Company Filing History:
Years Active: 2022
Title: Ryohei Ohashi - Innovator in Fuel Analysis Technology.
Introduction
Ryohei Ohashi is a notable inventor based in Tokyo, Japan. He has made significant contributions to the field of fuel analysis technology. His innovative work has led to the development of a unique device that enhances the accuracy of fuel analysis.
Latest Patents
Ryohei Ohashi holds a patent for an "Analysis condition adjusting device of simple fuel analyzer." This device includes a first NOx computing unit that calculates a reference NOx estimation value using a previously obtained first industrial analysis value of a fuel sample. Additionally, it features a second NOx computing unit that calculates a plurality of varied NOx estimation values by varying the components of the first industrial analysis value. The device also includes a NOx error computing unit that computes an error as a NOx error between the reference NOx estimation value and each of the varied NOx estimation values. Furthermore, it has an analysis error tolerance range setting unit for establishing an analysis error tolerance range of each component based on the value variation amount. Finally, an analysis condition adjusting unit is included to adjust the analysis condition of the fuel analyzer. Ryohei Ohashi has 1 patent to his name.
Career Highlights
Ryohei Ohashi is currently employed at Mitsubishi Heavy Industries Limited, where he continues to innovate and contribute to advancements in fuel analysis technology. His work is recognized for its practical applications in improving fuel efficiency and reducing emissions.
Collaborations
Ryohei collaborates with esteemed colleagues such as Toshihiko Setoguchi and Junji Imada. Their combined expertise fosters a productive environment for innovation and development in their field.
Conclusion
Ryohei Ohashi's contributions to fuel analysis technology exemplify the impact of innovative thinking in addressing environmental challenges. His work not only enhances the accuracy of fuel analysis but also supports efforts toward sustainability.