Company Filing History:
Years Active: 1983-2013
Title: The Innovative Contributions of Larry Wayne Payne in Chemical Engineering
Introduction
Larry Wayne Payne, based in Houston, TX, is a prominent inventor known for his significant contributions to the field of chemical engineering. With a total of five patents to his name, Payne has developed innovative methods that enhance the production processes of essential chemicals.
Latest Patents
Payne's latest innovations include two pivotal patents that focus on the production and purification of phenol and acetophenone. The first patent, titled "Recovery of acetophenone during the production of phenol," outlines a method for producing acetophenone by treating alkylbenzenes like s-butylbenzene. This method effectively separates and recovers acetophenone from a crude phenol stream using azeotropic distillation. The second patent, "Method of making high purity phenol," details a process for obtaining phenol products with minimal contaminating by-products. This method involves the use of an acidic catalyst to purify the phenol stream, resulting in higher quality products essential for various applications.
Career Highlights
Larry Wayne Payne is affiliated with Shell Oil Company, where he plays a crucial role in advancing chemical manufacturing technologies. His research and development efforts have significantly impacted the company’s capabilities in producing high-quality chemical products. With multiple patents, Payne has established himself as a valuable asset in the field of chemical engineering.
Collaborations
Throughout his career, Payne has collaborated with esteemed colleagues, including Jesse Raymond Black and Phillip E. Unger. These partnerships have fostered an environment of innovation and have contributed to the successful development and implementation of groundbreaking methods in chemical production.
Conclusion
Larry Wayne Payne’s contributions to the industry are notable, showcasing his commitment to innovation in chemical engineering. Through his patents and collaborative efforts, Payne continues to shape the future of chemical production, making significant strides in efficiency and product purity. His work exemplifies how ingenuity in chemical engineering can lead to practical solutions that benefit various sectors.