In the dynamic realm of electric vehicles (EVs), the efficient cooling of EV batteries is of utmost importance. Lankwitzer, a renowned name in the coatings and materials industry, has been making significant headway in developing advanced cooling plates for EV batteries.
Lankwitzer's cooling plates for EV batteries are engineered with a profound understanding of the intricate requirements of modern battery systems. One of the remarkable features of their offerings is the utilization of high - thermal - conductivity materials. These materials enable rapid heat transfer from the battery cells to the coolant. In an EV battery pack, where numerous cells are closely packed, efficient heat dissipation is crucial. Lankwitzer's cooling plates, with their high - thermal - conductivity materials, can quickly absorb the heat generated during charging and discharging cycles. For example, in high - performance EVs that are designed for quick acceleration and long - distance driving, the battery cells generate substantial heat. Lankwitzer's cooling plates can effectively dissipate this heat, maintaining the battery cells at an optimal operating temperature. This not only enhances the performance of the battery but also extends its lifespan.
The company's commitment to research and development has led to the creation of cooling plates with a unique design. Their cooling plates often feature a complex micro - channel structure. These micro - channels are designed to ensure a uniform distribution of the coolant across the entire plate. In traditional cooling plates, there may be areas where the coolant flow is less efficient, resulting in uneven cooling of the battery cells. However, Lankwitzer's micro - channel design overcomes this issue. The coolant can reach every part of the plate, providing consistent cooling to all the battery cells. This is particularly important in large - scale EV battery packs, where maintaining a uniform temperature across all cells is essential for the overall performance and safety of the battery system. Additionally, the micro - channels are designed to minimize the pressure drop of the coolant, which means that less energy is required to circulate the coolant, further improving the efficiency of the cooling system.
Lankwitzer's influence in the EV battery cooling plate market is also evident through its partnerships. The company has been collaborating closely with major EV manufacturers and battery producers. These partnerships allow Lankwitzer to stay at the cutting - edge of EV battery technology development and to customize cooling plates to meet the specific needs of different applications. For instance, in a recent collaboration with a well - known EV manufacturer, Lankwitzer developed a specialized cooling plate for their new line of luxury electric SUVs. These SUVs have larger battery packs and higher power demands, necessitating a more robust cooling system. Lankwitzer's team of engineers worked closely with the manufacturer to ensure that the cooling plates met the unique thermal management requirements of these vehicles.
In the latest news, Lankwitzer has announced the expansion of its production facilities for EV battery cooling plates. This expansion is a response to the growing demand for their innovative cooling plate solutions in the EV market. The new facilities are expected to increase production capacity significantly, allowing Lankwitzer to supply more cooling plates to meet the needs of the burgeoning EV industry. This move not only showcases Lankwitzer's confidence in the future of EVs but also its commitment to providing high - quality cooling plate solutions to support the growth of the electric vehicle market.