Company Filing History:
Years Active: 2025
Title: Guoliang Feng: Innovator in Niobite Utilization
Introduction
Guoliang Feng is a prominent inventor based in Beijing, China. He has made significant contributions to the field of materials science, particularly in the comprehensive utilization of niobite. His innovative approach has led to the development of a unique method and equipment that enhances the efficiency of niobite processing.
Latest Patents
Guoliang Feng holds 1 patent for his invention titled "Method and equipment for comprehensive utilization of niobite." This patent discloses a method that includes several steps. The process begins with the addition and uniform mixing of a coal-based reducing agent with niobite. This mixture is then reduced in a reduction furnace to obtain a selective reduction product. The selective reduction product is subsequently added to a super-gravity reactor, where the temperature is controlled to be lower than the reduction temperature of niobium oxide. Utilizing super-gravity, the method allows for the reverse migration and collection of metal iron and niobium-rich slag at different locations within the reactor. The metallic iron is discharged through an iron discharging port, while the niobium-rich slag is discharged through a slag discharging port, achieving effective separation in a super-gravity field.
Career Highlights
Guoliang Feng is affiliated with the University of Science and Technology Beijing, where he continues to advance research in materials science. His work has garnered attention for its practical applications in the industry, particularly in the efficient processing of niobite.
Collaborations
He collaborates with notable colleagues, including Xi Lan and Zhancheng Guo, who contribute to his research endeavors and innovations.
Conclusion
Guoliang Feng's contributions to the field of niobite utilization exemplify the impact of innovative thinking in materials science. His patented method not only enhances processing efficiency but also showcases the potential for advancements in resource utilization.