Associate Professor
Academic areas: Solid waste resource disposal
Academic Interests: Research on energy economy policy based on carbon neutrality
benwang@hust.edu.cn
Academic Degrees
PhD, 2006, School of *****, Nanyang Technological University, Singapore;
Bachelor, 2001, School of *****, Huazhong University of Science and Technology, Wuhan, China.
Academic Degrees:
Ph.D. Thermal Engineering (09, 2008—07, 2012)
State key Laboratory of Coal Combustion
School of Energy and power Engineering
HuaZhong University of Science and Technology
M.Sc. Thermal Engineering (09, 2007—09, 2008)
State key Laboratory of Coal Combustion
School of Energy and power Engineering
HuaZhong University of Science and Technology
B.Sc. Thermal Engineering (09, 2002—09, 2006)
School of Energy and power Engineering
HuaZhong University of Science and Technology
Professional Experience
Associate Professor (2017-present); State key Laboratory of Coal Combustion
School of Energy and power Engineering
HuaZhong University of Science and Technology
;
Lecturer (2015-2017); State key Laboratory of Coal Combustion
School of Energy and power Engineering
HuaZhong University of Science and Technology
.
10, 2012-10. 2014: Postdoctoral Fellow in Chemical and Material Engineering department, University of Alberta.
08, 2006-08, 2007: Assistant engineer of Xinjiang power plant (affiliated to China National Petroleum Corporation)
Selected Publications
(1) Tianyu Li; Ben Wang*;Wei Li; Jun Nie; Wu Yang; Lushi Sun. Effect of occurrence modes of nickel and vanadium on gasification characteristics of petroleum coke. Fuel. 2020, 263(1): 116686.
(2) Ben Wang; Wei Li; Wu Yang; Jun Nie; Lushi Sun. Investigation of gasification atmosphere on Nickel and Vanadium transformation of petroleum coke by thermodynamic equilibrium calculation. Ind. Eng. Chem. Res. 2019, 58, 47, 21208-21218.
(3) Jun Nie; Ben Wang*; Wei Li;Wu Yang; Lushi Sun. Investigation on the transformation behavior of nickel and vanadium during steam gasification of petroleum coke, Ind. Eng. Chem. Res. 2018, 57(42): 14325-14335.
(4) Li Wei; Ben Wang*; Jun Nie; Wu Yang; Linlin Xu; Lushi Sun. Migration and transformation of Vanadium and Nickel in high sulfur petroleum coke during gasification processes. Energies. 2018, 11(8): 2158-2172.
(5) Wang, Ben; Kurian, Vinoj; Mahapatra, Nirlipt; Martens, Frans; Gupta, Rajender. Investigation of corrosion and fouling in syngas cooler tubes. Fuel Process Technol. 2016, 141:202-209.
(6) Yang Wu; Wang, Ben*. Combustion optimization and NOx reduction of a 600 MWe down-fired boiler by rearrangement of swirl burner and introduction of separated over-fire air. Journal of Cleaner Production. 2018, (23):253-265.
(7) Yang Wu; Wang, Ben*, An overview of inorganic particulate matter emission from coal/biomass/MSW combustion: Sampling and measurement, formation, distribution, inorganic composition and influencing factors.Fuel Processing Technology. 2020.10 202-209
(8) Li Wei; Ben Wang*; Jun Nie; Wu Yang; Linlin Xu; Lushi Sun. Effect of the Composition of Additive Ash on the Thermal Behavior of Petroleum Coke Ash during Gasification. Energy and fuel . 2019, 11(8): 2158-2172.
Awards:
2019 Outstanding Teacher homeroom Teacher
2018 Candidate of Nanjing High-level Entrepreneurship Talent Introduction Program
2017 Outstanding Teacher homeroom Teacher
2017Award of Excellence in teaching Competition
2017 Candidate of "City Partner" talent Program of Wuhan
2016 Taiwan Dongyuan Science, Technology, Culture and Education Foundation-Dongyuan International Science and Technology Creative Competition Award
2016Award of Excellence in teaching Competition
2016 Active member of advanced Trade Union of Huazhong University of Science and Technology
2015 First prize of Energy conservation and Emission reduction Competition of Ministry of Education
2015 TOP20 of "My Favorite Teacher in charge" school selection
2014 Excellent postdoctoral fellow of The University of Alberta
2013 University of Alberta Engineering Annual Conference Best Wall Newspaper Award
2008-2012 Chairman of doctoral Branch
Courses Taught
Energy utilization principle and technology of solid waste
Heavy metal pollution and control in energy utilization process
Computer network technology and application
Projects
• Ministry of Science and Technology, National Key RESEARCH and Development Program, 2019YFC1904000, Solid waste resource utilization, "Collaborative disposal and demonstration of Multi-source Organic Solid Waste Park in Large and Medium-sized Cities of Yangtze River Economic Belt", 2020-january to 2023-12,930,000 yuan, in progress, hosted the sub-project
• Ministry of Science and Technology, National Key RESEARCH and Development Program, 2018YFC1901300, Solid waste recycling, "Research on key Technologies and Equipment for efficient, Clean and Stable Incineration of Organic Solid Waste", 2018-12 to 2022-11,400,000 yuan, in progress, participated.
• National Natural Science Foundation of China, 51806078, Interaction mechanism of organic sulfide with catalyst and characteristic main component during the catalytic pyrolysis of waste tire, 2018/01-2020-12, 250, 000 yuan, in progress, participant.
• National Natural Science Foundation of China, 51506068, Vanadium and nickel migration and transformation mechanism during the gasification of high-sulfur petroleum coke and its effect on the characteristics of ash and slag-formation, 2016-01 to 2018-12, 250, 000 yuan, completed, in charge.
• International (regional) cooperation and exchange project, 51661145010, basic research on key technologies of clean and efficient heat conversion of urban solid waste containing carbon, January 2016 to December 2018, 4.5 million yuan, completed, participated.
• National Natural Science Foundation of China, 51576073, Basic research on the pyrolysis mechanism and catalytic hydrogenation debromination of bromine-containing flame retarded electronic waste Plastics, 2016-01 to 2019-12, 650,000 yuan, completed, participated.
• National Natural Science Foundation of China, 50976038, Clean catalytic combustion of biomass gasification products, 2010/01 to 2012/12.7 million yuan, concluded, participated.
