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Numerical Heat Transfer, Part A: Applications
An International Journal of Computation and Methodology
Volume 53, 2007 - Issue 6
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Original Articles

Capturing the Pulsation Frequency of a Buoyant Pool Fire using the Large Eddy Simulation Approach

A. L. K. Cheung Department of Building and Construction, City University of Hong Kong, Tat Chee Avenue, Kowloon, Hong Kong (SAR), People's Republic of China
,
E. W. M. Lee Department of Building and Construction, City University of Hong Kong, Tat Chee Avenue, Kowloon, Hong Kong (SAR), People's Republic of ChinaCorrespondence[email protected]
,
R. K. K. Yuen Department of Building and Construction, City University of Hong Kong, Tat Chee Avenue, Kowloon, Hong Kong (SAR), People's Republic of China
,
G. H. Yeoh Australian Nuclear Science and Technology Organisation (ANSTO), Menai, Australia
&
S. C. P. Cheung School of Aerospace, Mechanical and Manufacturing Engineering, RMIT University, Victoria, Australia
Pages 561-576 | Received 04 Apr 2007, Accepted 18 Aug 2007, Published online: 14 Nov 2007

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A. C. Y. Yuen, G. H. Yeoh, V. Timchenko, S. C. P. Cheung & T. Chen. (2016) Study of three LES subgrid-scale turbulence models for predictions of heat and mass transfer in large-scale compartment fires. Numerical Heat Transfer, Part A: Applications 69:11, pages 1223-1241.
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A. C. Y. Yuen, G. H. Yeoh, V. Timchenko & T. Barber. (2015) LES and Multi-Step Chemical Reaction in Compartment Fires. Numerical Heat Transfer, Part A: Applications 68:7, pages 711-736.
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PeterS. Cumber. (2013) Efficient Modeling of Turbulence–Radiation Interaction in Subsonic Hydrogen Jet Flames. Numerical Heat Transfer, Part B: Fundamentals 63:2, pages 85-114.
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Tien-Mo Shih, Martinus Arie & Derrick Ko. (2011) Literature Survey of Numerical Heat Transfer (2000–2009): Part II. Numerical Heat Transfer, Part A: Applications 60:11-12, pages 883-1096.
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Articles from other publishers (9)

shan huang, Lingxue Wang, Xu Hu, Shouzhang Yuan, Fangyu Xu, Jinsong Zhao & Yi Cai. (2023) Study of transient behaviors of wavefront error caused by natural convection for improving mirror seeing. Optics Express.
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Xiang Fang, Anthony Chun Yin Yuen, Eric Wai Ming Lee, Jiyuan Tu & Sherman Cheung. (2022) Capturing the flame structure and the transition process of the fire whirl using two combustion kinetic considerations. International Journal of Numerical Methods for Heat & Fluid Flow 32:10, pages 3360-3387.
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Anthony Chun Yin Yuen, Ivan Miguel De Cachinho Cordeiro, Timothy Bo Yuan Chen, Qian Chen, Hengrui Liu & Guan Heng Yeoh. (2021) Multiphase CFD modelling for enclosure fires—A review on past studies and future perspectives. Experimental and Computational Multiphase Flow 4:1, pages 1-25.
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Xiang Fang, Anthony Chun Yin Yuen, Guan Heng Yeoh, Eric Wai Ming Lee & Sherman Chi P. Cheung. (2020) Capturing the Swirling Vortex and the Impact of Ventilation Conditions on Small-Scale Fire Whirls. Applied Sciences 10:10, pages 3428.
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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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Ying-chun Wu, Xue-cheng Wu, Shou-xiang Lu, Jia-qing Zhang & Ke-fa Cen. (2011) Novel Methods for Flame Pulsation Frequency Measurement with Image Analysis. Fire Technology 48:2, pages 389-403.
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Marcelo J.S. de Lemos. (2010) Analysis of turbulent combustion in inert porous media. International Communications in Heat and Mass Transfer 37:4, pages 331-336.
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Sherman C.P. Cheung & G.H. Yeoh. (2009) A fully-coupled simulation of vortical structures in a large-scale buoyant pool fire. International Journal of Thermal Sciences 48:12, pages 2187-2202.
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. 2009. Computational Fluid Dynamics in Fire Engineering. Computational Fluid Dynamics in Fire Engineering 491 515 .

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