The experimental study on a novel integrated system with thermal management and rapid cooling for battery pack based on C6F12O spray cooling in a closed-loop

Amongst the background of the popularization of the lithium-ion battery (LIB), the thermal issues have attracted a significant amount of attention. In the present paper, a novel integrated system is proposed with thermal management and rapid cooling based on C6F12O spray cooling in a closed loop. Through experiments using a 4 x 4 dummy 18650 cylindrical battery pack, the cooling performance of the battery thermal management system (BTMS) based on the C6F12O spray cooling is demonstrated to be effective. Further, the controllable heat generation benefits for the analysis of heat dissipation mechanisms. For the condition of 6 cm spray height with 2.05 g/s flow rate, the heat is taken away by the liquid film accounted for around 30% of the total heat dissipation, while that of direct spray cooling accounted for around 70%. In the rapid cooling experiment, compared with the blank experiment, the thermal runaway maximum temperature significantly decreased by 517.1 degrees C and the thermal runaway of the first battery is delayed by 229 s. Owing to the significantly effective heat removal ability of C6F12O spray cooling, the propagation of the thermal runaway is cut off.

Automated summary

The novel integrated system utilizes C6F12O spray cooling for battery thermal management and rapid cooling, effectively reducing the occurrence of thermal runaway and improving heat dissipation efficiency.