A thermal management system is strongly related to the output efficiency. The employed working fluid will directly influence the performance of the entire thermal management system. This research adopts Al2O3/Water nanofluid as the working fluid. The difference and feasibility compared with water was conducted. First, this research used a two step synthesis method to produce Al2O3/water nanofluid. The thermal conductivity coefficient, fluid density, viscosity coefficient and specific heat under different temperatures and concentrations were measured and analyzed. Moreover, the Al2O3/Water nanofluid was employed in a heat dissipation system to test and evaluate the heat dissipation performance and pumping power under different flow rates, temperatures, concentrations and heating power. The research results show that the heat exchange capacity is 39% higher than water under concentration of 1.5wt%, flow rate of 2.1 L/min. and temperature at 30℃. Moreover, the pumping power is highest at concentration of 1.5wt.%, flow rate of 2.1 L/min. and temperature at 60℃. To search for the optimal parameters, this research consider proposed an efficiency factor ratio to accommodate the heat dissipation capacity and the pumping power. After data analysis, at low concentration and low coolant flow rate, the efficiency factor ratio for the system is better. The highest ratio is to 1.31. The related research results indicate that the Al2O3/Water nanofluid utilized in the thermal management system of green energy sources has the potential to scale down the occupied space of the heat exchanger and the coolant pump. That is expected to bring a lot of benefit for the equipped space in and cruising mileage of an electric vehicle in the near future.