Qiujuan Sun scite author profile

Based on the electrochemical and thermal model, a coupled electro-thermal runaway model was developed and implemented using finite element methods. The thermal decomposition reactions when the battery temperature exceeds the material decomposition temperature were embedded into the model. The temperature variations of a lithium titanate battery during a series of charge-discharge cycles under different current rates were simulated. The results of temperature and heat generation rate demonstrate that the greater the current, the faster the battery temperature is rising. Furthermore, the thermal influence of the overheated cell on surrounding batteries in the module was simulated, and the variation of temperature and heat generation during thermal runaway was obtained. It was found that the overheated cell can induce thermal runaway in other adjacent cells within 3 mm distance in the battery module if the accumulated heat is not dissipated rapidly.

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Thermal response of lithium-ion battery during charging and discharging under adiabatic conditions

Wang

Zhao

et al. 2015

J Therm Anal Calorim

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Qiujuan Sun

Heat transfer in the dynamic cycling of lithium–titanate batteries

Numerical study on lithium titanate battery thermal response under adiabatic condition

A Thermal Runaway Simulation on a Lithium Titanate Battery and the Battery Module

Thermal response of lithium-ion battery during charging and discharging under adiabatic conditions

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