Building Fire: Experimental and Numerical Studies on Behaviour of Flows at Opening

IF 1.5 Q3 ENGINEERING, CHEMICAL
Philippe Onguene Mvogo, R. Mouangue, Justin Tégawendé Zaida, M. Obounou, H. E. Ekobena Fouda
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引用次数: 5

Abstract

Compartment fire is conducted by complex phenomena which have been the topics of many studies. During fire incident in a building, damage to occupants is not often due to the direct exposition to flames but to hot and toxic gases resulting from combustion between combustibles and surrounding air. Heat is therefore taken far from the source by combustion products which could involve a rapid spread of fire in the entire building. With the intention of studying the impact of the opening size on the behaviour of fire, experimental and computational studies have been undertaken in a reduced scale room including a single open door. Owing to Froude modelling, the obtained results have been transposed into full scale results. In accordance with experiments, numerical studies enabled the investigation of the influence of the ventilation factor on velocities of incoming air and outgoing burned gases and on areas of the surfaces crossed by these fluids during full-developed fire. Comparison of the deduced mass flow rates with the literature reveals an approval agreement.
建筑火灾:开口流动特性的实验与数值研究
舱室火灾是由复杂的现象引起的,一直是许多研究的主题。在建筑物发生火灾时,对居住者的伤害通常不是由于直接暴露在火焰中,而是由于可燃物与周围空气之间燃烧产生的热有毒气体。因此,热量被燃烧产物从源头带走,这可能会导致整个建筑物的火势迅速蔓延。为了研究开口尺寸对火灾行为的影响,实验和计算研究已经在一个缩小的房间进行,包括一个单开的门。由于采用了弗劳德模型,得到的结果被转换成全尺寸的结果。根据实验,数值研究能够调查通风系数对进入空气和流出燃烧气体的速度的影响,以及在充分发展的火灾中这些流体穿过的表面面积的影响。将推导出的质量流率与文献进行比较,得到了一致的结果。
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
Journal of Combustion
Journal of Combustion ENGINEERING, CHEMICAL-
CiteScore
2.00
自引率
28.60%
发文量
8
审稿时长
20 weeks
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