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International Journal of Computational Fluid Dynamics Volume 26, 2012 - Issue 6-8: Interdisciplinary CFD. Guest Editor: Catherine Mavriplis
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Articles

Computational fluid dynamics modelling of fire

Kevin McGrattanNational Institute of Standards and Technology, Gaithersburg, Maryland, USA
,
Randall McDermottNational Institute of Standards and Technology, Gaithersburg, Maryland, USA
,
Jason FloydHughes Associates, Inc, Baltimore, Maryland, USA
,
Simo HostikkaVTT Technical Research Centre, Espoo, Finland
,
Glenn ForneyNational Institute of Standards and Technology, Gaithersburg, Maryland, USA
&
Howard BaumNational Institute of Standards and Technology, Gaithersburg, Maryland, USA
Pages 349-361 | Received 29 Aug 2011, Accepted 11 Jan 2012, Published online: 26 Apr 2012
 
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Abstract

An overview of a methodology for simulating fires and other thermally-driven, low-speed flows is presented. The model employs a number of simplifications of the governing equations that allow for relatively fast simulations of practical fire scenarios. The hydrodynamic model consists of the low Mach number large-eddy simulation subgrid closure with either a constant or dynamic coefficient eddy diffusivity. Combustion is typically treated as a mixing-controlled, single-step reaction of fuel and oxygen. The radiation transport equation is written in terms of a spectrally-averaged grey gas. Applications of the model include the design of fire protection systems in buildings and the reconstruction of actual fires.

Acknowledgement

The authors would like to thank Sheldon Tieszen of Sandia National Laboratories for providing measurement data on the methane pool fire experiments. The authors would also like to thank William Mell, Timo Korhonen and Ronald Rehm for their contributions to the development of FDS.

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