Associate Professor
TEL:86-10-82377180
Email:hqtang@ustb.edu.cn
Research field: Energy Conversion, Refractory ore processing, novel metallurgical process.
Introduction
Member of TMS, USA
Member of Chinese Society of Particuology
Ph.D, University of Science and Technology, Beijing, 2000
M.A.Sc, University of Science and Technology, Beijing,1995
B.A.Sc, University of Science and Technology, Beijing, 1992
Selected publication
1.Huiqing Tang*, Shihong Liu, Tao Rong:Preparation of high-carbon metallic briquette for blast furnace application. ISIJ International, 2019, 59: 22-30.
2.Huiqing Tang*, Yanjun Sun, and Tao Rong:Experimental and numerical investigation of reaction behavior of carbon composite briquette in blast furnace,Metals, 2020,10(49):1-13.
3.Huiqing Tang*, Zhiwei Yun, Xiufeng Fu, Sheng Du:Modeling and experimental study of ore-carbon briquette reduction under CO–CO2 atmosphere. Metals, 2018, 8: 205.
4.Huiqing Tang*, Tao Rong, Kaifan Fan:Numerical investigation of applying high-carbon metallic briquette in blast furnace ironmaking. ISIJ International, 2019, 59:823-829.
5.Huiqing Tang*, Yanqi Qin, Tengfei Qi, Qingguo Xue:4.Application of wood char in processing oolitic high-phosphorus hematite for phosphorus removal. Journal of Iron and Steel Research, International23.2 (2016): 109-115.
6.Huiqing Tang*, Long Ma, Junwei Wang, Zhancheng Guo:6.Slag/metal separation process of gas-reduced oolitic high-phosphorus iron ore fines.?Journal of Iron and Steel Research, International?21.11 (2014): 1009-1015.
7.Huiqing Tang*, Weidi Liu, Huanyu Zhang, Zhancheng Guo:Effect of microwave treatment upon processing oolitic high phosphorus iron ore for phosphorus removal.?Metallurgical and Materials Transactions B?45.5 (2014): 1683-1694.
8.Huiqing Tang*, Tengfei Qi, and Yanqi Qin.:3.Production of low-phosphorus molten iron from high-phosphorus oolitic hematite Using biomass char.?JOM?67.9 (2015): 1956-1965.
9.Huiqing Tang*, Yanqi Qin, and Tengfei Qi:2.Phosphorus removal and iron recovery from high-phosphorus hematite using direct reduction followed by melting Separation.Mineral Processing and Extractive Metallurgy Review?37.4 (2016): 236-245.
10.Huiqing Tang*, Xiufeng Fu, Yanqi Qin, Shiyu Zhao, Qingguo Xue.:1.Production of low-silicon molten iron from high-silica hematite using biochar.Journal of Iron and Steel Research, International24.1 (2017): 27-33.