Company Filing History:
Years Active: 2020
Title: Innovations by Zhen Hui Lee in Energy Storage Technology
Introduction
Zhen Hui Lee is an innovative inventor based in Zhubei, Taiwan. He has made significant contributions to the field of energy storage technology. His work focuses on creating efficient systems that can effectively manage energy flow.
Latest Patents
Zhen Hui Lee holds a patent for a technology titled "Controlled Energy Storage Balance Technology." This energy storage system comprises an energy reservoir and a system controller. The energy reservoir is charged by DC energy from a DC energy source while discharging DC energy to a DC/AC converter. A system controller regulates the DC energy discharged from the energy reservoir to the DC/AC converter to nearly balance the amount of DC energy charged into the energy reservoir. Because this charging and discharging is nearly balanced, the size of the energy reservoir can be made quite small relative to the amount of charging and discharging. This is advantageous where the flow of charge and discharge is high, as might be the case if the energy reservoir receives charge from all or a substantial portion of a power station, such as a solar power station. With such a controller, the use of an energy reservoir becomes technically feasible even with such large current flows.
Career Highlights
Zhen Hui Lee is currently associated with Lt Lighting (Taiwan) Corp. His work at the company emphasizes the development of advanced energy solutions. He has demonstrated a commitment to innovation and efficiency in energy management.
Collaborations
Zhen Hui Lee has collaborated with notable colleagues, including Geoffrey Wen-Tai Shuy and Wen Tien Chang. These partnerships have contributed to the advancement of his projects and the overall success of their initiatives.
Conclusion
Zhen Hui Lee's contributions to energy storage technology highlight his innovative spirit and dedication to improving energy efficiency. His patent for controlled energy storage balance technology represents a significant advancement in the field.