悬挂在空中的帆布上火焰向上蔓延的实验研究

Guoqing Zhu, Guowei Zhang, Lili Huang
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引用次数: 3

摘要

帆布是建筑物的潜在火灾隐患,可能因家用电器过热或短路而引起火灾。帆布的火焰一旦被点燃,就会迅速向上蔓延,加速火势的发展。在这篇文章中,向上火焰蔓延在四种典型的帆布材料在一个大的空间封闭测试。记录并分析了所有向上火焰蔓延实验的质量损失率、表面温度和火焰蔓延速度等火灾热参数。结果表明,原画质量与时间呈线性关系,油画质量与时间呈幂函数关系。400-900℃范围内的表面温度峰值主要取决于材料特性而不是材料尺寸。同时发现火焰蔓延速度可以表示为时间的幂函数。这意味着,如果在着火阶段不控制帆布垂直火灾,帆布火灾蔓延速度会越来越快,造成很大的火灾隐患。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental study of upward flame spread over canvas hung in the air
Canvas, a potential fire hazard in the buildings, may cause fire by overheating or short-circuit of household appliances. Once ignited, the flame of canvas would quickly spread upward and accelerate the fire development. In this article, upward flame spread over four typical canvas materials was tested in one large space enclosure. Fire thermal parameters such as mass loss rate, surface temperature, and flame spread rate were recorded and analyzed for all upward flame spread experiments. The results show that there is a linear relationship between raw canvases mass and time while a power function relationship between oil canvases mass and time. Surface temperature peak values in the range 400-900°C mainly depend on material characteristics rather than material size. Meanwhile we find that flame spread rate could be expressed as one power function of time. This means if canvas vertical fire is not controlled at fire ignition stage, canvas fire would spread increasingly fast which would cause a big fire hazard.
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