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A Study of the Thermal Management and Discharge Strategies of Lithium-Ion Batteries in a Wide Temperature Range

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Listed:
  • Kaixuan Li

    (Key Laboratory of Power Station Energy Transfer Conversion and System of MOE, North China Electric Power University, Beijing 102206, China)

  • Chen Sun

    (Key Laboratory of Power Station Energy Transfer Conversion and System of MOE, North China Electric Power University, Beijing 102206, China)

  • Mingjie Zhang

    (China Electric Power Research Institute, Beijing 100192, China)

  • Shuping Wang

    (State Grid Anhui Electric Power Research Institute, Hefei 230601, China)

  • Bin Wei

    (China Electric Power Research Institute, Beijing 100192, China)

  • Yifeng Cheng

    (State Grid Anhui Electric Power Research Institute, Hefei 230601, China)

  • Xing Ju

    (Key Laboratory of Power Station Energy Transfer Conversion and System of MOE, North China Electric Power University, Beijing 102206, China)

  • Chao Xu

    (Key Laboratory of Power Station Energy Transfer Conversion and System of MOE, North China Electric Power University, Beijing 102206, China)

Abstract

The performance of lithium-ion batteries is greatly influenced by various factors within their operating environment, which can significantly impact their overall efficiency and effectiveness. In this paper, a multi-physics field electrochemical thermal model is established to measure the physical parameters of a battery module during the charge/discharge process. The effects of working temperature, current rate, and convective heat transfer coefficient are investigated by establishing an electrochemical and thermal model. The results are obtained by conducting numerous parameterized scans to analyze the system’s state across various operating conditions, enabling the determination of its temperature and the selection of appropriate cooling measures accordingly. Based on the internal and external conditions of battery operation, parameter selection corresponding to the operating range is divided into several stages, with thermal management strategies provided for each stage. The existing framework facilitates the design of battery packs equipped with efficient thermal management strategies, thereby enhancing the battery systems’ reliability and performance. Furthermore, it aids in establishing optimal operational and safety boundaries for batteries.

Suggested Citation

  • Kaixuan Li & Chen Sun & Mingjie Zhang & Shuping Wang & Bin Wei & Yifeng Cheng & Xing Ju & Chao Xu, 2024. "A Study of the Thermal Management and Discharge Strategies of Lithium-Ion Batteries in a Wide Temperature Range," Energies, MDPI, vol. 17(10), pages 1-25, May.
  • Handle: RePEc:gam:jeners:v:17:y:2024:i:10:p:2319-:d:1392499
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    References listed on IDEAS

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    1. He, Tengfei & Zhang, Teng & Wang, Zhirong & Cai, Qiong, 2022. "A comprehensive numerical study on electrochemical-thermal models of a cylindrical lithium-ion battery during discharge process," Applied Energy, Elsevier, vol. 313(C).
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