Proceedings of the first workshop organized by the IAFSS Working Group on Measurement and Computation of Fire Phenomena (MaCFP)

Brown, A.; Bruns, M.; Gollner, M.; Hewson, J.; Maragkos, G.; Marshall, A.; McDermott, R.; Merci, B.; Rogaume, T.; Stoliarov, S.; Torero, J.; Trouvé, A.; Wang, Y.; Weckman, E.

doi:10.1016/j.firesaf.2018.08.009

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Proceedings of the first workshop organized by the IAFSS Working Group on Measurement and Computation of Fire Phenomena (MaCFP)
Citation	Brown A, Bruns M, Gollner M, Hewson J, Maragkos G, Marshall A, McDermott R, Merci B, Rogaume T, Stoliarov S, Torero J, Trouvé A, Wang Y, Weckman E. Fire Safety J. 2018; 101: 1-17.
Affiliation	Department of Mechanical and Mechatronics Engineering, University of Waterloo,Waterloo, Ontario, N2L 3G1, Canada.
Copyright	(Copyright © 2018, Elsevier Publishing)
DOI	10.1016/j.firesaf.2018.08.009
PMID	30983690
Abstract	This paper provides a report of the discussions held at the first workshop on Measurement and Computation of Fire Phenomena (MaCFP) on June 10-11 2017. The first MaCFP work-shop was both a technical meeting for the gas phase subgroup and a planning meeting for the condensed phase subgroup. The gas phase subgroup reported on a first suite of experimental- computational comparisons corresponding to an initial list of target experiments. The initial list of target experiments identifies a series of benchmark configurations with databases deemed suitable for validation of fire models based on a Computational Fluid Dynamics approach. The simulations presented at the first MaCFP workshop feature fine grid resolution at the millimeter- or centimeter- scale: these simulations allow an evaluation of the performance of fire models under high-resolution conditions in which the impact of numerical errors is reduced and many of the discrepancies between experimental data and computational results may be attributed to modeling errors. The experimental-computational comparisons are archived on the MaCFP repository [1]. Furthermore, the condensed phase subgroup presented a review of the main issues associated with measurements and modeling of pyrolysis phenomena. Overall, the first workshop provided an illustration of the potential of MaCFP in providing a response to the general need for greater levels of integration and coordination in fire research, and specifically to the particular needs of model validation. Language: en
Keywords	Buoyant plumes; Fire modeling; Flame extinction; Large Eddy Simulation; Pool fires; Pyrolysis; Wall fires; modeling