Company Filing History:
Years Active: 2010-2025
Title: The Innovations of Philip Ostby
Introduction
Philip Ostby is a notable inventor based in Cologne, MN (US), recognized for his contributions to the field of combustion analysis. With a total of seven patents to his name, Ostby has made significant advancements in the technology used to measure and analyze combustion processes.
Latest Patents
Ostby's latest patents include an in-situ oxygen analyzer with a solid electrolyte oxygen sensor and ancillary output. This innovative device features a controller that receives an oxygen sensor signal and provides an oxygen concentration output. The probe extends into a source of combustion process gas, housing an oxygen sensor with a sensing electrode and a reference electrode mounted on opposite sides of a solid electrolyte. The sensor is equipped with catalytic beads that interact with the process gas, enhancing measurement accuracy. Additionally, Ostby has developed a combustion analyzer capable of simultaneously detecting the concentrations of oxygen, carbon monoxide, and methane in a combustion process. This analyzer utilizes a dual carbon monoxide-methane sensor and a controller to generate precise concentration outputs based on the sensor signals.
Career Highlights
Ostby has built a successful career at Rosemount Inc., where he has been instrumental in developing advanced combustion analysis technologies. His work has significantly improved the efficiency and accuracy of combustion measurements, contributing to safer and more effective combustion processes across various industries.
Collaborations
Throughout his career, Ostby has collaborated with talented individuals such as Richard Louis Nelson and Gregory C. Brown. These partnerships have fostered innovation and have led to the successful development of several key technologies in the field.
Conclusion
Philip Ostby is a distinguished inventor whose work in combustion analysis has led to significant technological advancements. His patents reflect a commitment to improving measurement techniques, ultimately enhancing safety and efficiency in combustion processes.