Company Filing History:
Years Active: 2019
Title: Innovations by Inventor Jiaxi Li in Environmental Water Treatment
Introduction
Jiaxi Li is a notable inventor based in Beijing, China, recognized for his contributions to environmental technology. With a focus on innovative solutions for water treatment, he has developed two significant patents aimed at addressing the challenges of black and odorous water bodies.
Latest Patents
Jiaxi Li's latest patents include a device and a method for treating a black and odorous water body using a bionic process. The patented device encompasses a pre-treatment unit, a biomimetic intestine tubular purification system that mimics the digestion process of the small intestine, a microbial fuel cell imitating the digestion of the large intestine, and an inclined tube sedimentation tank that resembles human excretion. His method outlines a systematic approach involving the pre-treatment of water, passing it through the biomimetic purification system, and utilizing a microbial fuel cell followed by sedimentation to effectively treat the water body.
Career Highlights
Jiaxi Li is affiliated with the Beijing University of Civil Engineering and Architecture, where he applies his expertise in developing advanced environmental technology. His work reflects a deep commitment to creating efficient and sustainable methods for tackling water pollution issues.
Collaborations
Throughout his career, Jiaxi Li has collaborated with esteemed colleagues, including Lieyu Zhang and Donghai Yuan. Together, they have explored innovative approaches to environmental challenges, contributing to the advancement of water treatment technologies.
Conclusion
Jiaxi Li continues to make significant strides in the realm of environmental innovation through his patents and collaborative efforts. His unique approach to treating black and odorous water bodies showcases the potential of biomimetic techniques in solving pressing environmental issues. With his ongoing research and dedication, Jiaxi Li is poised to impact water treatment methods significantly.