Do you know about graphene fiberglass heating system?
The monene fiberglass graphene heating system product unveiled this time is the "first milestone" of the strategic cooperation between Keheng Co., Ltd. and BGI. Relying on the world-leading graphene preparation technology of the BGI team, combined with the industrialization experience of Haoneng Technology in the field of new energy intelligent equipment, and relying on the overall characteristics of monene fiberglass graphene, the "king of materials", it has overcome the difficulties of various industrial drying application scenarios such as coating drying and ink curing.
First, it greatly improves the production efficiency and production capacity of the equipment. With the significant advantages of nanosheet structure in optimizing the rheological properties of slurry and fiberglass in reducing the formation of electrode film cracks, it greatly improves the coating uniformity and electrode mechanical strength, improves the adaptability of the coating process, and presents the overall heating and drying as "faster, ultra-uniform, and ultra-precise". The monene fiberglass graphene heating system has excellent conductivity and thermal conductivity, can achieve rapid heating, and at the same time ensures face-to-face uniform heating and penetrating heating of components, better thermal field uniformity, and more accurate heat source.
Second, it helps improve the performance of terminal lithium battery products. The monene fiberglass graphene material can provide more active sites and improve the lithium ion storage capacity; the lightweight characteristics of fiberglass help reduce the weight of inactive materials, thereby further improving the energy density of the battery, and ultimately achieving a significant improvement in the product performance of lithium-ion batteries.
Third, overall reduction in production energy consumption and power load. The traditional hot air heating method has large heat loss, and the effective energy utilization rate is generally less than 20%; the monene fiberglass graphene infrared heating method breaks through the bottleneck of slow response and high energy consumption of traditional electric heating materials, which can effectively improve the effective energy utilization rate, significantly reduce production energy consumption, and achieve overall cost reduction and efficiency improvement for end customers.
After the unveiling ceremony, the two sides also held an in-depth discussion on the industrialization prospects of graphene infrared heating technology. The BGI team shared the successful cases of monene fiberglass, the first super monene material, in wind power de-icing, aerospace thermal management, electromagnetic shielding, special heating and other scenarios. Haoneng Technology combined the application scenarios of new energy battery production equipment and various functional membrane equipment to propose many communication topics. The two sides discussed a number of technical optimizations and joint research and development directions, and through the four-step closed loop of "demand matching-platform support-talent exchange-ecological synergy", jointly created a full-chain industrial innovation ecology from technology research and development, product transformation to market application.
