Company Filing History:
Years Active: 2014-2016
Title: M Alexandra Knoth: Innovator in Oxidation-Reduction Potential Measurement
Introduction
M Alexandra Knoth is a prominent inventor based in Aurora, IL (US). She has made significant contributions to the field of measurement technology, particularly in the area of oxidation-reduction potential in hot water systems. With a total of 3 patents to her name, her work has been instrumental in advancing the efficiency and safety of water systems.
Latest Patents
One of her latest patents is a high temperature and pressure oxidation-reduction potential measuring and monitoring device for hot water systems. This innovative device is designed to measure oxidation-reduction potential at operating temperature and pressure in hot water systems. It includes a flow-through cell, a sensor, and a reference electrode. The components of the device work in conjunction with each other and have electrical connections that transmit signals to a controller. The controller calculates and determines adjustments to feedwater chemistry for the hot water system. Another patent of hers is similar in nature, featuring a flow-through cell, an oxidation-reduction potential probe, a temperature detector, and an external pressure-balanced reference electrode assembly. Each component is designed to work together seamlessly, ensuring accurate measurements and effective monitoring.
Career Highlights
M Alexandra Knoth is currently employed at Nalco Company, where she continues to develop innovative solutions in her field. Her expertise and dedication to her work have made her a valuable asset to her team and the company as a whole.
Collaborations
She collaborates with various professionals, including her coworker Peter D Hicks, to enhance the development of new technologies and improve existing systems.
Conclusion
M Alexandra Knoth's contributions to the field of oxidation-reduction potential measurement are noteworthy. Her innovative patents and commitment to advancing technology in hot water systems demonstrate her significant impact on the industry.