Company Filing History:
Years Active: 2021
Title: Innovations by William M Bilbow: A Trailblazer in Compressor Technology
Introduction
William M Bilbow is a distinguished inventor based in Tallahassee, FL. He holds three patents, showcasing his contributions to the field of compressor systems. His innovative ideas have the potential to significantly impact HVAC and chiller systems, leading to enhanced efficiency and effectiveness.
Latest Patents
One of his latest inventions is the "Low back pressure flow limiter." This patent details a compressor system that includes a compressor paired with a back-flow limiting device featuring a turbine wheel. This device, arranged downstream of the compressor, aims to minimize back pressure, thereby optimizing the system's performance. Another significant patent from Bilbow is the "Axial flow compressor for HVAC chiller systems." This invention focuses on a refrigerant compressor designed for chiller systems, which includes an electric motor positioned upstream of the compressor stage in the refrigerant flow path. It emphasizes a high-capacity axial flow compressor that integrates a recirculation feature, enhancing system performance.
Career Highlights
William M Bilbow works at Danfoss A/S, a company recognized for its dedication to innovative technology and energy-efficient solutions. His work in developing advanced compressor systems reflects both his technical expertise and commitment to improving HVAC technologies.
Collaborations
Throughout his career, Bilbow has collaborated with notable professionals, including Joost J Brasz and Farrukh Alvi. Their collective efforts have contributed to the development of cutting-edge solutions in compressor technology, further pushing the boundaries of innovation in their field.
Conclusion
William M Bilbow stands as a prominent figure in the realm of compressor technology. His patents reflect a commitment to innovation and practical solutions, evidencing his significant impact on the industry. As he continues his work at Danfoss A/S, his contributions are anticipated to further shape the future of HVAC and chiller systems.