The influence of attics space geometrical shape on ignition and flashover stages in residential building fires in dense settlements

ARTEKS Jurnal Teknik Arsitektur Pub Date : 2022-12-31 DOI:10.30822/arteks.v7i3.1914

A. Rahmat

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Abstract

As an artificial physical place, residential building is formed by various functional spaces, such as residential space and the space between the ceiling space and the roof, i.e. the attics. The phenomenon of fires in residential buildings in densely populated areas is suspected of having occurred in the attics. Hitherto, research on the fire space model concerning the stages of ignition and flashover usually employs the Steckler's compartment model in the form of a cube/box. On the contrary, the fire model with a triangular roof shape is still rarely studied. The purpose of this study was to analyse the influence of the geometric shape of the attics on the ignition and flashover stages in residential fires located in densely populated settlements. This study employs an experimental method by conducting scaled experiments of the geometric model of the ceiling space in the form of a triangular gable roof and shed roof, focusing on the ignition and flashover stages. The results showed that the ignition stage in the gable roof and shed roof models occurred in the 3rd and 4th minutes with a temperature ranging from 270 ⁰C- 476 ⁰C. The flashover stage also occurred in the 5th to 9th minute with regular results close to 500 ⁰C.

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密集居民楼火灾中阁楼空间几何形状对着火和闪络阶段的影响

住宅建筑是一个人工的物理场所，由各种功能空间组成，如居住空间和天花板与屋顶之间的空间，即阁楼。在人口密集地区的住宅楼，火灾的现象被怀疑发生在阁楼上。迄今为止，关于着火和闪络阶段的火灾空间模型的研究通常采用立方体/盒子形式的Steckler隔室模型。相反，对于具有三角形顶板形状的火灾模型的研究仍然很少。本研究的目的是分析位于人口密集住区的住宅火灾中阁楼几何形状对着火和闪络阶段的影响。本研究采用实验方法，对三角形山墙屋面和棚顶形式的顶棚空间几何模型进行了比例实验，重点研究了引燃阶段和闪络阶段。结果表明，山墙屋顶和棚屋顶模型的点火阶段发生在第3和第4分钟，温度范围为270⁰C- 476⁰C。闪络阶段也发生在第5至第9分钟，常规结果接近500⁰C。

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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ARTEKS Jurnal Teknik Arsitektur

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