Thermal Analysis of the Gelation Process of Li-ion Battery Polymer Electrolyte by Electron Irradiation Using Multi-physics Simulation: Thermal Analysis of the Gelation

Rechargeable lithium-based batteries play a crucial role in the shift towards renewable energy, providing eco-friendly alternatives to fossil fuels and improving sustainability. However, their liquid electrolytes present significant safety risks, especially in electric vehicles. To address this, the...

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Bibliographic Details
Published in:The Korean journal of chemical engineering 2025, Vol.42 (1), p.165-177
Main Authors: Lee, Woojien, Kim, Jaehyeon, Earmme, Taeshik, Chang, Kunok
Format: Article
Language:English
Subjects:
Biotechnology
Catalysis
Chemistry
Chemistry and Materials Science
Industrial Chemistry/Chemical Engineering
Materials Science
Original Article
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Summary:Rechargeable lithium-based batteries play a crucial role in the shift towards renewable energy, providing eco-friendly alternatives to fossil fuels and improving sustainability. However, their liquid electrolytes present significant safety risks, especially in electric vehicles. To address this, the process of gelation through cross-linking has emerged as a promising solution, effectively reducing the risk of combustion. Traditional gelation methods are time-consuming and costly, often taking up to an hour. In contrast, electron beam irradiation provides a highly efficient alternative, reducing the process to just seconds. This lowers production costs and meets the demands of high-volume manufacturing. In this study, the multiphysical phenomena in the coin cell were simulated using, which combines radiation transport modeling, phase change simulation of the gelation process, and thermal analysis. Through this, the peak temperature of the electrolyte in the coin cell was predicted and the time required for the temperature of the electrolyte to return to the ambient temperature was predicted.
ISSN:0256-1115
1975-7220
DOI:10.1007/s11814-024-00271-6