Company Filing History:
3 out of 6,896 
1 out of 25 Years Active: 2019-2022
Title: Innovations of Takenori Kitaura in Gas Separation Technology
Introduction
Takenori Kitaura is a notable inventor based in Osaka, Japan. He has made significant contributions to the field of gas separation technology. With a total of 3 patents, his work focuses on developing advanced gas separation membranes and devices.
Latest Patents
Kitaura's latest patents include the following innovations: a spiral-wound type gas separation membrane element, a gas separation membrane module, and a gas separation device. The spiral-wound type gas separation membrane element features a central tube with a laminate wound around it. This laminate consists of a feed-side flow path member, a gas separation membrane, and a permeate-side flow path member arranged in that order. The permeate-side flow path member has a thickness ranging from 400 µm to 1300 µm. The gas separation membrane is designed with a hydrophilic resin composition layer, a porous layer, and a permeate-side surface layer, which faces the permeate-side flow path member and possesses a Young's modulus between 20 MPa and 400 MPa. Additionally, his gas separation method involves separating a specific gas from a raw gas using a gas separation membrane module, which includes a housing and a gas separation membrane element.
Career Highlights
Throughout his career, Kitaura has worked with prominent companies such as Sumitomo Chemical Company, Limited and Renaissance Energy Research Corporation. His experience in these organizations has contributed to his expertise in gas separation technologies.
Collaborations
Kitaura has collaborated with notable coworkers, including Yudai Ota and Hisaaki Miyamoto. Their joint efforts have further advanced the innovations in gas separation technology.
Conclusion
Takenori Kitaura's contributions to gas separation technology through his patents and collaborations highlight his role as a significant inventor in this field. His work continues to influence advancements in gas separation methods and devices.