Company Filing History:
Years Active: 2025
Title: Innovations by Fangxu Jia in Biochemical Systems
Introduction
Fangxu Jia is a notable inventor based in Beijing, China. He has made significant contributions to the field of biochemical engineering, particularly in the area of waste treatment. His innovative approaches aim to enhance environmental sustainability through efficient resource recovery.
Latest Patents
Fangxu Jia holds a patent for a "System and method for efficient nitrogen and carbon removal and phosphorus recovery of source-separated fresh urine by biochemical combination." This patent describes a system that includes a functionally zoned membrane aerated biofilm reactor designed for in-situ nitrogen and carbon removal. The system also features a source separation toilet, a source-separated urine storage tank, a phosphorus recovery reactor, a calcium salt solution tank, and a water production tank. The unique design of the membrane aerated biofilm reactor allows for the creation of both micro-aerobic and anaerobic environments, enabling the removal of nitrogen and carbon by over 95% without the need for additional carbon sources. This system is particularly beneficial for in-situ sewage treatment on trains.
Career Highlights
Fangxu Jia is affiliated with Beijing Jiaotong University, where he contributes to research and development in environmental engineering. His work focuses on innovative solutions for waste management and resource recovery, reflecting his commitment to addressing pressing environmental challenges.
Collaborations
Fangxu Jia collaborates with esteemed colleagues such as Hong Yao and Ning Mei. Their combined expertise enhances the research output and innovation potential within their projects.
Conclusion
Fangxu Jia's contributions to biochemical systems exemplify the intersection of innovation and environmental sustainability. His patented technologies pave the way for more efficient waste treatment solutions, showcasing the importance of inventive approaches in addressing global environmental issues.