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Combustion Science and Technology Volume 176, 2004 - Issue 8
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Original Articles

CFD PREDICTION OF POOL FIRE BURNING RATES AND FLAME FEEDBACK

V. NOVOZHILOV Institute of Fire Safety Engineering Research and Technology, Faculty of Engineering, University of Ulster, Newtownabbey, United Kingdom
&
H. KOSEKI National Research Institute of Fire and Disaster, Tokyo, Japan
Pages 1283-1307 | Received 01 May 2003, Accepted 01 Jan 2004, Published online: 11 Aug 2010

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Alireza Vali, David S. Nobes & Larry W. Kostiuk. (2015) Quantifying the Conduction Pathways in a Laboratory-Scale Methanol Pool Fire. Combustion Science and Technology 187:5, pages 765-779.
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J. L. Consalvi & F. Liu. (2014) Radiative Heat Transfer Through the Fuel-Rich Core of Laboratory-Scale Pool Fires. Combustion Science and Technology 186:4-5, pages 475-489.
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A. Nasr, S. Suard, H. El-Rabii, L. Gay & J.-P. Garo. (2011) Fuel Mass-Loss Rate Determination in a Confined and Mechanically Ventilated Compartment Fire Using a Global Approach. Combustion Science and Technology 183:12, pages 1342-1359.
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AllenJ. Ricks, JohnC. Hewson, AlanR. Kerstein, JayP. Gore, SheldonR. Tieszen & WilliamT. Ashurst. (2010) A Spatially Developing One-Dimensional Turbulence (ODT) Study of Soot and Enthalpy Evolution in Meter-Scale Buoyant Turbulent Flames. Combustion Science and Technology 182:1, pages 60-101.
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Articles from other publishers (27)

Marco Cavazzuti & Paolo Tartarini. (2024) Pool Fires Within a Large Under-Ventilated Environment: Experimental Analysis and Numerical Simulation Using OpenFOAM. Fire Technology.
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Samuel Vaux, Emeline Georges & Hugues Pretrel. (2024) Experimental and numerical study of an elevated pool fire scenario in a confined and mechanically ventilated compartment. Fire Safety Journal 142, pages 104046.
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Huaitao Song, Haowei Yao, Xiaoge Wei, Hengjie Qin, Youxin Li, Kefeng Lv & Qianlong Chen. (2023) Experimental Study on Fire Suppression of the Outdoor Oil-Immersed Transformer by High-Pressure Water Mist System. Fire 6:6, pages 238.
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Stefan P. Domino, John Hewson, Robert Knaus & Mike Hansen. (2021) Predicting large-scale pool fire dynamics using an unsteady flamelet- and large-eddy simulation-based model suite. Physics of Fluids 33:8.
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Kazui Fukumoto, Jennifer X. Wen, Manhou Li, Yanming Ding & Changjian Wang. (2020) Numerical simulation of small pool fires incorporating liquid fuel motion. Combustion and Flame 213, pages 441-454.
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Samuel Vaux, Hugues Prétrel & Laurent Audouin. (2019) Experimental and numerical study of water spray system for a fire event in a confined and mechanically ventilated compartment. Fire and Materials 43:5, pages 579-590.
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Hugues Pretrel & Samuel Vaux. (2019) Experimental and numerical analysis of fire scenarios involving two mechanically ventilated compartments connected together with a horizontal vent. Fire and Materials 43:5, pages 514-529.
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Rakesh H.R. Ranga, Oleg P. Korobeinichev, Vasudevan Raghavan, Alexander G. Tereshchenko, Stanislav A. Trubachev & Andrei G. Shmakov. (2019) A study of the effects of ullage during the burning of horizontal PMMA and MMA surfaces . Fire and Materials 43:3, pages 241-255.
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J. Felipe Perez Segovia, Tarek Beji & Bart Merci. (2018) Assessment of an Evaporation Model in CFD Simulations of a Free Liquid Pool Fire Using the Mass Transfer Number Approach. Flow, Turbulence and Combustion 101:4, pages 1059-1072.
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Camilo Sedano, Omar López, Alexander Ladino & Felipe Muñoz. (2018) Prediction of a methane circular pool fire with fireFoam. MATEC Web of Conferences 240, pages 05026.
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Camilo Andrés Sedano, Omar Darío López, Alexander Ladino & Felipe Muñoz. (2017) Prediction of a Small-Scale Pool Fire with FireFoam. International Journal of Chemical Engineering 2017, pages 1-12.
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Hugues Pretrel, Sylvain Suard & Laurent Audouin. (2016) Experimental and numerical study of low frequency oscillatory behaviour of a large-scale hydrocarbon pool fire in a mechanically ventilated compartment. Fire Safety Journal 83, pages 38-53.
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J.L. Consalvi & F. Liu. (2015) A database of narrow-band parameters for fuels commonly encountered in fire applications. Fire Safety Journal 78, pages 202-218.
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Pei Zhu, Xishi Wang & Changfa Tao. (2015) Experiment study on the burning rates of ethanol square pool fires affected by wall insulation and oblique airflow. Experimental Thermal and Fluid Science 61, pages 259-268.
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Pratap Sathiah & Ferry Roelofs. (2014) Numerical modeling of sodium fire – Part II: Pool combustion and combined spray and pool combustion. Nuclear Engineering and Design 278, pages 739-752.
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J.L. Consalvi & F. Liu. (2014) Radiative heat transfer in the core of axisymmetric pool fires – I: Evaluation of approximate radiative property models. International Journal of Thermal Sciences 84, pages 104-117.
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S. Vasanth, S.M. Tauseef, Tasneem Abbasi, A.S. Rangwala & S.A. Abbasi. (2014) Assessment of the effect of pool size on burning rates of multiple pool fires using CFD. Journal of Loss Prevention in the Process Industries 30, pages 86-94.
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Alireza Vali, David S. Nobes & Larry W. Kostiuk. (2014) Transport phenomena within the liquid phase of a laboratory-scale circular methanol pool fire. Combustion and Flame 161:4, pages 1076-1084.
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S. Vasanth, S.M. Tauseef, Tasneem Abbasi & S.A. Abbasi. (2013) Assessment of four turbulence models in simulation of large-scale pool fires in the presence of wind using computational fluid dynamics (CFD). Journal of Loss Prevention in the Process Industries 26:6, pages 1071-1084.
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S. Suard, M. Forestier & S. Vaux. (2013) Toward predictive simulations of pool fires in mechanically ventilated compartments. Fire Safety Journal 61, pages 54-64.
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Alireza Vali, David S. Nobes & Larry W. Kostiuk. (2013) Effects of altering the liquid phase boundary conditions of methanol pool fires. Experimental Thermal and Fluid Science 44, pages 786-791.
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C. Lapuerta, S. Suard, F. Babik & L. Rigollet. (2012) Validation process of ISIS CFD software for fire simulation. Nuclear Engineering and Design 253, pages 367-373.
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Weston Eldredge, Jeremy Thornock & Philip Smith. (2011) Development, Verification, and Validation of the Responsive Boundary Model for Pool Fire Simulations. Development, Verification, and Validation of the Responsive Boundary Model for Pool Fire Simulations.
Chris Lautenberger & Simo Hostikka. 2009. Fire Retardancy of Polymeric Materials, Second Edition. Fire Retardancy of Polymeric Materials, Second Edition 551 585 .
K. Wakatsuki, G.S. Jackson, A. Hamins & M.R. Nyden. (2007) Effects of fuel absorption on radiative heat transfer in methanol pool fires. Proceedings of the Combustion Institute 31:2, pages 2573-2580.
Crossref
Alexander L. Brown, Walter Gill & Carlos Lopez. (2006) Predictive Evolution of Fuel From a Liquid Pool Fire: Phenomenology Identification and Ranking Exercise. Predictive Evolution of Fuel From a Liquid Pool Fire: Phenomenology Identification and Ranking Exercise.
Alexander L. Brown & Bjorn Erling Vembe. (2006) Evaluation of a Model for the Evaporation of Fuel From a Liquid Pool in a CFD Fire Code. Evaluation of a Model for the Evaporation of Fuel From a Liquid Pool in a CFD Fire Code.

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