External Liquid Cooling Method for Lithium-Ion Battery Modules Under Ultra-Fast Charging

“…Chen et al 116 proposed that the battery system module can be safely and quickly charged in fast-charging environments, where the spacing between the battery cells, the transverse and longitudinal width of the channel, and the NSGA II genetic algorithm were used to do a multi-objective optimization, while considering the channel depth and other parameters, which yielded that the depth of the channel had the greatest influence. Qin et al 117 established a high-precision simulation model for ultrafast charging and suggested a system that uses circulating cooling equipment and cooling plates to externally cool liquid lithium-ion battery modules, which can effectively control the temperature rise.…”

Towards intelligent electric vehicle power batteries and multi-scenario application vehicle operation safety charging strategies: a review

“…Chen et al 116 proposed that the battery system module can be safely and quickly charged in fast-charging environments, where the spacing between the battery cells, the transverse and longitudinal width of the channel, and the NSGA II genetic algorithm were used to do a multi-objective optimization, while considering the channel depth and other parameters, which yielded that the depth of the channel had the greatest influence. Qin et al 117 established a high-precision simulation model for ultrafast charging and suggested a system that uses circulating cooling equipment and cooling plates to externally cool liquid lithium-ion battery modules, which can effectively control the temperature rise.…”

Towards intelligent electric vehicle power batteries and multi-scenario application vehicle operation safety charging strategies: a review

Thermal management with fast temperature convergence based on optimized fuzzy PID algorithm for electric vehicle battery

Study on the temperature rise characteristics of aging lithium-ion batteries under different cooling methods