Recently, at the award ceremony and excellent project exhibition of the "Invention and Entrepreneurship Award Project" for the 2022-2023 period and the "Belt and Road" BRICS Skills Development and Technology Innovation Competition held in Beijing, our company's projects, "Resource Recovery and Utilization Technology for Retired Lithium Iron Phosphate Battery Cathode Material" and "Resource Recovery Intelligent Management Platform for Lithium Battery Materials," were honored with the bronze award of the “Invention and Entrepreneurship Award Project” by the China Invention Association.
It is understood that the "Invention and Entrepreneurship Award," established by the China Invention Association in 2005 with the approval of the Ministry of Science and Technology, stands as the nation's premier accolade for inventors. Endorsed by the Ministry of Science and Technology of the People's Republic of China, the All-China Federation of Trade Unions, the State Intellectual Property Office, and various other agencies and organizations, its purpose is to nurture high-quality talents in innovation and high skills, disseminate new products, technologies, and applications of high-tech industries, facilitate the transformation and upgrading of local industries, support the construction of the "Belt and Road," accelerate the formation of new productive forces, enhance new development momentum, and contribute to the high-quality development of the social economy. Since its inception, the award has recognized a multitude of outstanding talents and projects for national invention and innovation, technological advancement, and scientific and technological awards, significantly promoting high-quality development and new progress in the field of invention and innovation. The acquisition of these two awards greatly affirms and encourages the innovative endeavors of GEEKINGTECH, further promoting the transformation and implementation of our company's inventions and patented technologies.
1. Resource Recovery and Utilization Technology for Retired Lithium Iron Phosphate Battery Cathode Material Armed with technology and empowered by fusion, the "Resource Recovery and Utilization Technology for Retired Lithium Iron Phosphate Battery Cathode Material" targets the characteristics and challenges of resource recovery and utilization of retired lithium iron phosphate battery cathode material. Through comprehensive research and related experiments, it has enhanced competitiveness in core technologies such as recovery roasting to remove impurities and selective leaching for lithium extraction, significantly improving the recovery rate of lithium elements and product quality. It is dedicated to exploring more optimal disposal routes, achieving a breakthrough in the full-scale resource utilization of lithium iron phosphate cathode material, recycling lithium iron phosphate into iron oxide red and sodium phosphate products, turning waste into treasure, and addressing the issue of overcapacity in the lithium iron phosphate market. This achievement has garnered numerous intellectual property rights and several provincial honors, demonstrated in multiple projects with considerable economic and social benefits, reaching a leading level domestically.
2. Resource Recovery Intelligent Management Platform for Lithium Battery Materials Ascending with multipliers, soaring with intelligence. The "Resource Recovery Intelligent Management Platform for Lithium Battery Materials" is a pivotal component of the digital solution developed by our company for the lithium battery resource recovery industry, leveraging our Artificial Intelligence System Design Center and technical team. The platform seamlessly integrates core equipment with the intelligent platform, establishing an innovative flexible production system and lithium material production extraction management system. It empowers the circular utilization of lithium battery resources with digital intelligence technology, thereby enhancing the utilization rate of quality recycling capacity, achieving intelligent lithium recycling, boosting overall corporate efficiency, and driving intelligent transformation in the industry. To date, this project has achieved a series of landmark results and has been applied in benchmark projects of several battery recycling whitelist companies, receiving acclaim from clients.
With a steadfast and far-reaching strategy, mvr evaporator supplier GEEKINGTECH is committed to becoming a leader in the comprehensive solution for new energy material production and resource utilization. In recent years, leveraging its inherent advantages, GEEKINGTECH has vigorously advanced its layout in the new energy industry. Through continuous research and technological innovation, the company has achieved a series of innovative results with independent intellectual property rights in the field of new energy lithium battery resource treatment and has developed a complete and mature set of solutions.
To date, the company has provided products and technical services to numerous enterprises involved in battery recycling, positive electrode material production production, cathode material synthesis, and has accumulated extensive valuable experience in fields such as positive electrode material production lines from lithium mines and lithium-containing materials, wet contracting for lithium battery recycling, resource utilization of wastewater from lithium iron phosphate production, total contracting for wastewater treatment of ternary precursors, and digital twin smart factories, establishing a favorable reputation in the market.
The successful awarding of these two projects in the new energy field signifies recognition of industrial evaporator manufacturer GEEKINGTECH's scientific and technological strength, as well as full affirmation of the company's forward-looking layout and achievement implementation. Looking ahead, GEEKINGTECH will continue to focus on technological innovation, enhance the level of research and development investment, and persistently empower new technologies and industries to grow through scientific and technological innovation.