Experiment and strategy research on combined use of water spray and compressed air foam fire extinguishing system for UHV converter transformer

2023 8th Asia Conference on Power and Electrical Engineering (ACPEE) Pub Date : 2023-04-01 DOI:10.1109/ACPEE56931.2023.10135626

Xianling Fu, Jiaqing Zhang, Yubiao Huang, Yi Guo, Fengju Shang

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Abstract

The cold spray test of water spray fire extinguishing system, compressed air foam cannon fire extinguishing system and combined fire extinguishing test were carried out based on a scaled platform. The cold spray test results show that most of the water spray will be directly incorporated into the compressed air foam, and the defoaming effect of the water spray on the compressed air foam is limited. The combined fire extinguishing test shows that the water spray fire extinguishing system and the compressed air foam fire extinguishing system can achieve effective fire extinguishing under different fire extinguishing sequence conditions, and the two fire extinguishing systems can be used simultaneously in dealing with transformer oil fire. The comprehensive cooling effect of the dual system is better than that of a single system. Combining the actual characteristics and requirements of the converter station, a combination strategy of fire extinguishing system that suitable for the converter station is further proposed.

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超高压换流变压器水雾与压缩空气泡沫灭火系统联合应用的实验与策略研究

在规模化平台上进行了水喷雾灭火系统、压缩空气泡沫炮灭火系统和组合灭火系统的冷喷雾试验。冷喷雾试验结果表明，大部分水雾会直接掺入压缩空气泡沫中，水雾对压缩空气泡沫的消泡效果有限。联合灭火试验表明，水喷雾灭火系统和压缩空气泡沫灭火系统在不同灭火顺序条件下均能实现有效灭火，两种灭火系统可同时用于处理变压器油火灾。双系统的综合冷却效果优于单系统。结合换流站的实际特点和要求，进一步提出了适合换流站的灭火系统组合策略。

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来源期刊

2023 8th Asia Conference on Power and Electrical Engineering (ACPEE)

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