Abstract:Due to the heat dissipation problem of power lithium-ion battery packs, 12 series-10A？h lithium iron phosphate battery packs were taken as the research object. A three dimensional thermal simulation model for lithium ion battery packs was established based on the finite element commercial software COMSOL MULTIPHYSICS and validated by infrared imaging technology to analyze the influence of the air forced convection cooling and cold plate cooling on the heat dissipation of battery packs. The result shows that with the convection heat transfer coefficient increasing from 5 W/(m²·K) to 100 W/(m²·K), the center temperature of packs reduces only 0.2 K, but the temperature difference reaches 10 K. It can be concluded that the ability about lowering temperature of forced convection cooling is limited, and the forced convection cooling aggravates the temperature uniformity of packs. The maximum and minimum temperatures of battery pack with 5C discharge rate are 318.91 and 317.19 K, respectively, which is superior to forced convection cooling. It can be concluded that the cold plate cooling can balance the pack temperature. Increasing the thickness of cold plate and the number of external cooling fins can reduce the temperature and temperature uniformity of battery packs, but it is not obvious under natural convection cooling.

Key words: lithium-ion battery pack; heat dissipation structure; simulation; cooling