Kate McFarlane

Title: The Innovative Contributions of Kate McFarlane

Introduction

Kate McFarlane is a notable inventor based in Cleveland, GB. She has made significant contributions to the field of chemical engineering, particularly in the production of formaldehyde-stabilised urea. Her innovative approach has led to the development of a patented process that enhances the efficiency of urea production.

Latest Patents

Kate McFarlane holds a patent for an "Integrated process for the production of formaldehyde-stabilised urea." This process involves generating a synthesis gas, subjecting it to water-gas shift to form a shifted gas, and recovering carbon dioxide from the shifted gas. The process further includes synthesising methanol from the carbon dioxide-depleted synthesis gas, oxidising the recovered methanol, and synthesising ammonia from the ammonia synthesis gas. The ammonia is then reacted with the recovered carbon dioxide stream to form a urea stream, which is stabilised by mixing it with a stabiliser prepared using the recovered formaldehyde. This innovative method allows for a portion of the synthesis gas to bypass certain reactors and units, enhancing the overall efficiency of the process.

Career Highlights

Kate McFarlane is currently employed at Johnson Matthey Public Limited Company, where she continues to apply her expertise in chemical processes. Her work has been instrumental in advancing the company's capabilities in sustainable chemical production. With a focus on innovation, she has contributed to the development of processes that align with environmental sustainability goals.

Collaborations

Kate has collaborated with notable colleagues such as Ola Erlandsson and Andreas Erik Johan Magnusson. These collaborations have fostered a dynamic environment for innovation and have led to the successful implementation of advanced chemical processes.

Conclusion

Kate McFarlane's contributions to the field of chemical engineering, particularly through her patented process for producing formaldehyde-stabilised urea, highlight her role as a leading inventor. Her work at Johnson Matthey and collaborations with other professionals underscore her commitment to innovation and sustainability in chemical production.