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Combustion Science and Technology Volume 26, 1981 - Issue 3-4
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Original Articles

A Unified Analysis of Concurrent Modes of Flame Spread

C. FERNANDEZ-PELLO Department of Mechanical Engineering, University of California, Berkeley, CA, 94720
&
C.-P. MAO Department of Mechanical Engineering, University of California, Berkeley, CA, 94720
Pages 147-155 | Received 02 Feb 1981, Accepted 20 Apr 1981, Published online: 27 Apr 2007

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M. Thomsen, A. C. Fernandez-Pello & F. A. Williams. (2023) On the Growth of Wildland Fires from a Small Ignition Source. Combustion Science and Technology 195:14, pages 3542-3556.
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Hsin-Yi Shih & James S T'ien. (2003) A three-dimensional model of steady flame spread over a thin solid in low-speed concurrent flows. Combustion Theory and Modelling 7:4, pages 677-704.
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P. V. FERKUL & J. S. T'IEN. (1994) A Model of Low-Speed Concurrent Flow Flame Spread Over a Thin Fuel. Combustion Science and Technology 99:4-6, pages 345-370.
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PENELOPE MARKATOU, LISAD. PFEFFERLE & MITCHELLD. SMOOKE. (1991) The Influence of Surface Chemistry on the Development of Minor Species Profiles in the Premixed Boundary Layer Combustion of an H2/Air Mixture. Combustion Science and Technology 79:4-6, pages 247-268.
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A. C. Fernandez—Pello. (1984) Flame Spread Modeling. Combustion Science and Technology 39:1-6, pages 119-134.
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A. C. FERNANDEZ-PELLO & T. HIRANO. (1983) Controlling Mechanisms of Flame Spread. Combustion Science and Technology 32:1-4, pages 1-31.
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Articles from other publishers (19)

Hui Ying WANG & Némo DECAMPS. (2024) Effects of oxygen concentration of oxidizer flow on laminar diffusion flame established over liquid fuel beds at microgravity. Metascience in Aerospace 1:2, pages 159-184.
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Lauren Gagnon, Van P. Carey & Carlos Fernandez-Pello. (2021) Using an Artificial Neural Network to Predict Flame Spread Across Electrical Wires. Journal of Energy Resources Technology 143:9.
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Maria Thomsen, Carlos Fernandez-Pello, Xinyan Huang, Sandra Olson & Paul Ferkul. (2019) Buoyancy Effect on Downward Flame Spread Over PMMA Cylinders. Fire Technology 56:1, pages 247-269.
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Sandra L. Olson, David L. Urban, Gary A. Ruff, Paul V. Ferkul, Balazs Toth, Christian Eigenbrod, Florian Meyer & Grunde Jomaas. (2019) Concurrent Flame Spread Over Two-Sided Thick PMMA Slabs in Microgravity. Fire Technology 56:1, pages 49-69.
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Xiaoyu Ju, Michael J. Gollner, Yiren Wang, Wei Tang, Kun Zhao, Xingyu Ren & Lizhong Yang. (2019) Downstream radiative and convective heating from methane and propane fires with cross wind. Combustion and Flame 204, pages 1-12.
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Maria Thomsen, Carlos Fernandez-Pello, Gary A. Ruff & David L. Urban. (2019) Buoyancy effects on concurrent flame spread over thick PMMA. Combustion and Flame 199, pages 279-291.
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David L. Urban, Paul Ferkul, Sandra Olson, Gary A. Ruff, John Easton, James S. T'ien, Ya-Ting T. Liao, Chengyao Li, Carlos Fernandez-Pello, Jose L. Torero, Guillaume Legros, Christian Eigenbrod, Nickolay Smirnov, Osamu Fujita, Sébastien Rouvreau, Balazs Toth & Grunde Jomaas. (2019) Flame spread: Effects of microgravity and scale. Combustion and Flame 199, pages 168-182.
Crossref
. 2012. Lees' Loss Prevention in the Process Industries. Lees' Loss Prevention in the Process Industries 3129 3580 .
. 2005. Lees' Loss Prevention in the Process Industries. Lees' Loss Prevention in the Process Industries 101 150 .
Youngjin Son, Linton Honda, Paul Ronney & Suleyman Gokoglu. (2001) Radiation-driven flame spread experiments in the combustion integrated rack on ISS. Radiation-driven flame spread experiments in the combustion integrated rack on ISS.
Linton Honda, Youngjin Son & Paul Ronney. (2001) Radiation-driven flame spread over thermally-thick fuels in quiescent microgravity environments. Radiation-driven flame spread over thermally-thick fuels in quiescent microgravity environments.
Vedat S. Arpaci & Apoorva Agarwal. (1999) Scaling laws of turbulent ceiling fires. Combustion and Flame 116:1-2, pages 84-93.
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Hsin-Yi Shih, James T'ien, Hsin-Yi Shih & James T'ien. (1997) Modeling wall influence on solid-fuel flame spread in a flow tunnel. Modeling wall influence on solid-fuel flame spread in a flow tunnel.
Colomba Di Blasi, Silvestro Crescitelli & Gennaro Russo. (1989) Numerical modelling of flow assisted flame spread. Computer Methods in Applied Mechanics and Engineering 75:1-3, pages 481-492.
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Colomba Di Blasi, Silvestro Crescitelli & Gennaro Russo. (1988) Near limit flame spread over thick fuels in a concurrent forced flow. Combustion and Flame 72:2, pages 205-215.
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James Quintiere. (2004) Some factors influencing fire spread over room linings and in the ASTM E–84 tunnel test. Fire and Materials 9:2, pages 65-74.
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MS Abrams, MV D'Souza, P Higginson, WS Metes, JG Quintiere, WJ Parker, RF Robins & JA WhiteJrJr. (1985) Review of ASTM Test for Surface Burning Characteristics of Building Materials (E 84) (An ASTM White Paper). Journal of Testing and Evaluation 13:2, pages 89-114.
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Hisahiro Takeda. (2004) Small‐scale experiments of flame spread in pre‐flashover compartment fires. Fire and Materials 9:1, pages 36-40.
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A. Carlos Fernandez-Pello & Toshisuke Hirano. (1982) Controlling Mechanisms of Flame Spread. Fire Science and Technology 2:1, pages 17-54.
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