New Breakthrough in Waste Lithium Battery Recycling: Efficient Conversion and High-Value Recovery

With the growing popularity of electric vehicles, the recycling and disposal of waste lithium batteries has become increasingly urgent. To address this issue, an innovative set of equipment for recycling waste lithium batteries, known as the Battery Powdering Line, has been developed. This equipment not only facilitates the efficient conversion of waste batteries but also promotes the recovery and reuse of high-value products, injecting new vitality into environmental protection and sustainable development.

<h2><b>Innovative Process Flow for Efficient Conversion</b></h2>
This comprehensive equipment employs a process flow that includes <b>pre-discharge, shredding, low-temperature drying of electrolytes, organic matter pyrolysis, sorting and separation, high-value metal roasting, and exhaust treatment</b>. This innovative design overcomes key technical challenges such as multi-stage composite treatment, precise control of temperature and flow, automated continuous operation, and coordinated treatment of multiple pollutants during the reaction process. Through these stages, waste single batteries can be efficiently converted into high-value products such as black powder, copper, and aluminum. Notably, the low-temperature drying of electrolytes and the pyrolysis of organic matter are crucial steps. By combining low-temperature drying with medium-temperature pyrolysis, the process effectively removes organic substances such as electrolytes and binders, laying a solid foundation for subsequent sorting and high-value metal roasting.

<h2><b>Key Technological Breakthroughs Leading Industry Innovation</b></h2>
Several key technological breakthroughs within the process flow provide strong support for the efficient recycling of waste lithium batteries. For instance, the development of high-efficiency pyrolysis technology for organic materials involves a sealed anaerobic pyrolysis system, which decomposes binders and separators at specific temperature ranges, weakening the bond between electrode materials and current collectors. Combined with the crushing and screening process, this yields pure electrode materials, allowing for the separation of various components of waste lithium batteries. Additionally, the high-temperature roasting technology for valuable metals developed for ternary batteries is also noteworthy. This technology utilizes a high-temperature roasting system, employing hydrogen, carbon, natural gas, or sulfuric acid as reactants at specific temperature ranges to react with cathode materials, disrupting the layered structure of lithium nickel cobalt manganese oxide and allowing lithium to migrate to the surface for easier recovery through hydrometallurgy.

<h2><b>Wide Client Collaboration and Rich Application Cases</b></h2>
Thanks to its outstanding performance and significant environmental benefits, this set of equipment and technology has seen widespread application among leading companies in China's waste battery recycling sector, such as <b>Hengchuang Ruineng</b> and <b>Ganfeng Lithium</b>. Currently, there are over 20 application cases covering various waste lithium battery recycling scenarios. These successful cases not only validate the efficiency and stability of the equipment but also provide robust support for its application in broader fields. As the technology continues to mature and the market expands, it is expected that this equipment will play an increasingly vital role in the recycling and treatment of waste lithium batteries.

<h2><b>Looking to the Future: Building a Green Home Together</b></h2>
The recycling and disposal of waste lithium batteries are not only crucial for environmental protection but also for the future of sustainable development. Through innovative process flows and breakthroughs in key technologies, this set of equipment provides strong support for the efficient conversion and high-value recovery of waste lithium batteries. Looking ahead, we remain committed to the research and innovation of waste battery recycling technologies, contributing further to the construction of a greener home.

In conclusion, the emergence of the <b>Battery Powdering Line</b> marks a significant breakthrough in the field of waste battery recycling. It enables the efficient conversion and high-value recovery of waste batteries, infusing new energy into environmental protection and sustainable development. Let us work together to promote innovation in this field and build a brighter future for our green home!