Ignition and flashover of reduced scale compartments with timber ceilings

IF 3.4 3区工程技术 Q2 ENGINEERING, CIVIL

Fire Safety Journal Pub Date : 2024-04-20 DOI:10.1016/j.firesaf.2024.104167

James Greer, Sergio Caponi, Rory M. Hadden, Angus Law

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引用次数: 0

Abstract

Experiments on reduced scale compartments with timber ceilings and floors were conducted to investigate the ignition of the ceiling and growth to flashover. Pool fires of various sizes were ignited and measurements were made of temperature in the plume and ceiling jet, and mass of the timber ceiling and floor. The compartment geometry was also systematically varied. The results showed that ignition of the ceiling occurred when the measured temperature at ceiling level was between 328 °C and 347 °C. This aligned with intermittent flame impingement on the ceiling from the initiating fire. Following ignition of the ceiling, in most cases the fire subsequently spread across the ceiling resulting, ultimately, in ignition of the floor. It was found that duration of preheating of the ceiling (by the ceiling jet) strongly influenced flame spread. In some cases, ignition occurred, but did not result in continuous flame spread across the ceiling – in these cases it was found that the ceiling jet was cooler due to wider geometry of the compartment. The data were compared against existing correlations from the literature, and it was found that existing methods may be used to predict whether ignition of the ceiling may occur and the conditions for flashover.

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带木质天花板的缩小比例隔间的点火和闪燃

对带有木质天花板和地板的小型隔间进行了实验，以研究天花板的点燃和闪燃的发展。点燃了不同大小的池火，并测量了烟羽和顶棚喷射的温度，以及木质顶棚和地板的质量。还系统地改变了隔间的几何形状。结果表明，天花板的测量温度在 328 °C 至 347 °C 之间时，天花板会被点燃。这与起火时火焰间歇性地冲击天花板的情况一致。天花板被点燃后，在大多数情况下，火势随后蔓延到整个天花板，最终导致地板被点燃。研究发现，天花板预热（通过天花板喷射）的持续时间对火焰蔓延有很大影响。在某些情况下，虽然发生了着火，但并没有导致火焰在天花板上持续蔓延--在这些情况下，我们发现由于隔间的几何形状较宽，天花板喷射的温度较低。将这些数据与现有文献中的相关数据进行比较后发现，现有方法可用于预测是否会发生天花板点火以及发生闪燃的条件。

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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来源期刊

Fire Safety Journal 工程技术-材料科学：综合

CiteScore

5.70

自引率

9.70%

发文量

153

审稿时长

60 days

期刊介绍： Fire Safety Journal is the leading publication dealing with all aspects of fire safety engineering. Its scope is purposefully wide, as it is deemed important to encourage papers from all sources within this multidisciplinary subject, thus providing a forum for its further development as a distinct engineering discipline. This is an essential step towards gaining a status equal to that enjoyed by the other engineering disciplines.