Chun Chang

Building Technology Research

    Associate researcher and master tutor of Institute of Electrical Engineering, Chinese Academy of Sciences. He received a bachelor's degree in thermal energy engineering from Inner Mongolia University of Technology in 2001, a master's degree in thermal energy engineering from Inner Mongolia University of Technology in 2004, a doctorate degree in electrical engineering theory and new technology from the Institute of Electrical Engineering, Chinese Academy of Sciences in 2008, and a visiting scholar at the Korea Energy Research Institute in 2007, the project secretary of the "Basic Research on Efficient and Large-Scale Solar Thermal Power Generation" in the 973 Program in 2009-2015, the project manager of the New Material Development Center of the Beijing Science and Technology Commission in 2012, the part-time technical consultant of the Secretariat of the National Solar CSP Industry Technology Innovation Strategic Alliance in 2015-2017, and the National Visiting Scholar of the University of Birmingham, UK in 2016-2017. He is the expert from the national and Beijing science and technology expert database, some central enterprises, state-owned enterprise science and technology project evaluation experts, national natural science fund communication evaluation experts, members of the China Electrical Engineering Society, members of the Chinese Chemical Industry Society. He is the outstanding contribution reviewer of international authoritative academic journals such as Applied Energy, Energy, a reviewer of EI search journals such as Proceedings of the CSEE, and the editorial board of Renewable Energy Resources. He hosted and participated in more than 10 national and ministerial-level projects, 2 enterprise projects, has published more than 50 academic achievements such as SCI search, EI search, international editing and national science and technology reports, and authorized more than 10 national invention patents.

He has long been engaged in research on engineering thermophysics and efficient use of clean energy. As well as the theoretical research and application on the the flow, heat transfer, heat storage and strengthening related factors such as high-performance cooling, heat storage, complex heat flow boundaries, complex structures, high-temperature molten salts, composite phase changes, nanoparticles, porous media, which are included by low valley power, solar construction, industrial heating refrigeration, hydrogen solar thermal power generation, thermal chemical energy storage and other clean fuel preparation systems