Company Filing History:
1 out of 832,891 Years Active: 2019
Title: Innovations of Yingkui Zhang in Catalytic Processes
Introduction
Yingkui Zhang is a notable inventor based in Shandong, China. He has made significant contributions to the field of catalysis, particularly in the selective oxidation of hydrogen sulfide. His innovative approaches have led to advancements in environmental technology and sulfur recovery processes.
Latest Patents
Yingkui Zhang holds 1 patent related to catalysts for selectively catalytically oxidizing hydrogen sulfide. His patent includes a catalyst for burning tail-gas and a process for deeply catalytically oxidizing hydrogen sulfide to elemental sulfur. The catalyst for selectively oxidizing hydrogen sulfide is composed of 10-34% iron trioxide and 60-84% anatase titanium dioxide, with the remainder being auxiliary agents. Additionally, the catalyst for burning tail-gas consists of 48-78% iron trioxide and 18-48% anatase titanium dioxide, also with auxiliary agents. This invention demonstrates high selectivity and a significant sulfur recovery rate. The design includes an isothermal reactor and an adiabatic reactor connected in series, filled with the catalysts for optimal reactions, thereby reducing total sulfur in vented gas while achieving high sulfur yield and conversion rates.
Career Highlights
Throughout his career, Yingkui Zhang has worked with various companies, contributing his expertise in catalysis. His work has been instrumental in developing efficient processes for sulfur recovery and environmental protection.
Collaborations
Yingkui Zhang has collaborated with notable individuals in his field, including Nan Yang and Yanwei Yang. These partnerships have enhanced his research and development efforts, leading to innovative solutions in catalysis.
Conclusion
Yingkui Zhang's contributions to the field of catalysis, particularly in the selective oxidation of hydrogen sulfide, highlight his innovative spirit and dedication to environmental advancements. His work continues to influence the industry and pave the way for future developments in catalytic processes.