A Systematic Review on Cavity Fires in Buildings: Flame Spread Characteristics, Fire Risks, and Safety Measures

Fire Pub Date : 2023-12-28 DOI:10.3390/fire7010012

Rajeendra Godakandage, P. Weerasinghe, Kumari Gamage, Hani Adnan, Kate T. Q. Nguyen

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Abstract

Fire spread scenarios associated with concealed cavity spaces have been relatively less discussed. The variation in studies with respect to geometry, influential parameters, and protection strategies has been an obstacle to deriving more generalized solutions in terms of cavity fire in buildings. A systematic literature review was conducted following the PRISMA method to identify the conclusive fire behaviour, safety risks, and protection strategies to enable future researchers to address cavity fire scenarios effectively, avoiding catastrophic disasters. This study identified that relative to open-fire scenarios, cavity fires could result in up to 10 times higher flame spread, up to 14 times higher heat exposure, and temperature conditions 13 times higher. Increased toxicity and smoke velocity are also found with cavity fires. Fire protection strategies and their efficiency were identified for a range of cavity geometries. Altogether, cavity spaces, especially narrow ones, cannot be neglected during fire safety, and proper risk identification is required to ensure the safety of the buildings and the occupants in a fire scenario.

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关于建筑空腔火灾的系统性综述：火焰蔓延特性、火灾风险和安全措施

与隐蔽空腔空间相关的火灾蔓延情况讨论相对较少。有关几何形状、影响参数和保护策略的研究各不相同，这阻碍了针对建筑物空腔火灾得出更普遍的解决方案。我们按照 PRISMA 方法进行了系统的文献综述，以确定确凿的火灾行为、安全风险和保护策略，使未来的研究人员能够有效地解决空腔火灾问题，避免灾难性的灾难。这项研究发现，与明火情景相比，空腔火灾可能导致火焰蔓延速度提高 10 倍，受热程度提高 14 倍，温度条件提高 13 倍。空洞火灾的毒性和烟速也会增加。针对一系列空腔几何形状，确定了防火策略及其效率。总之，空腔空间，尤其是狭窄的空腔空间，在消防安全中不容忽视，需要进行适当的风险识别，以确保火灾情况下建筑物和居住者的安全。

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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Fire

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