Company Filing History:
Years Active: 2022-2023
Title: Daniel Rennie: Innovator in Nano-Active Powder Production
Introduction
Daniel Rennie is an accomplished inventor based in New South Wales, Australia. He has made significant contributions to the field of materials science, particularly in the production of nano-active powder materials. With a total of 2 patents to his name, Rennie's work is paving the way for advancements in various industrial applications.
Latest Patents
Rennie's latest patents focus on a reactor system designed for producing nano-active powder materials. The first patent describes a method and system that utilizes a reactor comprising multiple stages. Input particles flow under gravity through these stages, beginning with a powder injector where ground precursor powder is introduced. The system includes an externally heated preheater stage that heats the precursor powder to the necessary temperature for calcination reactions. Following this, a calciner stage rapidly removes volatile constituents as a high-purity gas stream, ultimately producing the desired nano-active product. The process concludes with a post-processing reactor stage that alters the gas stream composition to yield a hot powder product, which is then ejected from the reactor.
Career Highlights
Daniel Rennie is currently associated with Calix Limited, a company known for its innovative approaches in materials and environmental solutions. His work at Calix has been instrumental in developing technologies that enhance the efficiency and effectiveness of powder production processes.
Collaborations
Rennie collaborates with notable colleagues, including Mark Geoffrey Sceats and Philip Hodgson. Their combined expertise contributes to the advancement of technologies in the field of nano-active materials.
Conclusion
Daniel Rennie's innovative work in the production of nano-active powder materials showcases his commitment to advancing materials science. His patents and collaborations reflect a dedication to developing efficient and effective solutions in this emerging field.