Company Filing History:
Years Active: 2013
Title: The Innovative Work of S Keith Fry in Wellbore Technology
Introduction: S Keith Fry is an inventive mind based in Raceland, LA, known for his contributions to wellbore technology through his innovative patent. With one patent to his name, Fry exemplifies the blend of creativity and practical engineering that drives advancements in the oil and gas sector.
Latest Patents: Fry's notable patent is for a Multi-Functional Completion Tool. This advanced tool is designed to be lowered into a wellbore and is coupled with a length of tubing. It serves multiple functions, including testing various lengths of tubing at pressure. Specifically, the tool can function as a positive plug, set a packer, and act as a tubing self-filling tool. What sets this invention apart are its various retention elements, which release at predetermined pressures, allowing the tool to transform between configurations based on its intended use. Additionally, the tool incorporates a flapper mechanism that regulates fluid passage, while a piston and/or flow tube can be utilized to secure the flapper's position.
Career Highlights: S Keith Fry is associated with Downhole & Design International Corporation, where he applies his engineering expertise to create cutting-edge solutions for the industry. His innovative approach has not only advanced his career but has also benefitted his organization significantly.
Collaborations: Throughout his career, Fry has collaborated with talented professionals, including Adel Ghobrial Abdelmalek and Lance Fry. These partnerships have fostered a collaborative environment that encourages the exchange of ideas and the development of innovative technologies.
Conclusion: S Keith Fry's contributions to wellbore technology through his patented Multi-Functional Completion Tool exemplify the importance of innovation in the oil and gas industry. As an inventor working alongside skilled colleagues, Fry continues to push the boundaries of what is possible, ensuring that technological advancements will enhance operational efficiency and safety in the field.