汽车火灾在城市火灾蔓延中的实验研究

H. Yoshioka, T. Iwami, Shuichi Takeya
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摘要

在日本,如果在人口密集的地区发生城市大火,道路以及公园、空地、河流和铁路轨道等通常被认为能有效地阻止火灾在建筑物之间蔓延。但是,特别是当两个相邻建筑物之间的狭窄道路上有一辆汽车时,那么道路上燃烧的汽车甚至有可能加速火势的蔓延,而不是道路阻挡火势蔓延的情况。无论是日本国内还是国际上,都有很多基于实验的汽车火灾研究,但迄今为止,大多数研究都是在讨论汽车本身的火灾行为,而很少有人关注在城市火灾蔓延的情况下,在大地震或大风等情况下,汽车火灾在建筑物之间的火灾蔓延。因此,在本研究中,作者首先进行了全尺寸的火灾实验,在建筑立面的开口处进行火灾引燃汽车的实验,观察了辐射和对流如何引燃汽车,然后火灾如何在汽车中传播,并测量了被引燃汽车周围的入射通量。其次,在本次汽车火灾实验的基础上,提出了简单的计算模型,并将其应用于预测火灾发生时间的参数化研究,以预测火灾发生时两建筑之间是否有汽车的情况。研究发现,一般情况下,由于汽车的存在,火灾在建筑物之间的蔓延时间差异不大。但在两个建筑物之间距离较大,且汽车距离相邻建筑物(而不是起火建筑物)相当近的极端情况下,由于汽车的存在导致了计算结果的差异,更具体地说,汽车的存在导致了建筑物之间火灾蔓延的发生。
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Experimental Study on Car Fire with Respect to Urban Fire Spreading
In case of urban large fire spreading in a highly crowded areas of Japan, roads are usually considered to be effective in blocking the fire spreading between the buildings, together with parks, vacant spaces, rivers, and railway tracks, etc. However, especially when there is a car in a narrow road between two adjacent buildings, then it could be possible that fire spreading will be even accelerated by the burning car on a road, rather than the situation where a road will block the fire spreading. Both domestically in Japan and internationally, there have been many car fire researches based on experiments, but so far, most of them have been discussing the fire behavior of automobiles themselves, and not so many have been focusing on the car fire with respect to fire spreading between the buildings in case of urban fire spread, under the circumstances such as major earthquake or extremely high wind. Therefore, in this research, authors firstly conducted the full-scale fire experiment, where car is ignited by fire from the opening in a building façade, and observed how car is ignited by radiation and convection and then how fire is propagated in that car, and also incident heal fluxes were measured at surrounding places of the ignited car. Furthermore secondly, simple calculation model was proposed based on this car fire experiment, which was then applied to the parametric study for predicting the occurrence time of fire spreading to the adjacent building from the building of fire origin, with and without a car located between the two buildings. It was found that generally there was not great difference in time to fire spreading between the buildings dependent on the existence of car. But in an extreme situation where the distance between the two buildings is large, and also car is located quite close to the adjacent building (instead of the building of fire origin), there was a difference in calculation results dependent on the existence of a car, more specifically, the existence of car induced the occurrence of fire spreading between the buildings.
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