Company Filing History:
1 out of 51 
1 out of 2 Years Active: 2024
Title: Scott Coots - Innovator in Thermocouple Technology
Introduction
Scott Coots is an accomplished inventor based in League City, TX (US). He has made significant contributions to the field of thermocouple technology, particularly in the design of sensing structures for temperature measurement in complex fluid environments. His innovative approach addresses the challenges associated with measuring temperature distributions in vessels containing multi-phase fluids.
Latest Patents
Scott Coots holds a patent for a thermocouple structure designed for measuring temperature distributions inside vessels filled with multi-phase fluids. This thermocouple sensing structure includes a support structure and multiple thermocouple sensing elements. The design allows for the closed tip of the thermocouple sensing element to extend through the support structure into the vessel. Additionally, the support structure features a protection portion that safeguards the thermocouple sensing element from the upward flow of fluid. This innovative design reduces the impact on fluid flow and minimizes hydraulic resistance in the temperature measurement system. He has been granted 1 patent for this invention.
Career Highlights
Throughout his career, Scott has worked with notable companies such as Wika Alexander Wiegand Se & Co. KG and Wika Instrumentation Suzhou Co., Ltd. His experience in these organizations has allowed him to refine his skills and contribute to advancements in thermocouple technology.
Collaborations
Scott has collaborated with talented individuals in his field, including coworkers Yunbo Liu and Michael Tier. Their combined expertise has fostered innovation and development in thermocouple sensing technologies.
Conclusion
Scott Coots is a notable inventor whose work in thermocouple technology has made a significant impact on temperature measurement systems. His innovative designs and collaborations continue to advance the field, showcasing his dedication to improving measurement techniques in complex fluid environments.