Research on Key Parameters and Fire Extinguishing Effectiveness of Compressed Air Foam System Used for UHV Substation

IF 2.4 3区工程技术 Q2 ENGINEERING, MULTIDISCIPLINARY

Fire Technology Pub Date : 2024-11-15 DOI:10.1007/s10694-024-01669-8

Jiaqing Zhang, Fengju Shang, Shanwen Zhang, Liufang Wang, Yanguo Ke, Jie Huang, Wen Su, Rui Liu, Youjie Sheng

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Abstract

Compressed air foams (CAFs) system has proved to be highly effective to generate uniform and highly stable foam, showed a great potential application in ultra-high voltage (UHV) substation. But the key parameters of the system are not focused deeply. In this paper, an experimental platform was established to study the effect of system parameters of CAFs on foam jet capability, including the nozzle aperture, flowrate, liquid–gas ratio, jet angle, and ambient wind speed. Also, fire extinguishing performance of the CAFs was evaluated after parameter optimization. The results show that there is an optimal nozzle aperture range, and the foam jet distance can be increased by increasing the flowrate, liquid–gas ratio, and angle. The offset degree of foam jet path increases with the increase of wind speed. The methods to improve the wind resistance of foam include increasing the nozzle aperture, decreasing the flowrate, and changing the jet angle. The CAFs have a high performance of extinguishing transformer oil fire, but it gradually decreases with the increase of fire source position under ambient wind. This paper can provide guidance for the design of CAFs system used in UHV substation.

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特高压变电站压缩空气泡沫灭火系统关键参数及灭火效果研究

压缩空气泡沫（CAFs）系统已被证明具有产生均匀、高稳定泡沫的高效能，在特高压（UHV）变电站中显示出巨大的应用潜力。但对系统的关键参数研究不够深入。本文建立了一个实验平台，研究了喷嘴孔径、流量、液气比、射流角度和环境风速等系统参数对泡沫喷射能力的影响。并对参数优化后的自动灭火系统的灭火性能进行了评价。结果表明，射流喷嘴存在最佳孔径范围，增大流量、液气比和射流角度均可增大泡沫射流距离。泡沫射流路径偏移程度随风速的增大而增大。提高泡沫抗风性能的方法包括增大喷嘴孔径、减小流量和改变射流角度。在环境风作用下，随着火源位置的增加，其灭火性能逐渐降低。本文可为特高压变电站CAFs系统的设计提供指导。

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

Fire Technology 工程技术-材料科学：综合

CiteScore

6.60

自引率

14.70%

发文量

137

审稿时长

7.5 months

期刊介绍： Fire Technology publishes original contributions, both theoretical and empirical, that contribute to the solution of problems in fire safety science and engineering. It is the leading journal in the field, publishing applied research dealing with the full range of actual and potential fire hazards facing humans and the environment. It covers the entire domain of fire safety science and engineering problems relevant in industrial, operational, cultural, and environmental applications, including modeling, testing, detection, suppression, human behavior, wildfires, structures, and risk analysis. The aim of Fire Technology is to push forward the frontiers of knowledge and technology by encouraging interdisciplinary communication of significant technical developments in fire protection and subjects of scientific interest to the fire protection community at large. It is published in conjunction with the National Fire Protection Association (NFPA) and the Society of Fire Protection Engineers (SFPE). The mission of NFPA is to help save lives and reduce loss with information, knowledge, and passion. The mission of SFPE is advancing the science and practice of fire protection engineering internationally.