Company Filing History:
Years Active: 2018-2020
Title: Innovations of Hao Ma in Methane Conversion
Introduction
Hao Ma is a prominent inventor based in Liaoning, China. He has made significant contributions to the field of methane conversion, holding 2 patents that focus on innovative processes for producing valuable chemical products. His work emphasizes the importance of efficient and environmentally friendly methods in industrial applications.
Latest Patents
Hao Ma's latest patents include groundbreaking processes for the oxygen-free direct conversion of methane. One patent describes a method that produces olefins, aromatics, and hydrogen under continuous flowing conditions without the presence of oxygen. This process minimizes coke deposition and achieves atom-economic conversion. The conditions in a fixed bed reactor allow for a methane conversion rate of 8-50%, with olefin selectivity ranging from 30-90% and aromatic selectivity between 10-70%. Another patent outlines the synthesis of olefins using a metal lattice-doping catalyst in an amorphous molten state, which also operates under oxygen-free conditions. This method boasts numerous advantages, including a catalyst life exceeding 100 hours, high stability, and zero coke deposition, making it highly desirable for industrial applications.
Career Highlights
Hao Ma is affiliated with the Chinese Academy of Sciences, where he conducts research and development in the field of chemical engineering. His innovative approaches to methane conversion have positioned him as a key figure in advancing sustainable chemical processes.
Collaborations
Hao Ma has collaborated with notable researchers in his field, including Xinhe Bao and Xiaoguang Guo. These partnerships have further enhanced the impact of his work and contributed to the development of effective methane conversion technologies.
Conclusion
Hao Ma's contributions to methane conversion through his innovative patents demonstrate his commitment to advancing chemical engineering. His work not only addresses the challenges of traditional methods but also paves the way for more sustainable industrial practices.