The extinguishment mechanisms of a micelle encapsulator F-500 on lithium-ion battery fires

An effective and suitable fire-extinguishing agent used for lithium ion batteries (LIBs) fire currently exists a huge challenge. In this work, extinguishment mechanisms of a micelle encapsulator F-500 were proposed through a serious of tests. To clearly understand LIB driven into thermal runaway (TR...

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Bibliographic Details
Published in:Journal of energy storage 2022-11, Vol.55, p.105186, Article 105186
Main Authors: Yuan, Shuai, Chang, Chongye, Zhou, Yang, Zhang, Ruoheng, Zhang, Jianqi, Liu, Yifan, Qian, Xinming
Format: Article
Language:English
Subjects:
Energy safety
Extinguishment mechanism
F-500
Lithium ion battery
Water mist
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Summary:An effective and suitable fire-extinguishing agent used for lithium ion batteries (LIBs) fire currently exists a huge challenge. In this work, extinguishment mechanisms of a micelle encapsulator F-500 were proposed through a serious of tests. To clearly understand LIB driven into thermal runaway (TR), gases released from the battery were collected and analyzed. Then, a series of absorption tests were conducted to explore the encapsulator technology of the solution with 3 % F-500. Finally, a series of combustion tests and suppression tests were carried out to verify its suppression effectiveness on LIBs fire. The result indicated that the battery released a great deal of hydrogen and hydrocarbons, which are highly combustible. H2 and CO account for the largest proportion of these flammable components, which are considered as characteristic gases. Battery module with higher SOC increased difficulty of suppression of TR propagation. The rebounding temperature became higher with increase of SOC when fire-extinguishing agents were applied. 3 % F-500 solution could suppress LIBs fire by combination of absorbing these characteristic gases and excellent cooling capacity. The cooling mechanism of water mist (WM) mainly relied on heat steam. These results are expected to provide a guideline for cooling the LIBs system. •The extinguishment mechanism of a micelle encapsulator is firstly introduced to fight lithium ion battery fire.•Micelle encapulator suppresses the LIBs by combination of excellent cooling capacity and absorbing explosive gases.•Key parameters of thermal runaway prevention with fire-extinguishing agent are found.•The rebounding temperature lower the 414.85±6.4 °C is enough to prevent thermal runaway propagation.
ISSN:2352-152X
2352-1538
DOI:10.1016/j.est.2022.105186