Company Filing History:
Years Active: 1984-1994
Title: Terrence L Caskey: Innovator in Hollow Fiber Membrane Technology
Introduction
Terrence L Caskey is a prominent inventor based in Concord, CA (US). He has made significant contributions to the field of hollow fiber membrane technology, holding a total of 10 patents. His work focuses on improving the efficiency and effectiveness of membrane devices used in various applications.
Latest Patents
One of Caskey's latest patents is the "Boreside Feed Hollow Fiber Membrane Device." This invention features a bore-fed hollow fiber membrane device that possesses improved shellside countercurrent flow distribution. The hollow fiber membrane bundle has a radial Peclet number of about 30 or lower, which results in enhanced fluid recovery and productivity. Another notable patent is the "Method of Forming Tubesheet for Hollow Fibers." This method addresses the issue of hollow fiber membranes changing dimensions upon drying or processing, which can create leaks in tubesheets formed on fiber bundles. Caskey's innovative approach involves forming an adherent layer in contact with the inner surface of each tubesheet, effectively filling gaps that may form during the drying or processing of the hollow fiber membranes and tubesheets.
Career Highlights
Terrence L Caskey is currently associated with The Dow Chemical Company, where he continues to advance his research and development efforts. His work has been instrumental in enhancing the performance of hollow fiber membranes, making them more reliable and efficient for industrial applications.
Collaborations
Caskey has collaborated with notable colleagues, including Johnny L Trimmer and Janine L Jorgensen. These partnerships have contributed to the successful development of innovative technologies in the field of membrane science.
Conclusion
Terrence L Caskey's contributions to hollow fiber membrane technology have established him as a key figure in the industry. His innovative patents and ongoing work at The Dow Chemical Company continue to push the boundaries of what is possible in membrane applications.