Complex system integration involving design, optimization and scale-up (Thermodynamic equilibrium calculation, Steady and dynamic process simulation and Computational Fluid Dynamic (CFD) simulation) ; Energy and Environmental catalysis ( the production of substitute natural gas from coal, the utilization and mitigation of Coal bed methane, and catalytic removal of VOCs); The controllable synthesis of catalytic material
Dr. Sheng Wang was born in Shanxi Province in 1977. He obtained his Bachelor’s and Master’s degrees from the Department of Chemical Engineering of Taiyuan University of Technology in 2000 and 2003, and his Ph. D. degree from Dalian Institute of Chemical Physics, Chinese Academy of Sciences in 2006. Since then, he worked on the researches of methane catalytic combustion, syngas conversion, process simulation and system optimization. He was appointed as a professor in 2014. He is the co-author of over 20 Chinese patents, and has published about 30 papers in professional journals. He is a member of the Youth Innovation Promoting Association, CAS. He has acquired many honors and rewards, such as Excellent Doctoral Dissertation of Chinese Academy of Sciences, Distinguished Young Talents of Shenyang Branch of Chinese Academy of Sciences, and Technology Invention Award in Liaoning province (Second Prize) etc.
1. Lei Zhang, Sheng Wang*, et al, Ozone elimination over oxygen-deficient MnOx based catalysts: effect of different transition metal dopants, Chemical Engineering Science, 2020.
2. Ya Ding, Sheng Wang*; et al. Investigation of supported palladium catalysts for combustion of methane: The activation effect caused by SO2, Chemical Engineering Journal, 2020, 382.
3. Lirong Lv, Sheng Wang*,et al. Reaction mechanism dominated by HSAB theory for the oxidation of CH2Cl2 and CH3Br over titanium oxide supported Ru catalyst, Industrial & Engineering Chemistry Research, 2020.
4. Xiaoli Wei, Sheng Wang* et al; Mechanistic insights on the reaction behaviors of the acrylonitrile selective catalytic combustion over Cu-based UZM-9, Journal of Hazardous Materials, 2020, 392.
5.LirongLv, ShengWang*,et al. Deactivation mechanism and anti-deactivation modification of Ru/TiO2 catalysts for CH3Br oxidation, Chemosphere, 2020, 127249.