Company Filing History:
Years Active: 1996
Title: Kathleen J. King: Innovator in Aqueous Systems Stabilization
Introduction
Kathleen J. King is an esteemed inventor based in Chalfont, PA, whose innovative work has made a significant impact in the field of aqueous systems stabilization. With a unique patent that focuses on preventing scale formation, her contributions are vital for various industrial applications.
Latest Patents
Kathleen holds a patent for a "Method for prevention of scale formation in aqueous systems." This invention details a process for stabilizing aqueous systems that contain scale-forming salts. The method involves adding a precise quantity of selected low molecular weight water-soluble polymers, which consist of 30 to 60 weight percent unsaturated sulfonic acid units, 35 to 65 weight percent carboxylic acid units, and optionally up to 10 weight percent of one or more non-ionizable monomers. The polymers significantly improve phosphate and iron stabilization under high-temperature conditions, with a preferred polymer composition being a 50/50 weight/weight blend of 2-acrylamido-2-methyl-1-propanesulfonic acid and acrylic acid. This composition is especially effective at temperatures ranging from 80 to 100 degrees Celsius.
Career Highlights
Kathleen's career is marked by her role at Rohm and Haas Company, where she has been able to apply her expertise in polymer chemistry to solve pressing industrial challenges. Her patent represents not only her innovative spirit but also her commitment to advancing technology in aqueous systems.
Collaborations
Throughout her career, Kathleen has collaborated with notable colleagues, including William M. Hann and Barry Weinstein. These partnerships have allowed her to share knowledge and enhance her research, contributing to her success in the field.
Conclusion
In summary, Kathleen J. King stands out as a pivotal inventor in the area of aqueous systems. Her innovative patent highlights a method that is essential for preventing scale formation and stabilizing various systems under challenging conditions. With her ongoing contributions and collaboration with distinguished professionals, she continues to inspire future advancements in the field.