Company Filing History:
Years Active: 2012
Title: **Innovative Contributions of Tatsuyuki Nakagawa**
Introduction
Tatsuyuki Nakagawa, an accomplished inventor hailing from Moriguchi, Japan, has made significant strides in the field of fuel cell technology. With a keen interest in energy solutions, Nakagawa is associated with Sanyo Electric Co., Ltd., where he dedicates his expertise to advancing innovative technologies.
Latest Patents
Nakagawa holds a notable patent focused on a fuel cell mechanism. This invention generates electricity by supplying fuel fluid to one of a pair of electrodes within a Membrane Electrode Assembly (MEA). The patent highlights a unique method of efficiently transferring gas along a defined flow path on the MEA's surface. It includes a gas supply device, a vibrating plate, and a reflection wall that work together to create a sound pressure gradient, facilitating the flow of gas from the inlet to the outlet. This innovative approach not only enhances operational control of the gas supply device but also includes a method for effectively eliminating foreign materials in the flow path by adjusting the vibration mode of the vibrating plate.
Career Highlights
Throughout his career at Sanyo Electric Co., Ltd., Nakagawa has focused on pushing the boundaries of fuel cell technology. His patent reflects his commitment to enhancing energy efficiency and promoting sustainable energy solutions. Nakagawa's innovations contribute significantly to the advancement of clean energy technologies.
Collaborations
Working alongside talented coworkers, including Masato Nishikawa and Hitoshi Kihara, Nakagawa has fostered a collaborative environment at Sanyo Electric Co., Ltd. Their combined efforts have been instrumental in pursuing innovative solutions in fuel cell technology and enhancing the company’s research capabilities.
Conclusion
Tatsuyuki Nakagawa's contributions to fuel cell technology exemplify the importance of innovation in addressing contemporary energy challenges. His patent serves as a testament to the potential of collaborative efforts within research institutions and companies focused on sustainable energy solutions. As technology evolves, Nakagawa's work will undoubtedly continue to influence the development of efficient energy systems.