Effect of Inlet/Outlet Flow Patterns on Cooling Performance of Battery Pack with Direct Liquid Cooling

The objective of the present study is to investigate the effect of various inlet/outlet flow patterns on cooling performance characteristics of battery pack with direct liquid cooling. Four configurations with different positions of inlet/outlet are considered to investigate the effect of flow patterns on cooling performance of battery pack. The maximum temperature, temperature difference and pressure drop are evaluated as the cooling performance characteristics. The numerical model is developed in ANSYS Fluent commercial software to evaluate the cooling performance characteristics of battery pack with direct liquid cooling considering different configurations. The results reveal that the maximum temperature, temperature difference of battery pack and pressure drop are lower for channel with inlet and two outlets located along its length. The maximum temperature and temperature difference of battery pack are significantly affected by channel with two outlets compared to that with single outlet. Furthermore, the pressure drop for two outlets configuration is low compared to single outlet configuration.