DESIGN AND CALCULATION SPECIFICS OF THE SUBSURFACE FIRE EXTINGUISHING SYSTEM

T. Voitovych, V. Kovalyshyn, V. Chernetskyi
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引用次数: 1

Abstract

Introduction Despite the significant progress in technology, including the field of fire safety, fires of oil and petroleum products tanks remains one of the most difficult ones to extinguish. This type of deflagration develops rapidly, has protracted nature and requires the involvement of a large number of means and forces. Also, such fires cause enormous material and environmental damage and pose a significant danger to people's life and health. One of the safest ways to extinguish fires in oil and petroleum products tanks is a subsurface fire extinguishing method. This method uses foam concentrate with fluorinated stabilizers, an aqueous solution of which can cover the surface of petroleum products with a thin film. At the moment, this issue is not researched well enough in our country. The official Ukrainian regulation documents describe technical parameters of oil tanks extinguishing system, but the method described in these documents is the same for both subsurface fire extinguishing and surface foam supply. Therefore, a specific methodology for calculating the main parameters of the subsurface tank extinguishing system is necessary. Purpose The purpose of this study is to describe the methodology for calculating the main parameters of the subsurface tank extinguishing system. Calculation of the different technical parameters of the subsurface method-based extinguishing system depending on the tanks type, fuel types, concentrations of foaming agent, etc. is provided. Results This research outlines the main problems of fire extinguishing in tanks with oil and petroleum products, and specifics of their elimination by supplying fluorosynthetic foaming agents into the layer of combustible material. The research also describes calculation methods of the main parameters of the subsurface fire extinguishing method for extinguishing fires in oil and petroleum tanks using low expansion foam. Examples of calculation using tank RVS-10000 for both proposed methodology and methodology described in the official Ukrainian regulation documents are provided. Various technical parameters of the subsurface method-based extinguishing system were calculated depending on the tanks type, fuel types, concentrations of foaming agent, etc. Conclusion The results of this research prove that spendings on foam agents and damages from the oil fire can be reduced when using subsurface fire extinguishing method.
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地下灭火系统的设计计算细则
尽管包括消防安全领域在内的技术取得了重大进展,但石油和成品油储罐火灾仍然是最难扑灭的火灾之一。这种爆燃发展迅速,具有长期性,需要投入大量的手段和力量。此外,这种火灾造成巨大的物质和环境破坏,对人们的生命和健康构成重大危险。扑灭石油和石油产品储罐火灾最安全的方法之一是地下灭火方法。这种方法使用含氟稳定剂的泡沫浓缩物,其水溶液可以用薄膜覆盖石油产品的表面。目前,我国对这一问题的研究还不够深入。乌克兰官方法规文件描述了油罐灭火系统的技术参数,但这些文件中描述的方法对于地下灭火和表面泡沫供应都是相同的。因此,有必要采用一种具体的方法来计算地下储罐灭火系统的主要参数。本研究的目的是描述地下储罐灭火系统主要参数的计算方法。根据储罐类型、燃料类型、发泡剂浓度等,计算了基于地下方法的灭火系统的不同技术参数。结果本研究概述了石油和石油产品储罐灭火的主要问题,以及通过向可燃材料层注入含氟合成发泡剂来消除这些问题的具体方法。本文还介绍了利用低膨胀泡沫灭火油罐火灾的地下灭火方法主要参数的计算方法。提供了使用坦克RVS-10000对拟议方法和乌克兰官方法规文件中描述的方法进行计算的实例。根据储罐类型、燃料类型、发泡剂浓度等因素,计算了基于地下方法的灭火系统的各项技术参数。结论采用地下灭火方法可以减少泡沫剂的使用,减少油类火灾的损失。
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