In an era where resources face mounting challenges, we focus on research and development to advance recycling technologies. We work to optimize the recycling processes for both metal materials and black mass. By leveraging advanced techniques, we convert recycled metal materials into usable products. Through the close integration of R&D and production, we more effectively implement green technology solutions and drive sustainable development.
Our expertise not only improves resource utilization efficiency and enhances product quality, but also provides customers with reliable and safe recycling solutions—delivering both environmental and economic benefits.
We focus on developing metal recycling technologies, which play a crucial role in improving recycling efficiency. Through a variety of processes, we recover valuable materials and establish multiple specific recycling methods to selectively extract valuable components from scrap materials. Based on the recovery of extracted materials and the removal of pollutants, we further conduct experiments and testing to develop new technologies’ process parameters. These new technologies also incorporate risk management systems.
By applying a range of advanced techniques such as hydrometallurgical, electrochemical, biological, physical, and chemical methods, we use chemical reactions or electrolytic deposition to effectively separate metals. This improves metal purity and recycling value. In particular, our technology has notable advantages in extracting nickel, cobalt, and other alloy components. These metals are key materials for many high-tech applications. Our technology enables their recovery and reuse, further supporting the principles of the circular economy. By optimizing metal recycling processes and using low-energy-consumption operating methods, we minimize environmental impact to ensure truly green recycling.
With the rapid growth of the electric vehicle market, lithium battery recycling technology has become one of the core professional areas of our company. Lithium batteries typically contain multiple types of metals, such as lithium, cobalt, nickel, and manganese, all of which play important roles in battery performance. Effective lithium battery recycling is essential—not only due to its environmental impact, but also because of the significant commercial value and potential to maximize the utilization of lithium battery resources.
By using hydrometallurgical and electrochemical methods, we can extract metals such as lithium, cobalt, and nickel, respectively—ensuring the purity and quality of recovered resources. These recovered metals can be used again in the production of new batteries, and can also be applied in other fields, such as the manufacturing of electronic products or energy storage systems.
With the widespread adoption of renewable resources such as lithium batteries, the generation of black mass has become an important issue. We provide black mass recycling technologies that transform these waste materials containing metal oxides into reusable resources that further improving recycling efficiency and environmental performance. This enables the value transformation of black mass and creates greater economic benefits for businesses.
Our recycled metal circular reprocessing technology—especially through the electroplating process—is key to helping companies produce high value-added products. By applying electroplating technology, we can enhance the quality of recycled metal components, improve corrosion resistance, and give them a new appearance. This not only reduces companies’ reliance on new raw materials, but also effectively increases the commercial value of recycled materials, supporting sustainable development.
We are committed to providing end-to-end recycling solutions to achieve our goal of sustainable development. Our aim is to grow together with partners in global markets, leveraging each other’s strengths to explore new opportunities and breakthroughs that jointly advancing efficient resource use and environmental initiatives.
