Wang, Hui - University of Saskatchewan - Department of Chemical and Biological Engineering

个人简介

PhD - University of Alberta MSc (Eng.) - Taiyuan University of Technology BSc (Eng.) - Taiyuan University of Technology Specialization: Catalysis, Adsorption, Chemical Reaction Engineering, Separation Processes Current and Past Projects Heterogeneous Catalysis and its Application in Energy Industry Photocatalytic Reactor Design Gas-Liquid Reaction Engineering - H2S Chemical Splitting to Produce Hydrogen Catalytic Reforming of Green House Gases (GHG) The preparation of industrial catalysts for CO2 reforming of methane. The catalyst characterization and evaluation. The kinetics and deactivation of catalytic reforming reaction. The separation technology of CO2 from emission sources. Hydrogen Recovery Technologies from H2S Hydrogen Production from Sulphur Removal Porcess - H2S chemical splitting for H2. Engineering development of H2S splitting cycle. The sulphur recovery technology using gas-liquid reaction process. Atomic Effective Catalysis Research The application of synchrotron in catalyst characterization and in situ mechanism study. Catalyst design and preparation using structure controllable catalyst synthesis methods. IMPORTANT NOTES TO THOSE WHO ARE INTERESTED IN GRADUATE OR PDF PROGRAM UNDER MY SUPERVISION: If you want to be a PhD student or a PDF, please send me a document of 1-2 pages about your research plan and publishing plan on one of the above areas after your investigation of our publications. Only those who have been considered for hiring will be contacted. I apologize for not responding to every applicant.

研究领域

2013-2014 Applied Catalysis Laboratory for CO2 Utilization Atomically Precise Catalysis Studies with CLS Synchrotron for Sustainable, Efficient, Environmentally-Friendly Chemical Processes 2011-2012 Atomically Precise Catalysis Studies with CLS Synchrotron for Sustainable, Efficient, and Environmentally-Friendly Chemical Processes In situ XAFS catalytic reactors and on-line GC-MS for atomically precise catalysis study at Canadian Light Source 2010-2011 Identification of Cata-DyneTM Heater Inhomogeneity to Improve Combustion Efficiency 2008-2009 A Novel Process for Hydrogen Production from Thermochemical Splitting of Hydrogen Sulphide Catalytic Conversion of Emitted CO2 into Syngas 2007-2008 A Novel Process for Hydrogen Production from Thermochemical Splitting of Hydrogen Sulphide Catalytic Conversion of Emitted CO2 into Syngas

近期论文

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Bolin, T., Wu, T., Gomez, C., Todorovic, R., Schweitzer, N., Lobo, R., Kropf, A.J., Wang, H., Hu, Y., Meyer, R., Miller, J. and Heald, S. (2012). Intermediate-Energy X-ray Catalysis Research at Advanced Photon Source Beamline 9-BM, Catalysis Today, 205, 141-147 Majhi, S., Mohanty, P., Wang, H. and Pant, K.K. (2013). Direct Conversion of Natural Gas to Higher Hydrocarbons: A Review, Journal of Energy Chemistry, 22, 543-554. Moniri, A., Mertins, P. and Wang, H. (2012). Exergy analysis of hydrogen production from different sulfur-containing compounds based on H2S splitting cycle, International Journal of Hydrogen Energy, 37, 15003-15010. Moniri, A., Mertins, P. and Wang, H. (2012). Exergy analysis of hydrogen production from different sulfur-containing compounds based on H2S splitting cycle, International Journal of Hydrogen Energy, 37, 15003-15010. Wang, H., Miller, J.T., Shakouri, M., Xi, C., Wu, T., Zhao, H. and Akatay, M.C. (2013). XANES and EXAFS studies on metal nanoparticle growth and bimetallic interaction of Ni-based catalysts for CO2 reforming of CH4, Catalysis Today, 207 Wu, T., Child, D., Gomez, C., Karim, A.M., Schweitzer, N., Kropf, A.J., Wang, H., Bolin, T., Hu, Y., Meyer, R. and Miller, J. (2012). A General Method for Determination of the Surface Composition in Bimetallic Nano-particle Catalysts from the L-edge X-ray Absorption Near Edge Spectra, ACS Catalysis, 2, 2433-2443. Wang, H., Le Person, A., Zhao, X., Li, J., Nuncio, P., Yang, L., Moniri, A. and Chuang, K.T. (2012). A low-temperature hydrogen production process based on H2S splitting cycle for sustainable oil sands bitumen upgrading, Fuel Processing Technology, 0(tbd), 1-8. Available online at: http://www.elsevier.com/locate/fuproc Wang, H., Wang, D.M. and Chuang, K.T. (2011). A Sulfur Removal and Disposal Process through H2S Adsorption and Regeneration: Breakthrough Behaviour Investigation, Process Safety and Environmental Protection, 89, 53-60. Gu, Y., Wang, H. and Chuang, K.T. (2009). Upper Bound Efficiency for the Novel Chemical Cycle of H2S Splitting for H2 Production, Energy and Fuels, 23, 2184-2191. Zhang, J., Wang, H. and Dalai, A.K. (2009). Kinetic Studies of Carbon Dioxide Reforming of Methane over Ni−Co/Al−Mg−O Bimetallic Catalyst, Industrial and Engineering Chemistry Research, 48(2), 677-84. Zhang, J., Wang, H. and Dalai, A.K. (2008). Effects of Metal Content on Activity and Stability of Ni-Mo Bimetallic Catalysts for CO2 Reforming of Methane, Applied Catalysis A, 339(2), 121-129. Wang, H. (2008). Hydrogen Production from a Chemical Cycle of H2S Splitting, International Journal of Hydrogen Energy, 32, 3907-3914. Sun, N., Okoye, C., Niu, C.H. and Wang, H. (2008). Adsorption of Water and Ethanol by Biomaterials, International Journal of Green Energy, 4, 623-634. Wang, H., Fang, D. and Chuang, K.T. (2008). A Sulfur Removal and Disposal Process through H2S Adsorption and Regeneration: Ammonia Leaching Regeneration, Process Safety and Environmental Protection, 86, 296-302. Zhang, J., Wang, H. and Dalai, A.K. (2008). Effects of Metal Content on Activity and Stability of Ni-Co Bimetallic Catalysts for CO2 Reforming of CH4, Applied Catalysis A: General, 339(2), 121-129. Zhang, J., Wang, H. and Dalai, A.K. (2007). Development of High Performance Ni-Based Catalyst for CO2-CH4 Reforming, Journal of Catalysis, 249(2), 300-310. Wang, H. (2007). Hydrogen Production from a Chemical Cycle of H2S Splitting. International Journal of Hydrogen Energy, International Journal of Hydrogen Energy, 32(in press), 00-00. Available online at: http://www.sciencedirect.com Zhang, J., Wang, H. and Dalai, A.K. (2007). Development of Stable Bimetallic Catalysts for CO2 Reforming of CH4. Journal of Catalysis, Journal of Catalysis, 249(2), 300-310. Available online at: http://www.sciencedirect.com Sun, H., Zhang, J., Wang, H. and Zhang, J. (2007). CO2 Reforming of CH4 over Xerogel Ni-Ti and Ni-Al-Ti Catalysts, Industrial and Engineering Chemistry Research, 46, 4444-4450. Available online at: http://pubs3.acs.org/acs/journals/toc.paper?incoden=iechad Sun, H., Wang, H. and Zhang, J. (2007). Preparation and Characterization of Nickel Titanium Composite Xerogel Catalyst for CO2 Reforming of CH4, Applied Catalysis, B Environmental, 73, 158-165. Available online at: www.sciencedirect.com Wang, H. (2010). A New Graduate Course Teaching Chemical Engineering in Use of Renewable Resources, Proceedings of the 3rd International symposium of Engineering Education, Cork, Ireland, June 30 - July 2, 2010. Sun, N., Okoye, C., Niu, H. and Wang, H. (2007). Adsorption of Water and Ethanol by Biomaterials, The Proceedings of the 3rd International Green Energy Conference, Vasteras, Sweden, June 17-21, Paper No. 001, 1-9 (CD Rom). Wang, H. and Bolster, J. (2006). The Investigation of Potentials of renewable Energy from Biowaste Resources in Saskatchewan, The 2nd International Green Energy Conference, Oshawa, Ontario, Canada, June 25-29, 2006, Paper No. 128, 713-720 (CD Rom). Wang, H. and Bolster, J. (2006). The Investigation of Potentials of Renewable Energy from Biowaste Resources in Saskatchewan, The Proceedings of the 2nd International Green Energy Conference, Oshawa, Ontario, Canada, June 25-29, Paper No. 128, 713-720 (CD Rom).