Company Filing History:
Years Active: 1990-1998
Title: The Innovations of Richard Dix Kerwood
Introduction
Richard Dix Kerwood is a notable inventor based in Didcot, GB. He has made significant contributions to the field of chemical compositions, particularly in the development of fuel additives. With a total of 2 patents, his work has had a considerable impact on the industry.
Latest Patents
Kerwood's latest patents include innovative solutions for enhancing fuel performance. One of his patents focuses on chemical compositions used as fuel additives. This invention involves treating distillate fuel with additives that match the crystal planes of the wax crystallizing from the fuel. The result is the production of crystals below 4000 nanometers in size. Suitable additives include novel sulpho-carboxylic materials, particularly their esters and amine derivatives, such as the amine salts and/or amides of ortho-sulpho benzoic acid.
Another significant patent is for a dispersant for marine diesel cylinder lubricant. This invention comprises a dispersant additive package for cylinder lubricant in marine diesel engines. It includes a borated dispersant and a high molecular weight polybutene, which together provide a lubricant with improved viscosity, wear, oxidation, and deposit performance.
Career Highlights
Kerwood is associated with Exxon Chemical Patents, Inc., where he has been instrumental in advancing fuel technology. His work has not only contributed to the efficiency of fuel but has also addressed environmental concerns related to fuel additives.
Collaborations
Throughout his career, Kerwood has collaborated with notable colleagues, including Kenneth W Bartz and Jacqueline D Bland. These collaborations have further enriched his contributions to the field.
Conclusion
Richard Dix Kerwood's innovative work in chemical compositions and fuel additives showcases his expertise and commitment to improving fuel technology. His patents reflect a deep understanding of the challenges in the industry and offer practical solutions that benefit both performance and environmental sustainability.