Model characterisation of localised burning impact from localised fire tests to travelling fire scenarios

Aatif Ali Khan, Zhuojun Nan, Liming Jiang*, Vinny Gupta, Suwen Chen, Mustesin Ali Khan, Juan Hidalgo, Asif Usmani

*Corresponding author for this work

Research output: Contribution to journalArticleScientificpeer-review

Abstract

Fire safety of modern buildings is crucial and the fire safety design of these buildings has been a challenging task. Large open-plan compartments are commonly designed in modern urbanisation and the fire behaviour in such compartments is different from the traditional knowledge built upon small compartment fire research. Various experimental studies have been performed to represent such fires to evaluate the structural fire resistance, which were accompanied by a series of travelling fire models to describe the non-uniform fire impact in large compartments. However, the localised fire models adopted in the latest travelling fire methodology were derived from localised fire tests of unconfined ceiling boundaries. The effects of smoke generation due to fire during various stages of the fire development are not included explicitly. This paper characterises the thermal impact on structural members from the localised fire tests and extends the simulation models and analysis approaches to localised fires in large compartments. Comparing the cases with soffits and without soffits, temperature differences of up to 150 °C are observed and the convective coefficient adopted as 35 W/m2K is too high. The work recommends to modify the current localised fire models to consider realistic fire sizes and smoke layer with the recognition of semi-confined conditions in large compartment fire scenarios. By including these aspects, it is possible to establish more universal design fire models to overcome the current limitations and to address the fire impact in compartments of various sizes and ventilation conditions.
Original languageEnglish
Article number104601
Number of pages19
JournalJournal of Building Engineering
Volume54
DOIs
Publication statusPublished - 2022
Externally publishedYes

Keywords

  • Fire safety
  • Travelling fire
  • CFD
  • Compartment fire

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