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Journal Article

Citation

Šálek V, Cábová K, Wald F, Jahoda M. J. Struct. Fire Eng. 2022; 13(1): 99-117.

Copyright

(Copyright © 2022, Emerald Group Publishing)

DOI

10.1108/JSFE-04-2021-0017

PMID

unavailable

Abstract

PURPOSE The purpose of this paper is to present a complex pyrolysis computational fluid dynamics (CFD) model of timber protection exposed to fire in a medium size enclosure. An emphasis is placed on rarely used temperature-dependent thermal material properties effecting the overall simulation outputs. Using the input dataset, a fire test model with oriented strand boards (OSB) in the room corner test facility is created in Fire Dynamics Simulator (FDS).

DESIGN/METHODOLOGY/APPROACH Seven FDS models comprising different complexity approaches to modelling the burning of wood-based materials, from a simplified model of burning based on a prescribed heat release rate to complex pyrolysis models which can describe the fire spread, are presented. The models are validated by the experimental data measured during a fire test of OSB in the room corner test facility.

FINDINGS The use of complex pyrolysis approach is recommended in real-scale enclosure fire scenarios with timber as a supplementary heat source. However, extra attention should be paid to burning material thermal properties implementation. A commonly used constant specific heat capacity and thermal conductivity provided poor agreement with experimental data. When the fire spread is expected, simplified model results should be processed with great care and the user should be aware of possible significant errors.

ORIGINALITY/VALUE This paper brings an innovative and rarely used complex pyrolysis CFD model approach to predict the behaviour of timber protection exposed to fire. A study on different temperature-dependent thermal material properties combined with multi-step pyrolysis in the room corner test scenario has not been sufficiently published and validated yet.


Language: en

Keywords

Complex modelling; FDS; Fire protection; Input parameters; OSB; Pyrolysis; Room corner test; Validation

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