Advances in performance degradation mechanism and safety assessment of LiFePO<sub>4</sub>for energy storage.

Xiao, Zhongliang; Chen, Taotao; Zhao, Tingting; Song, Liubin; Yuan, Rongyao; Liu, Cheng; Zhong, Guobin; Xu, Kaiqi; Yan, Qunxuan; Cai, Jinfeng; Peng, Xiaoxin; Xia, Haowu

Advances in performance degradation mechanism and safety assessment of LiFePO₄for energy storage.

Xiao, Zhongliang; Chen, Taotao; Zhao, Tingting; Song, Liubin; Yuan, Rongyao; Liu, Cheng; Zhong, Guobin; Xu, Kaiqi; Yan, Qunxuan; Cai, Jinfeng; Peng, Xiaoxin; Xia, Haowu.

Affiliation

Xiao Z; School of Chemistry and Chemical Engineering, Changsha University of Science and Technology, Changsha 410114, People's Republic of China.
Chen T; School of Chemistry and Chemical Engineering, Changsha University of Science and Technology, Changsha 410114, People's Republic of China.
Zhao T; School of Chemistry and Chemical Engineering, Changsha University of Science and Technology, Changsha 410114, People's Republic of China.
Song L; School of Chemistry and Chemical Engineering, Changsha University of Science and Technology, Changsha 410114, People's Republic of China.
Yuan R; School of Chemistry and Chemical Engineering, Changsha University of Science and Technology, Changsha 410114, People's Republic of China.
Liu C; School of Chemistry and Chemical Engineering, Changsha University of Science and Technology, Changsha 410114, People's Republic of China.
Zhong G; Southern Power Grid Electricity Science and Technology Co. Ltd, Guangzhou 510180, People's Republic of China.
Xu K; Southern Power Grid Electricity Science and Technology Co. Ltd, Guangzhou 510180, People's Republic of China.
Yan Q; Keyking Recycling Technology Co. Ltd, Hengyang 412800, People's Republic of China.
Cai J; Yiyang Wamjingyuan Electromic Co. Ltd, 413000, People's Republic of China.
Peng X; Yiyang Wamjingyuan Electromic Co. Ltd, 413000, People's Republic of China.
Xia H; Yiyang Wamjingyuan Electromic Co. Ltd, 413000, People's Republic of China.

Nanotechnology ; 35(29)2024 Apr 30.

Article in En | MEDLINE | ID: mdl-38588652

ABSTRACT

ABSTRACT

In the context of 'energy shortage', developing a novel energy-based power system is essential for advancing the current power system towards low-carbon solutions. As the usage duration of lithium-ion batteries for energy storage increases, the nonlinear changes in their aging process pose challenges to accurately assess their performance. This paper focuses on the study LiFeO4(LFP), used for energy storage, and explores their performance degradation mechanisms. Furthermore, it introduces common battery models and data structures and algorithms, which used for predicting the correlation between electrode materials and physical parameters, applying to state of health assessment and thermal warning. This paper also discusses the establishment of digital management system. Compared to conventional battery networks, dynamically reconfigurable battery networks can realize real-time monitoring of lithium-ion batteries, and reduce the probability of fault occurrence to an acceptably low level.

Key words

aging; lithium-ion energy storage systems; safety assessment; thermo-electrical management

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