Company Filing History:
Years Active: 2020-2022
Title: Michael David MacDonald: Innovator in NOx Reduction Technologies
Introduction
Michael David MacDonald is a notable inventor based in Modesto, CA (US). He has made significant contributions to the field of environmental technology, particularly in the area of nitrogen oxides (NOx) reduction. With a total of 2 patents, MacDonald has developed innovative solutions that address critical environmental challenges.
Latest Patents
MacDonald's latest patents include a groundbreaking process for direct urea injection with selective catalytic reduction (SCR) for NOx reduction in hot gas streams. This invention involves a boiler or other fired vessel that features a housing with a burner at one end, a furnace downstream of the burner, a convection section downstream of the furnace, and a flue gas outlet downstream of the convection section. The design incorporates a first means for loading a reducing agent, which comprises at least two injectors located downstream of the furnace. Additionally, a second means for loading a reducing agent is positioned downstream of the first means. A selective catalytic reduction catalyst is strategically placed either downstream of the second means or adjacent to it, ensuring that the catalyst is delivered to the boiler or fired vessel simultaneously with the reducing agent.
Career Highlights
Michael David MacDonald is currently associated with R. F. Macdonald Co., where he continues to innovate and develop technologies aimed at improving environmental performance. His work has been instrumental in advancing methods for reducing harmful emissions from industrial processes.
Collaborations
MacDonald has collaborated with talented individuals such as Marco Antonio Velasco and Anthony Feliz, contributing to a dynamic work environment that fosters innovation and creativity.
Conclusion
Michael David MacDonald stands out as a key figure in the development of technologies for NOx reduction. His patents reflect a commitment to environmental sustainability and innovation.