Company Filing History:
Years Active: 2011-2020
Title: Eiji Kanki: Innovator in Thermal Energy Recovery
Introduction
Eiji Kanki is a notable inventor based in Hyogo, Japan. He has made significant contributions to the field of thermal energy recovery, holding a total of 3 patents. His work focuses on improving the efficiency and effectiveness of thermal energy systems.
Latest Patents
Kanki's latest patents include innovative devices and methods aimed at enhancing thermal energy recovery. One of his patents, titled "Thermal energy recovery device and operating method of the same," describes a system that includes a circulation line with an evaporator, expander, condenser, and pump. This device is designed to optimize the operation of thermal energy recovery by controlling the flow of a gas phase working medium. The control unit plays a crucial role in managing the operation of the device, ensuring that the system operates efficiently under varying conditions.
Another significant patent is "Thermal energy recovery device and start-up method thereof." This invention addresses the challenge of thermal stress during the start-up of an evaporator. The device includes a preheater and an energy recovery unit, with a control unit that gradually increases the inflow of the heating medium to the evaporator. This innovative approach helps to mitigate rapid increases in thermal stress, enhancing the longevity and reliability of the system.
Career Highlights
Eiji Kanki has worked with prominent companies in the industry, including Kobe Steel, Ltd. and Kabushiki Kaisha Kobe Seiko Sho. His experience in these organizations has contributed to his expertise in thermal energy recovery technologies.
Collaborations
Kanki has collaborated with notable colleagues such as Shigeto Adachi and Shirohiko Okamoto. Their combined efforts have further advanced the field of thermal energy recovery.
Conclusion
Eiji Kanki's innovative work in thermal energy recovery has led to the development of several important patents. His contributions are vital for improving energy efficiency and sustainability in various applications.