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Effect analysis on heat dissipation performance enhancement of a lithium-ion-battery pack with heat pipe for central and southern regions in China

Author

Listed:
  • E, Jiaqiang
  • Yi, Feng
  • Li, Wenjie
  • Zhang, Bin
  • Zuo, Hongyan
  • Wei, Kexiang
  • Chen, Jingwei
  • Zhu, Hong
  • Zhu, Hao
  • Deng, Yuanwang

Abstract

A heat pipe (HP) heat dissipation model of a lithium-ion-battery pack is established for the climate in the central and southern regions in China, and the heat transfer effects of various fins with different spacing and thickness are investigated. According to the change of heat dissipation, inlet and outlet pressure difference and average heat transfer coefficient with fin spacing and thickness, the relatively optimal heat dissipation fin structure parameters are determined, and the battery temperature distribution and temperature change under different discharge rates of the battery pack in a high temperature environment, and the characteristics of the HP heat dissipation battery thermal management system(BTMS) are analyzed and the effects of HP-based BTMS on battery startup heating in low temperature are evaluated. The results show that the optimal parameters are that the fin spacing is 5 mm, the thickness is 2 mm, the air flow velocity varies from 4 to 16 m/s, and the average heat transfer coefficient is 7.6–11.9 W/(m·K). The battery pack using the HP can reach the proper temperature of 288.15 K in 682s, 615s, and 375 s at 1C, 2C, and 4C discharge rates respectively.

Suggested Citation

  • E, Jiaqiang & Yi, Feng & Li, Wenjie & Zhang, Bin & Zuo, Hongyan & Wei, Kexiang & Chen, Jingwei & Zhu, Hong & Zhu, Hao & Deng, Yuanwang, 2021. "Effect analysis on heat dissipation performance enhancement of a lithium-ion-battery pack with heat pipe for central and southern regions in China," Energy, Elsevier, vol. 226(C).
  • Handle: RePEc:eee:energy:v:226:y:2021:i:c:s0360544221005855
    DOI: 10.1016/j.energy.2021.120336
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    References listed on IDEAS

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    2. Xiao, Hanxu & E, Jiaqiang & Tian, Sicheng & Huang, Yuxin & Song, Xinyu, 2024. "Effect of composite cooling strategy including phase change material and liquid cooling on the thermal safety performance of a lithium-ion battery pack under thermal runaway propagation," Energy, Elsevier, vol. 295(C).
    3. Kalkan, Orhan & Celen, Ali & Bakirci, Kadir, 2022. "Multi-objective optimization of a mini channeled cold plate for using thermal management of a Li-Ion battery," Energy, Elsevier, vol. 251(C).
    4. Ma, Ying & Yang, Heng & Zuo, Hongyan & Ma, Yi & Zuo, Qingsong & Chen, Ying & He, Xiaoxiang & Wei, Rongrong, 2023. "Three-dimensional EG@MOF matrix composite phase change materials for high efficiency battery cooling," Energy, Elsevier, vol. 278(C).
    5. Kittinan Boonma & Napol Patimaporntap & Hussein Mbulu & Piyatida Trinuruk & Kitchanon Ruangjirakit & Yossapong Laoonual & Somchai Wongwises, 2022. "A Review of the Parameters Affecting a Heat Pipe Thermal Management System for Lithium-Ion Batteries," Energies, MDPI, vol. 15(22), pages 1-16, November.

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