Incremental fire analysis (IFA) for probabilistic fire risk assessment

Type of content
Conference Contributions - Published
Publisher's DOI/URI
Thesis discipline
Degree name
Publisher
University of Canterbury. Civil and Natural Resources Engineering
Journal Title
Journal ISSN
Volume Title
Language
Date
2014
Authors
Moss, P.J.
Abu, A.K.
Dhakal, Rajesh
Abstract

In this paper, the concept of a probabilistic fire risk analysis method is presented in line with the seismic risk assessment approach. The probabilistic fire risk assessment approach runs through a series of probabilistic interrelationships between different variables representing the fire severity (called the Intensity Measure IM), structural response (called the Engineering Damage Parameter EDP) and damage/loss (called the Damage Measure DM). The paper explains the development of a probabilistic interrelationship between the IM and EDP through incremental fire analysis (IFA). For this purpose, a series of SAFIR analysis of a simple two span reinforced concrete beam subjected to different fire profiles have been conducted and are used to illustrate the required approach. Although a single EDP (maximum deflection) is considered in this investigation, two different IMs (maximum temperature and total radiant heat energy) are used. It is found that the radiant energy is more efficient than the maximum temperature in representing the fire severity.

Description
Citation
Moss, P.J., Abu, A.K., Dhakal, R.P. (2014) Incremental fire analysis (IFA) for probabilistic fire risk assessment. Byron Bay, Australia: Proceedings of the 23rd Australasian Conference on Mechanics of Structures and Materials (ACMSM23), 9-12 Dec 2014.
Keywords
Fire, Risk assessment, Incremental analysis, Fire damage, Probabilistic design
Ngā upoko tukutuku/Māori subject headings
ANZSRC fields of research
Fields of Research::40 - Engineering::4010 - Engineering practice and education::401005 - Risk engineering
Fields of Research::40 - Engineering::4005 - Civil engineering::400505 - Construction materials
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