Company Filing History:
Years Active: 2001
Title: The Innovative Contributions of Philip Everett Harrison
Introduction
Philip Everett Harrison is a notable inventor hailing from Winfield, West Virginia. With a keen focus on advancements in chemical engineering, Harrison has made significant contributions to the field, particularly through his patented technology aimed at optimizing gas phase reactor systems.
Latest Patents
Harrison holds one patent titled "Process for Drying a Reactor System Employing a Fixed Bed Adsorbent." This innovative method addresses the challenges associated with gas phase fluidized bed reactor systems, specifically by reducing the purge gas consumption and dry-down time required for start-up and operation. The process involves contacting a stream of cycle gas containing water and/or a polar hydrocarbon with an adsorbing material while the cycle gas is maintained in a closed circulation loop. This invention not only enhances efficiency but also provides a robust solution for operations in chemical manufacturing.
Career Highlights
Harrison is associated with Union Carbide Chemicals & Plastics Technology Corporation, where he leverages his expertise to drive innovation in chemical processes. His work exemplifies the intersection of research and practical application in industrial settings, showcasing his dedication to improving operational efficiencies.
Collaborations
Throughout his career, Harrison has collaborated with other skilled professionals such as David Mason Gaines and Roger B. Painter. These partnerships highlight the collaborative spirit prevalent in the field of chemical innovation, emphasizing the importance of teamwork in achieving groundbreaking advancements.
Conclusion
In summary, Philip Everett Harrison stands out as a significant inventor whose work has contributed to innovative processes in the chemical industry. His sole patent demonstrates his ability to address complex engineering challenges and drive forward industrial efficiency. As his career progresses, it will be exciting to see how his innovations continue to impact the field.