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Experimental investigation on thermal management system with flame retardant flexible phase change material for retired battery module

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  • Li, Yuming
  • Wang, Tingyu
  • Li, Xinxi
  • Zhang, Guoqing
  • Chen, Kai
  • Yang, Wensheng

Abstract

Phase change material (PCM) cooling technology has attracted significant attention as an efficient battery thermal management strategy owing to its promising performance, especially in retired battery modules with the amplification of inconsistency and security risk generation. However, it has some limitations in practical applications, including the leakage of phase change ingredients, low thermal conductivity, and high flammability. Herein, a novel paraffin (PA)/EVA grafted with maleic anhydride (EVA-g-MAH)/expanded graphite (EG)/melamine (MA)/triphenyl phosphate (TPP) composite phase change material (MTPCM) was successfully prepared and utilised in a retired battery module. MTPCM3 with an MA/TPP ratio of 10/15 achieved multiple functions, such as leakage-proof capability, superior high thermal conductivity, and prominent flammable retardant performance (UL94-V0). Particularly, MTPCM demonstrated excellent total heat release (THR) and total smoke production (TSP) of 193.8 MJ/m2 and 7.8 m2, respectively. Furthermore, the application of MTPCM3 in 32650-type retired lithium iron phosphate battery modules effectively controlled the maximum temperature below 50 °C and maintained a temperature difference within 5 °C at a 3C discharge rate; this significantly prevented the heat accumulation of batteries and improved the temperature consistency of the retired battery during the long cycling process. This work suggests an efficient approach toward exploiting a multifunctional PCM for thermal management and energy storage fields.

Suggested Citation

  • Li, Yuming & Wang, Tingyu & Li, Xinxi & Zhang, Guoqing & Chen, Kai & Yang, Wensheng, 2022. "Experimental investigation on thermal management system with flame retardant flexible phase change material for retired battery module," Applied Energy, Elsevier, vol. 327(C).
    • Handle: RePEc:eee:appene:v:327:y:2022:i:c:s0306261922013666
    DOI: 10.1016/j.apenergy.2022.120109
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    2. Deng, Jian & Huang, Qiqiu & Li, Xinxi & Zhang, Guoqing & Li, Canbing & Li, Songbo, 2024. "Influence mechanism of battery thermal management with flexible flame retardant composite phase change materials by temperature aging," Renewable Energy, Elsevier, vol. 222(C).
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    5. Yue, Hao & Ou, Yangcen & Wang, Jiuao & Wang, Haibo & Du, Zongliang & Du, Xiaosheng & Cheng, Xu, 2024. "Ti3C2Tx MXene/delignified wood supported flame-retardant phase-change composites with superior solar-thermal conversion efficiency and highly electromagnetic interference shielding for efficient therm," Energy, Elsevier, vol. 286(C).
    6. Gharehghani, Ayat & Rabiei, Moeed & Mehranfar, Sadegh & Saeedipour, Soheil & Mahmoudzadeh Andwari, Amin & García, Antonio & Reche, Carlos Mico, 2024. "Progress in battery thermal management systems technologies for electric vehicles," Renewable and Sustainable Energy Reviews, Elsevier, vol. 202(C).

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