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Combustion Science and Technology Volume 84, 1992 - Issue 1-6
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Original Articles

Radiation from Buoyant Turbulent Diffusion Flames

L ORLOFF Factory Mutual Research Corporation, 1151 Boston-Providence Turnpike, Norwood, MA, 02062, U.S.A
,
J. DE RIS Factory Mutual Research Corporation, 1151 Boston-Providence Turnpike, Norwood, MA, 02062, U.S.A
&
M. A. DELICHATSIOS Factory Mutual Research Corporation, 1151 Boston-Providence Turnpike, Norwood, MA, 02062, U.S.A
Pages 177-186 | Received 03 Dec 1990, Accepted 27 Sep 1991, Published online: 06 Apr 2007

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Haihang Li, Yaping He & Jian Wang. (2014) Determination of Smoke Point of Laminar Acetylene Diffusion Flames Under Subatmospheric Pressures. Combustion Science and Technology 186:9, pages 1237-1248.
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JANETL. ELLZEY & RAKESH GOEL. (1995) EMISSIONS OF CO AND NO FROM A TWO STAGE POROUS MEDIA BURNER. Combustion Science and Technology 107:1-3, pages 81-91.
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Articles from other publishers (28)

Tony Xiao, Vinny Gupta, Andrew R.W. Macfarlane, Callum Kennedy, Matthew J. Dunn, Agisilaos Kourmatzis, José L. Torero & Assaad R. Masri. (2023) On the structure of buoyant fires with varying levels of fuel-turbulence. Combustion and Flame 257, pages 112993.
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Gang Xiong, Dong Zeng & Yi Wang. (2023) Effect of oxygen concentration on the velocity in buoyant turbulent diffusion flames. Fire Safety Journal 140, pages 103903.
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Yuhang Chen, Jun Fang, Xiaolei Zhang, Yanli Miao, Yujie Lin, Ran Tu & Longhua Hu. (2023) Pool fire dynamics: Principles, models and recent advances. Progress in Energy and Combustion Science 95, pages 101070.
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Michael F. Modest & Sandip Mazumder. 2022. Radiative Heat Transfer. Radiative Heat Transfer 819 858 .
Gang Xiong, Dong Zeng, Pratikash P. Panda & Yi Wang. (2021) Laser induced incandescence measurement of soot in ethylene buoyant turbulent diffusion flames under normal and reduced oxygen concentrations. Combustion and Flame 230, pages 111456.
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Catherine Hamel, Fernando Raffan-Montoya & Stanislav I. Stoliarov. (2019) A method for measurement of spatially resolved radiation intensity and radiative fraction of laminar flames of gaseous and solid fuels. Experimental Thermal and Fluid Science 104, pages 153-163.
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Dong Zeng, Prateep Chatterjee & Yi Wang. (2019) The effect of oxygen depletion on soot and thermal radiation in buoyant turbulent diffusion flames. Proceedings of the Combustion Institute 37:1, pages 825-832.
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Zhen Li, Naian Liu, Xiaodong Xie, Linhe Zhang, Xiaoming Guo & Ran Tu. (2017) Heat transfer blockage effect of small-scale PMMA flame under exterior heat radiation. International Journal of Thermal Sciences 122, pages 26-32.
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Zhen Li, Naian Liu, Shaojie Zhang, Xiaodong Xie & Wei Gao. 2017. Fire Science and Technology 2015. Fire Science and Technology 2015 661 666 .
Mohammed M. Khan, Archibald Tewarson & Marcos Chaos. 2016. SFPE Handbook of Fire Protection Engineering. SFPE Handbook of Fire Protection Engineering 1143 1232 .
Ali S. Rangwala. 2016. SFPE Handbook of Fire Protection Engineering. SFPE Handbook of Fire Protection Engineering 350 372 .
D. Romero, R. N. Parthasarathy & S. R. Gollahalli. (2014) Laminar Flame Characteristics of Partially Premixed Prevaporized Palm Methyl Ester and Diesel Flames. Journal of Energy Resources Technology 136:3.
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Longhua Hu, Qiang Wang, Michael Delichatsios, Shouxiang Lu & Fei Tang. (2014) Flame radiation fraction behaviors of sooty buoyant turbulent jet diffusion flames in reduced- and normal atmospheric pressures and a global correlation with Reynolds number. Fuel 116, pages 781-786.
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LongHua Hu, Qiang Wang, Fei Tang, Michael Delichatsios & XiaoChun Zhang. (2013) Axial temperature profile in vertical buoyant turbulent jet fire in a reduced pressure atmosphere. Fuel 106, pages 779-786.
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Michael F Modest. 2013. Radiative Heat Transfer. Radiative Heat Transfer 724 778 .
. 2012. Lees' Loss Prevention in the Process Industries. Lees' Loss Prevention in the Process Industries 3129 3580 .
Mario Ditaranto & Thomas Oppelt. (2011) Radiative heat flux characteristics of methane flames in oxy-fuel atmospheres. Experimental Thermal and Fluid Science 35:7, pages 1343-1350.
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Praveen Narayanan, Howard R. Baum & Arnaud Trouvé. (2011) Effect of soot addition on extinction limits of luminous laminar counterflow diffusion flames. Proceedings of the Combustion Institute 33:2, pages 2539-2546.
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G.T. Linteris & I.P. Rafferty. (2008) Flame size, heat release, and smoke points in materials flammability. Fire Safety Journal 43:6, pages 442-450.
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Jian WangJinsong Hua, Kurichi Kumar & Suresh Kumar. (2016) Evaluation of CFD Modeling Methods for Fire-induced Airflow in a Room. Journal of Fire Sciences 24:5, pages 393-411.
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Christopher W. Lautenberger, John L. de Ris, Nicholas A. Dembsey, Jonathan R. Barnett & Howard R. Baum. (2005) A simplified model for soot formation and oxidation in CFD simulation of non-premixed hydrocarbon flames. Fire Safety Journal 40:2, pages 141-176.
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. 2005. Lees' Loss Prevention in the Process Industries. Lees' Loss Prevention in the Process Industries 302 351 .
Peter K Wu & Robert G BillJrJr. (2003) Laboratory tests for flammability using enhanced oxygen. Fire Safety Journal 38:3, pages 203-217.
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Michael F. Modest. 2003. Radiative Heat Transfer. Radiative Heat Transfer 680 728 .
Archibald Tewarson, Mohammed Khan, Peter K. Wu & Robert G. Bill. (2001) Flammability evaluation of clean room polymeric materials for the semiconductor industry. Fire and Materials 25:1, pages 31-42.
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Pierre Joulain. (1998) The behavior of pool fires: State of the art and new insights. Symposium (International) on Combustion 27:2, pages 2691-2706.
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J. De Ris & X. Cheng. (1994) The Of Role Of Smoke-point In Material Flammability Testing. Fire Safety Science 4, pages 301-312.
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M.A. Delichatsios. (1993) Smoke yields from turbulent buoyant jet flames. Fire Safety Journal 20:4, pages 299-311.
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