Huajian Jiang

Title: Huajian Jiang: Innovator in Gas-Soluble Silicon Nanofluids

Introduction

Huajian Jiang is a notable inventor based in Chengdu, China. He has made significant contributions to the field of nanotechnology, particularly in the development of gas-soluble silicon nanofluids. His innovative work has implications for various industrial applications, especially in enhancing the efficiency of supercritical carbon dioxide processes.

Latest Patents

Huajian Jiang holds a patent for a COgas-soluble silicon nanofluid and its preparation method. This patent discloses a method that involves taking nano-silica and grafting a silane coupling agent to obtain modified nano-silica. The process includes using methylsiloxane, fluorosilicone, aminosiloxane, and an end-capping agent, followed by polymerization under the action of a catalyst to create a functionalized network siloxane. The modified nano-silica and functionalized network siloxane are then mixed and heated for a Michael addition reaction, resulting in the formation of the gas-soluble silicon nanofluid. This nanofluid microscopically forms a network structure with modified nano-silica as a cross-linking point and polysiloxane as a chain. The resulting product significantly reduces the interfacial tension and miscibility pressure between crude oil and carbon dioxide.

Career Highlights

Throughout his career, Huajian Jiang has worked at prominent institutions such as Southwest Petroleum University and Tianfu Yongxing Laboratory. His research has focused on advancing the understanding and application of nanofluids in various engineering fields. His innovative approaches have garnered attention and recognition within the scientific community.

Collaborations

Huajian Jiang has collaborated with notable colleagues, including Jinzhou Zhao and Rui Liu. These collaborations have contributed to the advancement of research in nanotechnology and its applications.

Conclusion

Huajian Jiang's work in the field of gas-soluble silicon nanofluids represents a significant advancement in nanotechnology. His innovative methods and collaborative efforts continue to influence the industry and pave the way for future research and applications.