Company Filing History:
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Years Active: 2007-2008
Title: The Innovations of Mamoru Konomura
Introduction
Mamoru Konomura is a notable inventor based in Higashiibaraki-gun, Japan. He has made significant contributions to the field of fluid dynamics and measurement technology. With a total of two patents to his name, Konomura's work focuses on enhancing the performance and safety of various fluid applications.
Latest Patents
Konomura's latest patents include a fluid in a liquid state containing dispersed nano-particles of metal or the like. This innovative fluid reduces the reactivity or toxicity of the liquid, while also increasing flow resistance and minimizing leakage from minute cracks. Additionally, this liquid can be utilized as a heat transfer medium in heat exchangers, achieving heat transfer performance that meets or exceeds that of traditional systems. Another significant patent is an electromagnetic flowmeter that features electrodes and magnetic poles placed in proximity on one side of the outer wall. This design allows for a smaller excitation device and is applicable for measurement in tubular channels of various shapes. The flowmeter effectively measures the electromotive force generated by the movement of electroconductive fluid across a magnetic field.
Career Highlights
Throughout his career, Konomura has worked with esteemed organizations such as the Japan Nuclear Cycle Development Institute and the Japan Atomic Energy Agency. His experience in these institutions has contributed to his expertise in fluid dynamics and measurement technologies.
Collaborations
Konomura has collaborated with notable colleagues, including Kuniaki Ara and Hiroaki Ohira. Their joint efforts have further advanced the research and development of innovative technologies in their respective fields.
Conclusion
Mamoru Konomura's contributions to fluid dynamics and measurement technology highlight his innovative spirit and dedication to improving industrial applications. His patents reflect a commitment to enhancing safety and performance in fluid systems.