Ren Qilong
Academician of the Chinese Academy of Engineering
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Alliance Expert Advisory Committee
Committee member
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An academician of the Chinese Academy of Engineering and a professor at Zhejiang University, he currently serves as the Director of the Ministry of Education Key Laboratory for Bio-based Chemical Engineering, the Dean of the Quzhou Research Institute of Zhejiang University, and the Dean of the Institute for Industrial Technology Transfer at Zhejiang University. He also holds concurrent positions as a member of the Discipline Evaluation Panel of the State Council Academic Degrees Committee, Chairman of the Zhejiang Provincial Chemical Society, and Vice Chairman of the China Chemical Society. His research focuses on applied fundamental studies and engineering practice in the field of chemical separation technologies, with particular emphasis on the efficient separation of compounds with similar molecular structures, adsorption separation engineering, and plasma reaction engineering. He has developed a molecular recognition separation engineering platform technology that addresses the challenging task of separating highly complex mixtures composed of molecules with extremely similar structures, enabling the efficient production of more than ten high-end chemical and pharmaceutical products. This breakthrough has overcome patent barriers and broken foreign monopolies; some of these products represent world firsts, yielding significant economic and social benefits. In recent years, he has been dedicated to the research and development of advanced preparation processes for high-purity, precision, and cutting-edge electronic chemical materials, focusing on separation theory, separation materials, and separation processes, and conducting integrated innovation research spanning from basic scientific studies to industrial applications. Specifically, he is engaged in the development of novel adsorbents and processes for highly selective separation of systems with highly similar molecular structures, such as fluorine-containing specialty gases, rare gases, and low-carbon hydrocarbons. He designs and synthesizes new porous framework materials and microporous carbon materials, explores the thermodynamics and kinetics of adsorption processes, and develops advanced separation technologies including pressure swing adsorption and simulated moving-bed processes, thereby achieving precise separation of isomers and homologues as well as highly efficient removal of trace impurities.
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