Large eddy simulation of compartment fires This paper is aimed at illustrating the capabilities of contemporary large eddy simulation (LES) solvers for compartment fire applications. Compartment fires refer to fires occurring indoors and feature a variety of complex phenomena associated with smoke accumulation and restricted air ventilation. The article provides a brief presentation of the main features of compartment fire dynamics followed by a review of the modelling challenges found in a LES treatment of these dominant features. The discussion shows that in addition to a suitable model for the turbulent flow dynamics, simulations of compartment fires require a collection of physical sub-models in order to describe a large range of multi-physics phenomena, including pyrolysis processes, buoyancy-driven flow, combustion, soot formation and thermal radiation. Some examples of LES simulations of compartment fires are also presented, using two different solvers that represent the current state-of-the-art of compartment fire modelling: FDS developed by the National Institute of Standards and Technology, USA, and FireFOAM developed by FM Global, USA. Both solvers are available as free open-source software and are representative of ongoing efforts within the fire research and engineering community to self-organise and to promote the general area of LES-based fire modelling.
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References in zbMATH (referenced in 4 articles )
Showing results 1 to 4 of 4.
- Hassanaly, Malik; Koo, Heeseok; Lietz, Christopher F.; Chong, Shao Teng; Raman, Venkat: A minimally-dissipative low-Mach number solver for complex reacting flows in openfoam (2018)
- McGurn, M. T.; Ruggirello, K. P.; DesJardin, P. E.: An Eulerian-Lagrangian moving immersed interface method for simulating burning solids (2013)
- Trouvé, Arnaud; Wang, Yi: Large eddy simulation of compartment fires (2010)
- Devenish, B. J.; Edwards, J. M.: Large-eddy simulation of the plume generated by the fire at the Buncefield oil depot in December 2005 (2009)