Picture of  Hui Wang

Hui Wang BSc, MSc, PhD, P.Eng. Professor Chemical and Biological

Address
Room 1C126 Engineering Building

Research Area(s)

  • Heterogeneous Catalysis
  • Reaction Engineering
  • Separation Engineering
  • Sulphur Removal
  • Hydrogen Production
  • Sustainability Development
  • Process Design
  • Catalysis Studies Using Synchrotron Beams
  • Catalysts and Absorbents Material Development
  • Carbon dioxide Reforming
  • Hg Emission Control

Biography

Education and Experience

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

  1. Heterogeneous Catalysis and its Application in Energy Industry
  2. Photocatalytic Reactor Design
  3. 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.

Publications

Refereed Journal Publications

  • M. Shakouri, Y. Hu, R. Lehoux, H. Wang* (2020), CO2 conversion through combined steam and CO2 reforming of methane reactions over Ni and Co catalysts, Canadian Journal of Chemical Engineering, First published: 16 June 2020.
  • C. Yang , S. Yang , H.-L. Fan*, J. Wang , H. Wang , J. Shangguan , C. Huo (2020), A sustainable design of ZnO-based adsorbent for robust H2S uptake and secondary utilization as hydrogenation catalyst. Chemical Engineering Journal, 382:122892-902.
  • W.O. Alabi*, K. Sulaiman, H. Wang, Y. Hu, C. Patzig (2020), Effect of Spinel inversion and metal-support interaction on the site activity of Mg-Al-Ox supported Co catalyst for CO2 reforming of CH4. Journal of CO2 Utilization, 37:180-87.
  • W.O. Alabi*, K. Sulaiman, H. Wang (2020), Sensitivity of the properties and performance of Co catalysts to the nature of support for CO2 reforming of CH4. Chemical Engineering Journal, 390:124486-90.
  • Y. Zhang, H. Wang, D. Sun, L. Zhao*, J. Gao, C. Xu (2020), Separation of olefins from FCC naphtha by propylene carbonate: Influence of critical component structure and correlation of ternary LLE thermodynamic models. Fuel Processing Technology, 197:106198-207
  • J. Gao, P. Cohene, A.K. Dalai, H. Wang* (2019), Atomic Layer Deposition ZnO Over-Coated Cu/SiO2 Catalysts for Methanol Synthesis from CO2 Hydrogenation. Catalysts, 9:922-39.
  • Moniri, H. Wang*, X. Wu (2019), Application of corrosion-resistant Corning advanced-flow reactors for multiphase Bunsen reaction - Part two: Investigation on multiphase reaction. International Journal of Petrochemical Science & Engineering, 4:146-60.
  • Moniri, H. Wang*, X. Wu (2019), Application of corrosion-resistant Corning advanced-flow reactors for multiphase Bunsen reaction - Part one: Investigation on SO2 absorption. International Journal of Petrochemical Science & Engineering, 4:123-36.
  • K. Zhang, H. Wang, L. Zhao*, J. Gao, C. Xu (2019), Olefin separation from FCC naphtha by dimethyl sulfoxide: Effect of structure on the separation and correlation of thermodynamic models. Separation and Purification Technology, 228:115757.
  • E. He, G. Huang, H. Fan*, C, Wang, H. Wang, G. Tian, L. Wang, Y. Zhao (2019), Macroporous alumina- and titania-based catalyst for carbonyl sulfide hydrolysis at ambient temperature. Fuel, 246:277-284.
  • K. Zhang, W. Bao, L. Chang*, H. Wang* (2019), A review of recent researches on Bunsen reaction for hydrogen production via S–I water and H2S splitting cycles. Journal of Energy Chemistry, 33:46-58.
  • B.A. Gawade, G.D. Yadav*, A.K. Dalai, H. Wang (2018), In situ DRIFT studies of the novel superacidic sulfated zirconia catalysts: An investigation of acidity, catalytic activity, deactivation phenomenon and regeneration of active sites. Catalysis in Green Chemistry and Engineering, 1(3):263-275.
  • K. Zhang, X. Zhao, S. Chen, L. Chang, J. Wang, H. Wang* (2018), Direct electrolysis of Bunsen reaction product HI/H2SO4/H2O/toluene mixture for H2 production: Pt electrode characterization. International Journal of Hydrogen Energy, 43:13702-10.
  • W.O. Alabi, H. Wang*, W. Huang, X. Li (2018), A study of CO2 reforming of CH4 for coal delivered gases over Ni-based catalyst. Catalysis Today, 309:77-82.
  • M. Liang, L. Tian, M. Shakouri, H. Wang* (2017), Development of shaped NiCoMg/γ–Al2O3 catalyst with commercial support for CO2 reforming of CH4. Catalysis Today, 291: 76-85.
  • K. Kang, R. Azargohar, A.K. Dalai* and H. Wang (2017), Hydrogen generation via supercritical water gasification of lignin using Ni-Co/Mg-Al catalysts. International Journal of Energy Research41(13):1835-46. Published online in Wiley Online Library. DOI: 10.1002/er.3739.
  • Y.R. Zhao, D.A. Latham, B.A. Peppley, K.B. MaAuley, H. Wang, R. LeHoux (2017), Simulation of Dry Reforming of Methane in a Conventional Downfired Reformer. AIChE J, 63: 2060-71.
  • K. Kang, M. Shakouri, R. Azargohar, A.K. Dalai* and H. Wang (2016), Application of Ni-Co/Mg-Al Catalyst System for Hydrogen Production via Supercritical Water Gasification of Lignocellulosic Biomass. Catalysis Letter, 146: 2596-605.
  • M. Wang, T. Jia, J. Wang, Y. Hu, H. Wang* and L. Chang* (2016), Changes of sulfur forms in coal after tetrachloroethylene extraction and theirs transformations during pyrolysis. Fuel, 186: 726-33.
  • L. Han, X. He, C. Yue, Y. Hu, L. Li, L. Chang, H. Wang*, J. Wang* (2016), Fe doping Pd/AC sorbent efficiently improving the Hg0 removal from the coal-derived fuel gas. Fuel, 182: 64–72.
  • K. Kang, R. Azargohar, A.K. Dalai* and H. Wang (2016), Hydrogen production from lignin, cellulose, and waste biomass via supercritical water gasification: catalyst activity and process optimization study. Energy Conversion and Management, 117: 528-37.
  • L. Han, H. Meng, J. Wang, Y. Hu, W. Bao, L. Chang, and H. Wang* (2016), Application of spent H2S scavenger of iron oxide in mercury capture from flue Gas. Industrial and Engineering Chemistry Research, 55(17): 5100-7.
  • K. Kang, R. Azargohar, A.K. Dalai and H. Wang* (2016), Systematic screening and modification of Ni based catalysts for hydrogen generation from supercritical water gasification of lignin. Chemical Engineering Journal, 283: 1019-32.
  • J. Li, A.Moniri and H. Wang* (2015), Apparent kinetics of a gas-liquid-liquid system of Bunsen reaction with iodine-toluene solution for hydrogen production through H2S splitting cycle, International Journal of hydrogen Energy, 40:2912-20.
  • K. Kang, R. Azargohar, A.K. Dalai* and H. Wang (2015), Noncatalytic Gasification of Lignin in Supercritical Water Using a Batch Reactor for Hydrogen Production: An Experimental and Modeling Study. Energy and Fuels, 29:1776-84.
  • Yue, J. Wang, L. Han, L, Chang, Y. Hu and H. Wang* (2015), Effects of pretreatment of Pd/AC sorbents on the removal of Hg0 from coal derived fuel gas, Fuel Processing Technology, 135: 125-32.
  • M. Wang, L. Liu, J. Wang, L. Chang*, H. Wang and Y. Hu* (2015), Sulfur K-edge XANES study of sulfur transformation during pyrolysis of four coals with different ranks, Fuel Processing Technology, 131:262-69.
  • H. Zhang*, Y. Jiang, K. Chen, Y. Hu, H. Wang, J. Zhao, X Zhang and C. Wang (2015), Relationship between Pyrite in the Precursor and the Pore Structure of High-Surface Area Activated Carbon Preparations, Chemical Engineering Technology, 38:85-90.
  • Y. Li, L.-J. Wang, H.-L. Fan*, J. Shangguan, H. Wang and J. Mi (2015), Removal of Sulfur Compounds by a Copper-Based Metal Organic Framework under Ambient Conditions, Energy and Fuels, 29:298-304.
  • L-J. Wang, H.-L. Fan*, J. Shangguan, E. Croiset, Z. Chen, H. Wang and J. Mi (2014), Design of a Sorbent to Enhance Reactive Adsorption of Hydrogen Sulfide, ACS Applied Materials and Interfaces, 6:21167-77.
  • M. Wang, J. Lu, C.L. Marshall*, J.W. Elam, J.T. Miller, H. Liu, J.A. Enterkin, R.M. Kennedy, P.C. Stair, K.R. Poeppelmeier and L.D. Marks  (2014), In Situ XANES Study of Methanol Decomposition and Partial Oxidation to Syn-Gas over Supported Pt Catalyst on SrTiO3 Nanocubes, Catalysis Today, 237:71-9.
  • H. Zhang*, Y. Jiang, Y. Hu, A. Maclennan, H. Wang and C. Wang  (2014), Effect of Pyrite in Precursor on Capacitance Behavior of Prepared Activated Carbon, Industrial and Engineering Chemistry Research, 53:10125-32.
  • M.Wang, L. Liu, J. Wang, L. Chang, H. Wang, Y. Hu* (2013), Sulfur K-edge XANES Study of Sulfur Transformation during Coal Pyrolysis, Journal of Analytical and Applied Pyrolysis, 104:585-92.
  • H. Wang and S. Zaidi. Catalyst development for carbon dioxide activation to produce syn-gas through CO2 reforming of CH4: Mitigation of carbon formation on Ni-based catalysts, In New and Future Development in Catalysis - Activation of Carbon Dioxide; S. Suid, Elsevier, 2013.
  • J. Zhang, H. Wang*, C. Xi, M. Shakouri, Y. Hu, and A. Dalai. Design and preparation of Ni-Co bimetallic nanocatalyst for carbon dioxide reforming of methane, In Nanocatalysis for Fuels and Chemicals; Dalai, A.; ACS Symposium Series; American Chemical Society: Washington, DC, 2012.
  • 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 Today205, 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 Technology108: 55-62, 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 Protection89, 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 Fuels23, 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 Research48(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 A339(2), 121-129.
  • Wang, H. (2008). Hydrogen Production from a Chemical Cycle of H2S Splitting, International Journal of Hydrogen Energy32, 3907-3914.
  • Sun, N., Okoye, C., Niu, C.H. and Wang, H. (2008). Adsorption of Water and Ethanol by Biomaterials, International Journal of Green Energy4, 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 Protection86, 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: General339(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 Catalysis249(2), 300-310.
  • Wang, H. (2007). Hydrogen Production from a Chemical Cycle of H2S Splitting. International Journal of Hydrogen Energy, International Journal of Hydrogen Energy32: 3907-14. 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 Catalysis249(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 Research46, 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 Environmental73, 158-165. Available online at: www.sciencedirect.com

Refereed Conference Proceedings

  • 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).

Conference Presentations / Poster Presentations

  • Shakouri, M., Akatay, M.C., Liu, B., Zhao, H., Yang, B. and Wang, H. (2013). Surface and Bulk Structural Characterization of Ni-Based Bimetallic Catalyst for CO2 Reforming of CH4, 23rd North American Catalysis Society Meeting, Louisville, KY (Kokes Award), June 2-7.
  • Wang, H., Marshall, C.L., Lu, J. and Elam, J.W. (2013). Methanol Reforming to Syn-Gas over Supported Pt Catalyst SrTiO3 Nanocubes Synthesized by ALD, 23rd North American Catalysis Society Meeting, Louisville, KY, June 2-7.
  • Wang, H., Miller, J.T. and Hu, Y. (2012). Study of Kinetics Behavior of Metal Reduction of Bimetallic Catalysts Using Synchrotron XANES, 15th International Congress on Catalysis, Munich, Germany, July 1-6.
  • Wu, T., Childers, D., Gomez, C., Karim, A., Schweitzer, N., Kropf, A.J., Wang, H., Bolin, T., Hu, Y., Kovarik, L., Meyer, R. and Miller, J.T. (2012). Understanding the Electronic and Surface Structure in Bimetallic Nanoparticle Catalyst, 15th International Congress on Catalysis, Munich, Germany, July 1-6.
  • Wu, T., Childers, D., Gomez, C., Karim, A., Schweitzer, N., Kropf, A.J., Wang, H., Bolin, T., Hu, Y., Kovarik, L., Meyer, R. and Miller, J.T. (2012). Understanding the Electronic and Surface Structure in Bimetallic Nanoparticle Catalyst, American Chemical Society Fall Meeting, Philadelphia, PA, August 17-21.
  • Wang, H., Miller, J.T. and Shakouri, M. (2011). XANES and EXAFS of Ni-Co Bimetallic Catalysts for CO2 reforming of CH4, 22nd North American Catalysis Society Meeting, Detroit, MI USA, June 5-10.
  • Wang, H., Marshall, C.L., Stair, P.C. and Elam, J. (2011). A Novel Pt-based Catalysts Made by ALD for Methanol Reforming, Catalysis Club of Chicago 2011 Spring Symposium, BP Naperville Campus, IL, USA, May 19.
  • Li, J. and Wang, H. (2011). Hydrogen Production from Hydrogen Sulfide via a Chemical Splitting Cycle for Sustainable Oil Sand Bitumen Upgrading: Bunsen Reaction in presence of Organic Solvent, Oilsands 2011, Edmonton, AB, February 22-15.
  • Wang, H., Zhang, J., Xi, C., Hu, Y.F. and Dalai, A.K. (2010). Metal particle size and catalytic performances: Development of bimetallic Ni-Co nano particles on a stable catalyst for CO2 reforming of CH4, Nanocatalysis for Fuels and Chemicals, Pacifichem 2010, Honolulu, Hawaii, December 15-20, 2010, Paper No. 445.
  • Li, J. and Wang, H. (2010). Kinetics Study of the Bunsen Reaction for Hydorgen Production from H2S, 60th CSChE Conference, Saskatoon, SK, October 24-27.
  • Nuncio, P., Wang, H. and Chuang, K.T. (2010). Study on Reaction between Hydrogen Sulfide and Sulfuric Acid for H2 Production from H2S Splitting Cycle, 60th CSChE Conference, Saskatoon, SK, October 24-27.
  • Yang, L. and Wang, H. (2010). Iodine Solubility and Distribution in Aqueous Hydroiodic Acid and Organic Solvents for a Novel Process of Bunsen Reaction, 60th CSChE Conference, Saskatoon, SK, October 24-27.
  • Xi, C., Hu, Y. and Wang, H. (2010). A Study of Poisoning of Ni-Co/AlMgO Bimetallic Catalyst for CO2 Reforming of CH4 in Presence of Sulfur-Containing Gases, Book of Abstracts of the 21st Canadian Symposium on Catalysis, Banff, AB, May 9-12.
  • Yang, L. and Wang, H. (2009). Energy Analysis of Hydrogen Production from Sulfur-Containing Compounds, Abstracts of 8th World Congress of Chemical Engineering, Montreal, QC, August 23-27.
  • Wang, H. and Chuang, K.T. (2009). Design EH2A Cogeneration with Nuclear Power Plant to Sustain Fuel Production from Oil Sands Bitumen, Abstracts of 8th World Congress of Chemical Engineering, Montreal, QC, August 23-27.
  • Le Person, A., Wang, H. and Chuang, K.T. (2009). A New Solvent for the Bunsen Reaction, Abstracts of 8th World Congress of Chemical Engineering, Montreal, QC, August 23-27.
  • Evitts, R.W., Wang, H., Hill, G.A., Phoenix, A., Lin, Y. and Muench, T. (2009). Chemical Engineering Design Training at the University of Saskatchewan, Abstracts of 8th World Congress of Chemical Engineering, Montreal, QC, August 23-27.
  • Xi, C. and Wang, H. (2009). Effects of Preparation Conditions and Ni/Co Ration on Ni-Co Bimetallic Catalyst Performance for CO2 Reforming of CH4, Abstracts of 21st North American Catalysis Society Meeting, San Francisco, CA, June 7-12.
  • Wang, H., Zhang, J. and Dalai, A.K. (2008). Innovative Design and Development of a Carbon-Deposition Free and Highly Active Bimetallic Ni-Co Catalyst for CO2 Reforming of CH4. Book of Abstracts, 20th Canadian Symposium on Catalysis, Kingston, ON, June 15-18.
  • Wang, H., Zhang, J. and Dalai, A.K. (2008). Innovative Design and Development of a Carbon-Deposition Free and Highly Active Bimetallic Ni-Co Catalyst for CO2 Reforming of CH4, 20th Canadian Symposium on Catalysis, Kingston, ON, June 15-18.
  • Sun, N., Okoye, C., Niu, C.H. and Wang, H. (2007). Ethanol Dehydration with Flax Shives, 57th CSChE Conference, Edmonton, AB, October 28-31.
  • Wang, D.M., Chuang, K.T. and Wang, H. (2007). A Safer H2S Disposal Method to Eliminate Flaring Acid Gas in Natural Gas Processing: Kinetic Study of H2S Adsorption on Iron Oxide, 57th CSChE Conference, Edmonton, AB, October 28-31.
  • Wang, H., Zhang, J. and Dalai, A.K. (2007). An Ultra Stable Ni-Co Catalyst for CO2 Reforming of CH4, Abstracts of 20th North American Catalysis Society Meeting, Houston, TX, June 17-22.
  • Zhang, J., Wang, H. and Dalai, A.K. (2007). Development of Carbon Free Catalyst for CO2-CH4 Reforming, 20th North American Catalysis Society Meeting, Houston, TX, June 17-22.
  • Zhang, J., Wang, H., Dalai, A.K., Hu, Y., Zuin, L. and Regier, T. (2007). XAS Study on the Stability of Ni-Co Bimetallic Catalyst for CO2 Reforming of Ch4, The 10th Annual Users'''''''' Meeting of Canadian Light Source, Saskatoon, SK, June 15-17, Paper No. Abstract 53.
  • Wang, H. and Niu, H. (2006). Challenges in Teaching as a Professor whose English is a Second Language, Abstracts of 28th McGraw-Hill Ryerson National Teaching, Learning, and Technology Conference, Saskatoon, SK, November 2-3.
  • Huang, J. and Wang, H. (2006). Synthesis and Evaluation of Ni-Ti-Al Xerogel Catalyst for Carbon Dioxide Reforming of Methane, 19th Canadian Symposium on Catalysis, Saskatoon, Saskatchewan, Canada, May 14-17, 2006, Paper No. 160.
  • Zhang, J., Wang, H. and Dalai, A. (2006). The Design and Development of High Performance Industrial Catalysts for CO2-CH4 Reforming, 19th Canadian Symposium on Catalysis, Saskatoon, Saskatchewan, Canada, May 14-17, 2006, Paper No. 159.
  • Zhang, J., Wang, H. and Dalai, A. (2006). A Stable Catalyst for Carbon Dioxide Reforming of Methane, 55th Canadian Society of Chemical Engineering Conference, Toronto, Ontario, Canada, October 16-19, 2005, Paper No. 565.
  • Sun, H. and Wang, H. (2006). The Effect of Reducing Temperature on the Activity of Sol-Gel Made Dry Reforming Catalyst, 55th Canadian Society of Chemical Engineering Conference, Toronto, Ontario, Canada, October 16-19, 2005, Paper No. 472.
  • Wang, D., Guo, H., Miao, M., Wang, H. and Chuang, K.T. (2006). Breakthrough Behaviour of H2S Adsorption at Elevated Pressures, 56th CSChE Conference, Sherbrooke, QC, October 15-18.
  • Bromstad, M. and Wang, H. (2006). Process Design for Hydrogen Production from H2S Chemical Splitting, 57th CSChE Conference, Edmonton, AB, October 28-31.
  • Wang, H., Phoenix, A., Evitts, R. and Hill, G. (2005). Design Training for Chemical Engineering Undergraduates at the University of Saskatchewan, 55th Canadian Chemical Engineering Conference, Toronto, ON, October 16-19, 2005.

Invited Lecture/Talk

  • Wang, H., Zhang, J., Xi, C. and Shakouri, M. (Invited) (2011). From Sour Gas to Portable Fuels: Industrial catalyst development to make CH4-CO2 mixture into syn-gas, Catalysis Club of Chicago 2011 Spring Symposium, BP Naperville Campus, IL, USA, May 19.
  • Wang, H. (Invited) (2011). Recycling and Repeating for Sustainable Energy Production and Friendly Environment, BP Refining Technology, Naperville, IL, USA, April 1.
  • Wang, H. (Invited) (2010). Problem-Solving, Industry-Oriented Research in Energy and Environmental Areas,, UOP LLC, Des Plaines, IL, USA, November 18.
  • Wang, H. (Invited) (2010). Problem-Solving, Industry-Oriented Research in Energy and Environmental Areas,, UOP LLC, Des Plaines, IL, USA, November 18.
  • Wang, H. (Invited) (2010). Evaluation of H2S Scavenger Technologies in North America, Shanxi Clean Catalysis and Purification Technology Development Company Limited, Shanxi, April 6.
  • Wang, H. (Invited) (2010). Environmentally-Friendly and Sustainability-Oriented Chemical Engineering Research, Schlumberger, Edmonton, AB, December 4, 2009; Ocean University of China, April 9, 2010, Jilin University, April 12, 2010; China University of Petroleum, April 13, 2010.
  • Wang, H., Zhang, J. and Xi, C. (Invited) (2009). Study of Catalyst Development and Poisoning for CO2 Reformaing of CH4, China-Canada Joint Symposium on Clean Utilizztion of Coal, Taiyuan, Shanxi, China, April 26-28.
  • Wang, H. (Invited) (2009). The Development of H2S Splitting Cycle for H2 Production for Sustainable Oil Sands Processing, Yangzhou University, China, April 15.
  • Wang, H. (Invited) (2009). Production of Hydrogen and Sulphuric Acid from Gas and Oil Wastes Coupled with Nuclear Power Plants, EnerCan West: Erergy for a Sustainable Future, Regina, SK, March 16-17.
  • Wang, H. (Invited) (2008). Alternative and Sustainable H2 Production for Oil Sands Exploitation, Taiyuan University of Technology, Yunchen University, and China University of Petroleum, China, April 15, April 21, April 22.

Published Book Chapter

  • Wang, H. and Zaidi, S. (2013). Catalyst development for carbon dioxide activation to produce syn-gas through CO2 reforming of CH4: Mitigation of carbon formation on Ni-based catalysts, Activation of Carbon Dioxide, Chapter 15, Edited by Suid, S., Elsevier B.V., Amsterdam, 2013, 455-479
  • Zhang, J., Wang, H., Xi, C., Shakouri, M., Hu, Y. and Dalai, A.K. (2012). Design and Preparation of Ni-Co Bimetallic Nanocatalyst for Carbon Dioxide Reforming of Methane, Chapter 12, Nanocatalysis for Fuels and Chemicals, Edited by 1092, ACS Books, Washington D.C. USA, 195-221.