Company Filing History:
Years Active: 2018
Title: Innovations of Shuping Liu in Mineral Resource Utilization
Introduction
Shuping Liu is a notable inventor based in Sichuan, China. He has made significant contributions to the field of mineral resource utilization, particularly through his innovative methods for ore enrichment. His work focuses on enhancing the efficiency and environmental sustainability of mineral processing.
Latest Patents
Shuping Liu holds a patent for a method of enriching monazite and apatite paragenetic ores. The patent describes a process that involves ore grinding, flotation, magnetic separation, and low-acid advanced leaching treatment followed by re-flotation. This method allows for the production of high-grade and high-recovery-rate monazite concentrate. The process is characterized by a wide applicable range of ore pulp temperature, a short process flow, mild ore dressing conditions, and low energy consumption. Additionally, the diluted acid used in the process can be cyclically regenerated, resulting in minimal pollution and environmental stress. This innovative approach significantly improves the recovery rate of low-grade monazite and apatite paragenetic ores.
Career Highlights
Shuping Liu is affiliated with the Institute of Multipurpose Utilization of Mineral Resources. His work at this institute has been pivotal in advancing techniques for mineral resource processing. Liu's innovative methods have garnered attention for their potential to enhance resource recovery while minimizing environmental impact.
Collaborations
Shuping Liu collaborates with esteemed colleagues, including Wenliang Xiong and Yaohui Yang. Their combined expertise contributes to the development of effective solutions in mineral resource utilization.
Conclusion
Shuping Liu's contributions to the field of mineral resource utilization exemplify the importance of innovation in enhancing efficiency and sustainability. His patented methods represent a significant advancement in the processing of paragenetic ores, showcasing the potential for improved recovery rates and reduced environmental impact.