Company Filing History:
Years Active: 1979
Title: James B. Harbaugh - Innovator in Flow Measurement Technology
Introduction
James B. Harbaugh is an accomplished inventor based in Lakewood, Colorado. He has contributed significantly to the field of flow measurement with a particular focus on enhancing the accuracy and stability of pitot-type flowmeters. His dedication to innovation has led to the development of a unique patent that addresses critical challenges in flow coefficient stabilization.
Latest Patents
James B. Harbaugh holds one patent titled "Method and apparatus for stabilizing the flow coefficient for pitot-type flowmeter." This invention proposes a novel method for stabilizing the pressure sensed by the downstream-facing port of a pitot tube type flowmeter across a broad flow range. The essence of the invention lies in localizing boundary layer separation through sharply contoured deflecting surfaces and preventing reattachment of the boundary layer to ensure stable and repeatable flow measurements. This innovation enables better performance of the averaging pitot-type flowmeter, characterized by effective flow deflecting surfaces and an optimized configuration for pressure sensing.
Career Highlights
James B. Harbaugh's career at Dieterich Standard, Inc. highlights his commitment to research and development in flow measurement technologies. His innovative mindset has paved the way for advancements that enhance the reliability and accuracy of fluid measurement systems.
Collaborations
Throughout his career, James has collaborated with notable colleagues, including Edward F. Brooks and Norman A. Alston. These partnerships have facilitated the exchange of ideas and led to breakthroughs in flow measurement technologies, further solidifying his position as a reputable inventor in this field.
Conclusion
James B. Harbaugh's contributions to the field of flow measurement through his innovative patent demonstrate his expertise and commitment to enhancing industrial measurement techniques. With a focus on improving stability and accuracy, his work remains valuable in advancing the way fluid dynamics are measured and understood.