锂离子电池储能安全监测技术发展
王琳^1，2，丁刚^1，2，李振博^1，2，赵一汀^1，2，袁臻³，薛锐³
（1.国家电投集团河北电力有限公司，河北 石家庄 050000；2.国家电投集团雄安能源有限公司，河北 保定 071700；
3.南京工程学院能源与动力工程学院，江苏 南京 211167）
摘要： 针对储能锂离子电池存在的安全问题， 综述了电池热失控预防和安全监测方面的理论、实验成果和应用情况，
指出储能锂离子电池在安全方面存在监测手段片面单一、监测方案不完整等问题， 并指出预测储能行业将向“大数据”
“智能化” 方向发展， 同时建议广大科研工作者应从储能系统的工作机理切入， 向安全、经济、高效的方向深入研究。
关键词： 储能安全； 锂离子电池； 电池热失控； 安全监测
中图分类号： TM911      文献标志码： A      文章编号： 2095-0802-(2023)11-0149-04
Development of Energy Storage Safety Monitoring Technology for
Lithium-ion Batteries
WANG Lin^1,2, DING Gang^1,2, LI Zhenbo^1,2, ZHAO Yiting^1,2, YUAN Zhen³, XUE Rui³
(1. SPIC Hebei Electric Power Co., Ltd., Shijiazhuang 050000, Hebei, China; 2. SPIC Xiongan Energy Co., Ltd., Baoding
071700, Hebei, China; 3. School of Energy and Power Engineering, Nanjing Institute of Technology, Nanjing 211167,
Jiangsu, China)
Abstract: Aiming at the safety problems of energy storage lithium-ion batteries, the theory, experimental results and applications
of thermal runaway prevention and safety monitoring were summarized. It is pointed out that there are some problems in the safety
of energy storage lithium-ion batteries, such as one-sided monitoring means and incomplete monitoring scheme. It is predicted
that the energy storage industry will develop in the direction of "big data" and "intelligence". At the same time, it is suggested
that researchers should start from the working mechanism of energy storage system and conduct in-depth research in the direction
of safe and economic operation.
Key words: energy storage safety; lithium-ion battery; thermal runaway of battery; safety monitoring