Welcome Prof. Yi Xing, University of Science and Technology Beijing, China to be the TPC!


Prof. Yi Xing, University of Science and Technology Beijing, China

Education background:
2003.09-2008.01 Ph.D School of Civil and Environmental Enigeering, University of Science and Technology Beijing
1999.09-2002.04  M.S. College of Environmental Science and Engineering, Tongji University
1994.09-1999.07  B.S. School of Environment, Tsinghua University                 
 
Research interests and contribution:
Professor Yi Xing has dedicated to the study of air pollution control of metallurgical furnace flue gas, who has developed the flue gas desulfurization technology of "semi-dry dense coherent tower" with independent intellectual property rights. The research system of "integration of dense coherent tower desulfurization, intergation of flue gas desulfurization and dust removal, coke oven flue gas SCR with synchronous desulfurization and dust removal, integration of pellet flue gas desulfurization, denitrification and dust removal and ultra-low emission, key technologies for the control of whole-process production of flue gas and multiple pollutants" has been gradually formed. Based on this research system, 6 first sets were realized in steel industry in China, demonstrating the dominant position and technical theory system of semi-dry desulfurization technology. Till now, The accumulated contract amount is more than 1.92 billion yuan, accounting for more than 35% of dry/semi-dry desulfurization projects in China. The annual emission reduction scale of SO2 is 337,900 t, and the cumulative emission reduction is 767,000 t, accounting for 24.07% of the total emission reduction in iron and steel enterprises (included in the key statistics).
Pro. Yi Xing is included in the National ‘ten thousand talents plan’ Science and Technology Innovation Leading Talent Project in 2018, and has published 160 academic papers and applied 57 patents. He has implemented 1 project from National Key Research and Development Plan and 4 projects from National Natural Science Foundation.
 
Selected Publications:
(1) Bo Jiang, Adedoyin Adebayo, Jianli Jia, Yi Xing*, Songqiang Deng, Limin Guo, Yuting Liang, Dayi Zhang. Impacts of heavy metals and soil properties at a Nigerian e-waste site on soil microbial community. Journal of hazardous materials. 2019, 362(1): 187-195.
(2)  Bo Jiang, Naifu Jin, Yi Xing*, Yuping Su, Dayi Zhang. Unravelling uncultivable pesticide degraders via stable isotope probing (SIP), Critical Reviews in Biotechnology. 2018, 38(7): 1025-1048.
(3) Wang Zhiqiang, Hong Chen*, Xing Yi, Li Zaixing, Li Yifei, Yang Jian, Feng Lihui, Hu Jiashuo, Sun Haipeng. Thermal characteristics and product formation mechanism during pyrolysis of penicillin fermentation residue. Bioresource Technology. 2019, 277: 46-54.
(4) Wang Zhiqiang, Hong Chen, Xing Yi*, Li Yifei, Feng Lihui, Jia Mengmeng. Combustion behaviors and kinetics of sewage sludge blended with pulverized coal: with and without catalysts. Waste Management. 2018, 74: 288~296.
(5) Lu Pei, Xing Yi*, et al. A reusable material with high performance for removing NO at room temperature: its performance, mechanism and kinetics. Catalysis science & technology. 2016, 6: 3520-3528.
(6) Li Ziyi, Liu Yingshu, Xing Yi, et al. Novel Wire-on-Plate Electrostatic Precipitator (WOP-EP) for Controlling Fine Particle and Nanoparticle Pollution. Environmental Science and Technology. 2015, 49(14): 8683-8690.
(7) Hong Chen, Xing Yi*, Hua Xiufu, et al. Dewaterability of sludge conditioned with surfactant DDBAC pretreatment by acid/alkali. Applied Microbiology and Biotechnology. 2015, (99): 6103–6111.
(8) Ma Hongzhi, Xing Yi*, Yu Miao, et al. Feasibility of converting lactic acid to ethanol in food waste fermentation by immobilized lactate oxidase. Applied Energy. 2014, (129): 89-93.