Company Filing History:
Years Active: 2005
Title: Kelli Lynne Tilston: Innovator in Polymerization Technologies
Introduction
Kelli Lynne Tilston is a distinguished inventor based in Katy, TX, who has made significant contributions to the field of polymerization technology. With one patent to her name, she has developed innovative processes that enhance the efficiency and effectiveness of chemical reactions in gas-phase reactors.
Latest Patents
Kelli's notable patent is titled “Process for transitioning between incompatible catalysts using a substantially contaminant free seedbed.” This invention presents a novel approach to transitioning from one polymerization reaction to another that is incompatible with the first. By capturing and storing a substantially contaminant-free polymerization product, Kelli's process allows for seamless transitions between reactions, thereby improving productivity in the manufacturing process. The polymerization products are maintained in a contaminant-free state through careful storage under an inert atmosphere.
Career Highlights
Kelli Lynne Tilston is currently employed at Univation Technologies, LLC, a company known for its advancements in petrochemical technologies. Her role involves leveraging her innovative mindset to drive research and development initiatives within the organization. Kelli’s work showcases her commitment to improving polymerization processes, which are critical to various industrial applications.
Collaborations
Throughout her career, Kelli has collaborated with fellow innovators such as Bruce Jon Savatsky and Thomas Redden Veariel. Together, they contribute to a dynamic research environment at Univation Technologies, combining their expertise to push the boundaries of current technology and develop new solutions to complex challenges.
Conclusion
Kelli Lynne Tilston's contributions in the field of polymerization technology exemplify the impact of innovation on industrial processes. Through her patented work and collaborative efforts, she continues to shape the future of chemical engineering and polymer sciences. Her dedication to developing efficient methods in incompatible catalyst transitions marks her as a noteworthy inventor in the industry.