Electric vehicle batteries operate at elevated temperatures and are susceptible to thermal risks. Excessive heat can diminish battery lifespan and, in extreme cases, lead to safety hazards. Cooling plate technology plays a crucial role in managing battery temperatures, safeguarding against high-temperature damage, and bolstering the battery’s stability and safety in harsh conditions.
Traditional cooling plates are predominantly made from materials with high thermal conductivity, such as copper or aluminum. However, to further augment cooling efficiency and minimize energy consumption, the industry is exploring advanced materials like graphene. These materials offer superior thermal conductivity and the potential for lightweight designs, which can significantly improve the overall performance of the cooling system.
Innovation in cooling plate technology also extends to the design of the battery module arrangement and the geometry and positioning of the cooling channels. Optimal design considerations include maximizing heat transfer efficiency while ensuring even distribution of coolant across all battery cells.