Company Filing History:
Years Active: 2018-2021
Title: Haruhisa Mohara: Innovator in Exhaust Gas Analysis
Introduction
Haruhisa Mohara is a prominent inventor based in Kyoto, Japan. He has made significant contributions to the field of exhaust gas analysis, holding a total of 4 patents. His work focuses on developing methods and apparatuses that enhance the accuracy of exhaust gas measurements, particularly in varying atmospheric conditions.
Latest Patents
Among his latest patents are the "Exhaust Gas Analysis Apparatus" and "Exhaust Gas Analysis Method." These inventions aim to accurately measure exhaust gas components regardless of atmospheric pressure variations around a test object, such as a vehicle. The apparatus includes an exhaust gas detector that mixes exhaust gas with a reactive gas and detects the resulting phenomena. Additionally, it features a pressure gauge that measures atmospheric pressure during the measurement process, allowing for corrections to be made to the exhaust gas detector's measurements. Another notable patent is the "Calibration Method for Gas Analysis Apparatus," which involves a pressure varying device that calibrates the gas analysis apparatus by adjusting the pressure of the sample gas introduction and discharge ports.
Career Highlights
Haruhisa Mohara is currently employed at Horiba, Ltd., a company renowned for its expertise in analytical and measuring instruments. His work at Horiba has allowed him to focus on innovations that improve the reliability and accuracy of gas analysis technologies.
Collaborations
Throughout his career, Mohara has collaborated with notable colleagues, including Naoto Mizutani and Shun Fukami. These collaborations have contributed to the advancement of technologies in the field of exhaust gas analysis.
Conclusion
Haruhisa Mohara's contributions to exhaust gas analysis demonstrate his commitment to innovation and accuracy in measurement technologies. His patents reflect a deep understanding of the challenges in this field and provide solutions that enhance the reliability of exhaust gas measurements.