The First Group Standard of New Energy Battery Material Participated by Tianli was Issued
On July 12, the China Industrial Energy Conservation and Cleaner Production Association announced the group standard “Technical Specification for Repair of Waste Lithium Iron Phosphate Cathode Materials”. The standard was led by Shenzhen Xinmao New Energy Technology Co., Ltd. and Tianli was the second unit to jointly draft it with four other units.
This standard is the first group standard for the repair of waste lithium iron phosphate cathode materials in China’s new energy battery materials industry, and it is also the first new energy battery materials industry standard drafted by Tianli. The standard specifies the repair technology methods for lithium iron phosphate cathode materials that are scrapped or disassembled and recycled during the manufacturing process of lithium iron phosphate batteries, including general requirements, technical requirements, equipment, clean production evaluation indicators, ecological environment requirements and safety requirements. Among them, the clean production evaluation indicators make clear grade divisions for resource utilization indicators, energy utilization indicators, and pollutant control indicators. The release and implementation of this standard solves the current problem of the industry having no standards to rely on, helps to standardize the repair and clean production of waste lithium iron phosphate cathode materials, and promotes the sustainable development of the lithium battery industry.
Shandong Tianli Energy Co., Ltd. is committed to the research and development and engineering implementation of new energy battery material production technology. It will closely build a series of standards around the fields of new energy battery materials such as positive electrode materials, negative electrode materials, and waste battery recycling, as well as market demand, to provide higher standards for the development of the new energy battery materials industry and become a leader in the progress and development of the global new energy battery materials industry.、