부산대학교 도서관

The Battery Thermal Management system (BTMS) is essential for lithium-ion batteries. At high application load, excessive heat generation reduces the battery performance drastically and is also dangerous if the temperature of the battery is not maintained under limits. The heat pipe is a heat exchanger device with very high thermal conductivity. The present study was an attempt to find the effectiveness of the heat pipe attached to the battery under air cooling to reduce the temperature of the battery. The heat pipe can be flattened and bent hence it is very useful to extract heat from one place to another at larger distance. In this paper, various arrangements of heat pipes with lithium-Titanate prismatic battery were considered with different wick porosity (0.45 - 0.7) as well as air velocity (3 m/s to 8 m/s) and have discussed its effect on temperature distribution of the battery. The present Study about heat pipe assisted air cooling showed that out of six different configurations, four heat pipes with wick porosity 0.7, attached at the middle of two large surfaces of the LTO battery can reduce the maximum temperature below 40°C and differential temperature below 5°C of a single prismatic battery with air flow at 3 m/s when it was getting discharged at 8C rating for 446 seconds.