Study on the Flame Propagation Characteristics of Multi-point Methane Explosions in Long and Narrow Confined Spaces

IF 1.5 4区 工程技术 Q3 METALLURGY & METALLURGICAL ENGINEERING Mining, Metallurgy & Exploration Pub Date : 2024-09-07 DOI:10.1007/s42461-024-01075-2
Wen Jiang, Yi Qin, Ning Lu, Shimei Dai, Zhihao Zhang
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Abstract

To investigate the injuries caused by multi-point gas deflagration accidents within the complex environment of a mine, this paper conducts a numerical study of the flame propagation of methane explosions in a ventilation door and supporting structures. The effects of ignition source position, number, and changes in the state of the ventilation door were analyzed based on explosion simulation with three different ignition source settings. The results show that the interplay between the increased number of ignition sources and the confining effect of the flame significantly affected the structural evolution of the flame. After crossing the ventilation doors, the flame structure transitions to forms such as umbrella flame, columnar flame, tip flame, or twisted flame. In the early stages of flame propagation, reflected pressure waves are the main cause of changes in flame propagation velocity. As the reaction proceeds, the cause changes to an interaction between the turbulent flame, the chemical reaction, and the reflected pressure wave. The speed of a single ignition source passing through the ventilation door was 172.5 m/s, while the speeds of two ignition sources at increasing distances were 146.6 m/s and 115 m/s, respectively. Therefore, the speed of the flame passing through the ventilation door is inversely proportional to the number of ignition sources and inversely proportional to the distance between the ignition sources. Additionally, with two-point fire sources, the more distorted the vortex distribution, the more twisted the flame propagation shape. This study addresses the lack of research on the flame propagation characteristics of methane explosions in long and narrow confined spaces, which is crucial for gas explosion risk prevention.

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狭长密闭空间中多点甲烷爆炸的火焰传播特性研究
为了研究矿井复杂环境下多点瓦斯爆燃事故造成的伤害,本文对通风门和支护结构中甲烷爆炸的火焰传播进行了数值研究。基于三种不同点火源设置的爆炸模拟,分析了点火源位置、数量和通风门状态变化的影响。结果表明,点火源数量的增加与火焰的约束效应之间的相互作用极大地影响了火焰的结构演变。穿过通风门后,火焰结构转变为伞状火焰、柱状火焰、尖端火焰或扭曲火焰等形式。在火焰传播的早期阶段,反射压力波是导致火焰传播速度变化的主要原因。随着反应的进行,原因转变为湍流火焰、化学反应和反射压力波之间的相互作用。单个点火源通过通风门的速度为 172.5 米/秒,而两个点火源在距离增加时的速度分别为 146.6 米/秒和 115 米/秒。因此,火焰通过通风门的速度与点火源的数量成反比,与点火源之间的距离成反比。此外,在两点火源的情况下,涡流分布越扭曲,火焰的传播形状就越扭曲。这项研究解决了对狭长密闭空间中甲烷爆炸火焰传播特性研究不足的问题,这对预防气体爆炸风险至关重要。
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来源期刊
Mining, Metallurgy & Exploration
Mining, Metallurgy & Exploration Materials Science-Materials Chemistry
CiteScore
3.50
自引率
10.50%
发文量
177
期刊介绍: The aim of this international peer-reviewed journal of the Society for Mining, Metallurgy & Exploration (SME) is to provide a broad-based forum for the exchange of real-world and theoretical knowledge from academia, government and industry that is pertinent to mining, mineral/metallurgical processing, exploration and other fields served by the Society. The journal publishes high-quality original research publications, in-depth special review articles, reviews of state-of-the-art and innovative technologies and industry methodologies, communications of work of topical and emerging interest, and other works that enhance understanding on both the fundamental and practical levels.
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