主管:中华人民共和国应急管理部
主办:应急管理部天津消防研究所
ISSN 1009-0029  CN 12-1311/TU
消防科学与技术

消防科学与技术 ›› 2026, Vol. 45 ›› Issue (6): 34-42.DOI: 10.20168/j.1009-0029.2026.06.0034.09

• • 上一篇    下一篇

锂离子电池储能单元热失控分级预警与防控策略研究

孙鹏1,2, 范宏凯1,2, 王逸超1,2, 耿学文1,2, 高志远1   

  1. (1.新源智储能源发展(北京)有限公司,北京 102400; 2.电化学能源消防安全联合创新应急管理部重点实验室,北京 102400)
  • 收稿日期:2025-05-06 修回日期:2025-11-17 出版日期:2026-06-15 发布日期:2026-06-15
  • 作者简介:孙鹏,新源智储能源发展(北京)有限公司,电化学能源消防安全联合创新应急管理部重点实验室,高级工程师,主要从事电化学储能系统主动安全预警、健康诊断等方面的研究,北京市房山区中关村前沿技术研究院二期6号楼,102400,sun.peng1020@163.com。
  • 基金资助:
    国家消防救援局科技计划项目(2024XFZD02);中国电力国际发展有限公司科技项目(ZGDL-KJ-2024-C035)

Research on tiered early warning and prevention-control strategies for thermal runaway in lithium-ion battery energy storage units

Sun Peng1,2, Fan Hongkai1,2, Wang Yichao1,2, Geng Xuewen1,2, Gao Zhiyuan1   

  1. (1. XYZ Storage Technology Co., Ltd., Beijing 102400, China; 2. Key Laboratory of Electrochemical Energy Safety, Ministry of Emergency Management, Beijing 102400, China)
  • Received:2025-05-06 Revised:2025-11-17 Online:2026-06-15 Published:2026-06-15

摘要: 锂离子电池作为一种复杂的电化学装置,存在日益突出的火灾安全风险问题。本文通过开展280 Ah磷酸铁锂电池模组的过充电热失控试验,采集并分析在热失控发展不同阶段电池电压、温度/温升与特征气体的发展规律,提出了融合电压、温度与气体多特征信号的锂离子电池热失控分级早期预警方法。基于分级预警结果,从实际工程应用角度出发提出了一种联合电化学储能BMS与消防系统的热失控防控策略,并在280 Ah与314 Ah两种规格的储能电池单元进行了热失控试验验证。试验结果表明,所提出的热失控预警与防控方法能够早于电池泄压阀开启3 min、早于热失控15 min以上发出分级告警信号,并根据热失控的风险程度启动相应的保护与消防措施。

关键词: 锂离子电池, 热失控, 早期预警, 多参数融合

Abstract: Lithium-ion batteries, as complex electrochemical devices, face increasingly prominent fire safety risks. This study conducted overcharge-induced thermal runaway(TR) experiments on a 280 Ah lithium-ion phosphate battery module. By collecting and analyzing the developmental patterns of battery voltage, temperature/temperature rise, and characteristic gases at different stages of TR progression, we proposed a hierarchical early warning method for lithium-ion battery TR that integrates multi-feature signals of voltage, temperature, and gas. Based on the hierarchical warning results, a TR prevention and control strategy was developed from a practical engineering perspective, combining the battery management system (BMS) of electrochemical energy storage with fire protection systems. The strategy was validated through TR tests on both 280 Ah and 314 Ah energy storage battery units. Experimental results demonstrate that the proposed early warning and prevention method can issue alarm signals at least 3 min earlier than pressure relief valve activation and more than 15 min earlier than the onset of TR, while initiating corresponding protective and firefighting measures based on the risk severity of TR.

Key words: lithium-ion battery, thermal runaway, early warning, multi-parameter integration