Company Filing History:
Years Active: 2021
Title: Christopher Shane Presley: Innovator in Alkylation Reactor Systems
Introduction
Christopher Shane Presley is a notable inventor based in Leawood, KS (US). He has made significant contributions to the field of chemical engineering, particularly in the development of alkylation reactor systems. With a total of 2 patents to his name, Presley's work focuses on enhancing the efficiency and effectiveness of alkylation processes.
Latest Patents
Presley's latest patents include the "Sulfuric Acid Alkylation Reactor System" and "Conversion of a Hydrogen Fluoride Alkylation Unit to a Sulfuric Acid Alkylation Unit." The first patent describes a closed reactor vessel that features a shell, a vapor outlet, and an emulsion outlet. It also includes a distributor located at the lower portion of the reactor vessel, a mixer fluidly connected with the distributor, and an emulsion pump that is located outside the reactor vessel. This innovative design aims to improve the alkylation processes using sulfuric acid. The second patent outlines methods for converting an HF alkylation unit, which uses HF as a catalyst, to a sulfuric acid alkylation unit. This patent also introduces a segmented sulfuric acid settler for separating phases in the alkylation process.
Career Highlights
Christopher Shane Presley is currently employed at Refining Technology Solutions, LLC. His work at this company has allowed him to focus on advancing alkylation technologies. His contributions have been instrumental in developing more efficient chemical processes that benefit the refining industry.
Collaborations
Presley collaborates with talented professionals such as Diwakar Rana and Jason Brent Nunez. Their teamwork fosters innovation and drives the development of new technologies in the field.
Conclusion
Christopher Shane Presley is a distinguished inventor whose work in alkylation reactor systems has made a significant impact on the refining industry. His innovative patents and collaborative efforts continue to push the boundaries of chemical engineering.