Experimental Study on Fire Behaviour in Room following the Disposition of Openings

IF 1.5 Q3 ENGINEERING, CHEMICAL
Fidel Meskéoulé Vondou, Claude Valery Ngayihi Abbe, Justin Tégawendé Zaida, Philippe Onguene Mvogo, R. Mouangue
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引用次数: 5

Abstract

Many experiments have been done by authors to study the influence of the natural ventilation through openings on fire behaviour in compartments. It has been revealed that fire will be influenced by the size of existing openings which can be an open window, an open door, or both of them. Concerning the last case, the literature does not give any information about the impact of the arrangement of these openings on the behaviour of fire. The present paper aims then to carry out a comparative study of the disposition of the window compared to the door, on the behaviour of fire in a compartment. To achieve that objective, fire experiments were conducted in a reduced scale room of ​​dimensions 1.20 m   1.20 m   1.02 m, which can be modulated into two configurations. The first one named “PFC configuration” is the case where the open door and the open window are in nonopposite walls. The second one named “PFO configuration” is the case where these both openings are in opposite walls. After having performed several fire tests in both configurations using the same amount of diesel fuel as fire source, results revealed that the fuel burns faster in the PFC configuration compared to that in the PFO configuration. This is due to a global mass loss rate of against , respectively. Beyond a difference of 20°C observed on the maximal temperature of burned gases located at ceiling, results also revealed the production of ghosting flames in the PFO configuration.
开口布置后室内火灾行为的实验研究
作者已经做了许多实验来研究通过开口的自然通风对隔间内火灾行为的影响。据透露,火灾会受到现有开口的大小的影响,这些开口可以是打开的窗户,打开的门,或者两者都是。关于最后一种情况,文献没有给出任何关于这些开口的安排对火的行为的影响的信息。本论文的目的是,然后进行比较研究的配置的窗户相比,门,对火灾的行为在一个隔间。为了实现这一目标,在一个尺寸为1.20 m、1.20 m、1.02 m的缩小房间中进行了火灾实验,该房间可以调制成两种配置。第一种称为“PFC配置”,即打开的门和打开的窗户位于非相对的墙壁上。第二种称为“PFO结构”,这两个开口都在相对的壁上。在使用相同数量的柴油作为火源的两种配置下进行了几次燃烧测试后,结果显示PFC配置下的燃料燃烧速度比PFO配置下的燃料燃烧速度更快。这是由于全球质量损失率分别为。除了在天花板上观察到的燃烧气体的最高温度相差20°C之外,结果还显示PFO结构中产生了重影火焰。
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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