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Modular assembly strategy to construct lightweight thermal management system by developing high-stable phase change material units

Xiaoqing Yang, Runye Huang, Zhubin Yao, Guoqing Zhang

2024Chemical Engineering Science59 citationsDOIOpen Access PDF

Abstract

The low mechanical/thermal stability of existing composite phase change material (CPCMs) leads to bulky and low-efficient structures of the battery thermal management system (TMS). Herein, we successfully overcome the trade-off relationship between the mechanical/thermal stability and thermal storage capacity of the CPCM by designing a phase changeable polymeric skeleton (PCPS). Then, a novel modular assembly strategy is proposed to realize the lightweight, high-efficient cooling and smart assembly of the CPCM module. The PCPS provides high mechanical/thermal stabilities and an intrinsic latent heat of 94 J·g −1 . Thus, its proportion can be increased to 56 wt% without greatly sacrificing the latent heat, realizing the preparation of half-jacket-units and the subsequent smart assembly. The jacket-unit assembly CPCM module forms developed air-flow channels and heat transfer area. Consequently, it demonstrates better cooling performance than classical massive module. For instance, its temperature can be reduced by 22.6 °C at 3-C discharge under 35 °C.

Topics & Concepts

Construct (python library)Modular designPhase changePhase (matter)Phase-change materialModularity (biology)Computer scienceSystems engineeringProcess managementEngineeringChemistryProgramming languageEngineering physicsBiologyGeneticsOrganic chemistryAdvanced Battery Technologies ResearchAdvanced Battery Materials and TechnologiesAdvanced Thermoelectric Materials and Devices