Development of Fire Scenarios for Car Parking Buildings using Risk Analysis

Fire Safety Science Pub Date : 2014-01-01 DOI:10.3801/iafss.fss.11-944

M. Tohir, M. Spearpoint

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引用次数: 12

Abstract

This paper describes a relatively simple probability quantitative risk analysis model to determine appropriate fire scenarios for car parking buildings. The approach introduces a dimensionless measurement defined as fire risk level by multiplying probability by consequence. For the development of fire scenarios for car parking buildings, the key variables for the fire risk analysis are identified as vehicle parking distribution probability and how vehicles then form clusters of neighbours, vehicle classification, vehicle fire involvement probability, and the severity of vehicle fires. The selection of clusters of neighbouring vehicles and whether all vehicles in the cluster catch fire has the probability to affect the fire risk level. An example analysis is performed where a simple two-row, 100 space parking model with a 75 % vehicle occupancy and 0.90 tendency factor weighting is used to obtain the vehicle distribution probability combined with various data sourced from the literature. It is found from the example analysis that fire risk level is largely driven by the vehicle fire involvement probability such that a single vehicle fire presents the worst case scenario in terms of fire risk.

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基于风险分析的停车楼火灾场景开发

本文描述了一个相对简单的概率定量风险分析模型，以确定合适的停车场火灾场景。该方法引入了一种无量纲测量方法，通过概率乘以后果来定义火灾危险等级。针对停车楼火灾场景的开发，确定了停车楼火灾风险分析的关键变量为车辆分布概率和车辆如何形成邻居集群、车辆分类、车辆火灾卷入概率以及车辆火灾的严重程度。相邻车辆簇的选择以及簇内车辆是否全部着火都有可能影响火灾危险等级。通过一个简单的两排100车位停车模型，车辆入住率为75%，趋势因子权重为0.90，并结合文献中的各种数据进行分析，得到车辆分布概率。通过算例分析发现，火灾风险等级在很大程度上受车辆火灾卷入概率的影响，单个车辆火灾是火灾风险的最坏情况。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Fire Safety Science

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