Chen Cong

Biography

Associate Professor, Department of Energy and Power, Dalian University of Technology, PhD supervisor, deputy director of the Institute of Refrigeration and Cryogenic Engineering, and a member of the Undergraduate Teaching Steering Committee. ""Geochemistry Society"", ""Society Society of Sustainable Energy Technologies"", ""Environmental Science & Technology"", ""Environmental Science & Technology Letters"", ""The Journal of Physical Chemistry"", ""Environmental Science & Technology Letters"", "" Energy & Fuels ""and other periodical reviewers. In June 2009, he graduated from Dalian University of Technology with a Ph.D. degree and stayed in school. He was promoted to associate professor in 2012 and visited the United States Lawrence Berkeley National Laboratory in 2013. Around the ""complex heat and mass transfer process micro-nano-scale control"", ""liquid-cooled heat transfer mechanism and equipment development"" and ""new refrigeration technology and equipment,"" the three directions for extensive and in-depth study. Especially in the exploration of supercritical CO2 salt water storage environment CO2 / salt water / rock system interface tension and wetting characteristics, and achieved important results. Based on the molecular dynamics simulation method, the influence of the hydroxyl structure of the rock surface on the wettability of CO2 / brine / rock system in CO2 storage environment was studied for the first time. The results showed that there was a significant difference in wettability under the same conditions The hydrogen bond structure between the rock surface and the water molecules under different hydroxyl structures is analyzed, and the mechanism of the surface hydroxyl structure affecting the hydrogen bond between the rock and the water molecules is revealed. The effects of the surface structure on the temperature and pressure dependence of the wettability were discussed. The effects of the surface structure of the rock on the wetting temperature and pressure dependence were discussed. The experimental results showed that the pressure And the temperature dependence of the larger phenomenon. Including the TOP Journal ""Environmental Science & Technology"" and ""Energy & Personal academic link: https: //www.researchgate.net/profile/Cong_Chen4/contributions

Research Interest

New Energy and Environmental Technology, Hydrate flow safety, Natural gas hydrate safe and efficient development