Location History:
- Blackburn, AU (2017)
- Clayton, AU (2023)
- Acton, AU (2023)
Company Filing History:
Years Active: 2017-2025
Title: **Michael David Horne: Innovative Inventor from Blackburn, AU**
Introduction
Michael David Horne is a distinguished inventor based in Blackburn, Australia, with a remarkable portfolio comprising eight patents. His work primarily focuses on advancements in chemical engineering, particularly in continuous flow catalytic reactors, showcasing his innovative approach to problem-solving in the scientific realm.
Latest Patents
One of Horne's notable patents involves the development of static mixers for continuous flow catalytic reactors. This inventive disclosure pertains to catalytic static mixers that incorporate catalytic material and are specifically designed for use with continuous flow chemical reactors. The applications of these static mixers extend to heterogeneous catalysis reactions, wherein they can enhance reaction efficiency and product yield. Furthermore, Horne's patent also outlines processes for preparing the static mixers, along with methodologies for synthesizing products and screening catalytic materials within continuous flow reactors.
Career Highlights
Horne's professional journey is marked by his affiliation with the Commonwealth Scientific and Industrial Research Organisation (CSIRO), a prestigious research institution in Australia. His work there has significantly contributed to the field of chemical engineering, solidifying his status as a leading inventor.
Collaborations
Throughout his career, Horne has collaborated with talented individuals, including his colleagues Christian Hornung and Yutong Zhu. Together, they have furthered research and development in their respective areas, strengthening the impact of their innovative work in the industry.
Conclusion
Michael David Horne stands out as an important figure in the field of chemical engineering through his inventive contributions and collaborative spirit. With his ongoing commitment to innovation, he continues to push the boundaries of what is possible in the realm of continuous flow chemical reactors, leaving an indelible mark on the industry.