of fuel pockets moving in an oxidizing atmosphere. Combustion and Flame 115:3, pages 383-394.
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Gwo-Guang Wang & Jing-Tang Yang. (1992) Convective thermal ignition of an individual polymethylmethacrylate particle. Journal of Thermophysics and Heat Transfer 6:2, pages 333-340.
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J.S. Tsai & Arthur M. Sterling. (1991) The combustion of a linear droplet array in a convective, coaxial potential flow. Combustion and Flame 86:3, pages 189-202.
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Ching China Ji, S.D. Lee & Ruben D. Cohen. (1989) Steady combustion of a gaseous fuel flowing over a hot vertical surface. Combustion and Flame 76:2, pages 133-142.
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S. Prakash & Gopal Krishan. (1985) Convective droplet vaporization with transient non-convective liquid-phase heating. Symposium (International) on Combustion 20:1, pages 1735-1742.
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A.C. Fernandez-Pello. (1983) Theory of the mixed convective combustion of a spherical fuel particle. Combustion and Flame 53:1-3, pages 23-32.
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A.C. Fernandez-Pello & C.K. Law. (1982) On the mixed-convective flame structure in the stagnation point of a fuel particle. Symposium (International) on Combustion 19:1, pages 1037-1044.
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