Education & Working Experience（Required）：
Bachelor degree or above：
1999.09-2002.04 Environmental Engineering Department, Tongji University/ Central Research Institute of Building and Construction, Master.
2003.09-2008.01 Environmental Engineering Department, University of Science and Technology Beijing, Ph.D.
2002.04 -2003.01, Project Manager, Environmental Protection Branch of Central Research Institute of Building and Construction, MCC
2009.07 -2010.06, Post Doctorate, School of Earth and Space Sciences, Peking University
2011.03 - present, Deputy Chief, Department of scientific research and development, USTB
2011.09 -2012.09, Visiting Scholar, University of Leeds, UK
Undergraduate Course：Air Pollution Control Engineering, Environmental Engineering Research and Design (required), Environmental Engineering Construction and Management (optional)
Postgraduate Courses：Research Progress of Air Pollution Control, Seminar on Environmental Science and Engineering, Industrial Waste Gas Treatment and Dust Removal Technology, Waste Water Treatment and Reuse Technology, Microbiology Experiment and Application Technology
Industrial flue gas control; Disposal and recycling of municipal solid waste
Host 2 projects from National Natural Science Foundation, 1 project from Science and Technology Plan of Beijing City (the Capital City's Blue Sky Action Plan), 6 vertical projects of the provincial and ministerial level and other 15 vertical and horizontal projects; participate in 1 project from the National Water Pollution Control and Treatment Science and Technology Major Project, 4 sub-topics from 863 Program and 973 Program, 4 vertical projects of the provincial and ministerial level and other 12 vertical and horizontal projects.
1. Part of the vertical projects
② Research and demonstration on the key equipment of pollution emission control in the pelletized sinter and steelmaking process (D15110900490000), Key project of Science and Technology Plan of Beijing City (the Capital City's Blue Sky Action Plan); 2015.01-2017.06
③ Research and development of low temperature catalyst for SCR denitrification in industrial flue gas ,supported by the Scientific Research Foundation for the Returned Overseas Chinese Scholars, Ministry of Education of China; 2014.9-2017.9
④ Geochemical characteristics and response mechanism of heavy metal pollution remediation in mining area(41273091), supported by the National Natural Science Foundation of China (General Program) ; 2013.1-2016.12
⑤ Study on the mechanism of sludge drying at room temperature and the regulatory mechanism of sludge as raw material for the cement (FRF-TP-12-011B),supported by the Basic Research Funds of the Central Universities; 2012.6-2015.6
⑥ Study on the treatment of landfill leachate by modified mineral adsorption method and its auxiliary equipment (2012B091000118), supported by the combination projects of industry, universities and research institutions of Guangdong Province and Ministry of education; 2012.1-2013.12
⑦ Study on action mechanism of modified municipal sewage sludge as sintering ingredient and its regulation mechanism (51104009),supported by the Youth Science Fund Project of National Natural Science Foundation of China; 2011.1-2014.12
⑧ Development and demonstration of the technology and equipment of gasifying municipal biomass waste (2011B090400629), supported by the combination projects of industry, universities and research institutions of Guangdong Province and Ministry of education;2011.10-2013.12
⑨ Discuss on the standard of landfill gas as civil fuel and study and demonstration on its technology (2011B090400476),supported by the combination projects of industry, universities and research institutions of Guangdong Province and Ministry of education;2011.7-2013.12
2, selected talent program
① 2016, leading talent of young science and technology innovation, Ministry of Science and Technology
② 2015, hundreds of leader talents training project of Sci-Tech Beijing, LJ201620, Beijing science and Technology Committee
③ 2012, Beijing outstanding talents cultivation funding project, 2012D009006000003, Organization Department of CPC Beijing Municipal Committee
④ 2011, Beijing New-Star Plan of science and Technology, Z111106054511043, Beijing science and Technology Committee
Social/ Academic Work（Optional）：
Executive Vice Secretary-General, energy conservation and emission reduction industry technology innovation alliance of iron and steel industry in the Beijing-Tianjin-Hebei Region; 2015.04—present
Visiting professor, Shanxi University, 2014.11—present
Deputy director/working committee member, the industrial energy saving and emission reduction center of Beijing Collaborative Innovation Research Institute; 2014.08—present
Senior member, the Chinese Academy of Environmental Sciences; 2012.12—present
Secretary General, science and Technology Information Network of Capital Campus Press Union; 2011.03—present
Honors and Awards（Optional）：
① 2013,“New technology of sintering flue gas desulfurization”, Second prize of Science and Technology Progress Award of the Ministry of Education, Rank 1st, Awards institution: the Ministry of Education;
② 2012, “A desulfurization technology of sintering flue gas by double alkali method ”, Third prize of Beijing science and Technology Award , Rank 1st, Awards institution: Beijing Municipal People's government;
③ 2011, “Technology and application of sintering flue gas desulfurization by using dense coherent tower”, Second prize of science and technology award about environmental protection，Rank 1st, Awards institution: Environmental Protection Department
④ 2011,“ A device for selectively desulfurization by using dense coherent column method”, Excellence award of China Patent Award, Rank 3rd, Awards institution: State Intellectual Property Office;
⑤ 2010, “ Technology and complete equipment for desulphurization of sintering flue gas by using dense coherent tower method”, Second prize of Metallurgical science and technology award , Rank 3rd, Awards institution: China Iron and Steel Industry Association, Chinese society of metals.
2, Academic honor
① 2015, Talents of outstanding contributions to science, technology, management in Beijing, Awards institution: Beijing municipal Party Committee Organization Department, Beijing municipal human resources and Social Security Bureau;
② 2015, May4th Youth medal of Beijing, Awards institution: Beijing Municipal Committee of the Communist Youth League, Beijing municipal human resources and Social Security Bureau;
③ 2014, Mao Yisheng Prize for Young Talents in Science and Technology, Awards institution: Beijing municipal Party Committee Organization Department, Beijing municipal human resources and Social Security Bureau.
3, The identification of scientific and technological achievements
① 2014, “A kind of integrated technology of flue gas desulfurization and dust removal in the sintering pellet process”, Organization and identification institution : Results identification of China Iron and Steel Industry Association, Level of achievement: International advanced level, rank 1st;
② 2010, “ A key technology and application of flue gas desulfurization by using dense coherent tower”, Organization and identification institution : the Ministry of Education, Level of achievement: International advanced level, rank 2nd. Academic Achievements（Optional）：
115 academic papers, including 53 SCI/EI;
Applying for 51 patents, including authorized invention patents18 and utility model patents 19;
Editor or the senate arrange books 5, including textbooks 4 and monograph 1.
Main journal publications：
 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. (SCI, IF= 5.426, accepted)
 Hua Xiufu, Xing Yi*, et al. Controlled synthesis of enzyme-inorganic nanocrystal composite assembled into 3D structure with ultrahigh enzymatic activity. RSC Advances. 2016. (SCI, IF= 3.840, accepted)
 Li Ziyi, Liu Yingshu, Yang Xiong*, Xing Yi*, et al. Desorption of Polycyclic Aromatic Hydrocarbons on Mesoporous Sorbents: Thermogravimetric Experiments and Kinetics Study, Industrial & Engineering Chemistry Research. 2016, 55(5): 1183-1191. (SCI, IF= 2.587, accepted)
 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. (SCI, IF= 5.330)
 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. (SCI,IF= 3.337)
 Hong Chen, Si Yanxiao, Xing Yi*, et al. Effect of surfactant on bound water content and extracellular polymers substances distribution in sludge. RSC Advances. 2015, 5(30): 23383-23390. (SCI, IF= 3.840)
 Hong Chen, Si Yanxiao, Xing Yi*, et al. Illumina Miseq sequencing investigation on the contrasting soil bacterial community structures in different iron mining areas. Environmental Science and Pollution Research. 2015, 22(14): 10788-10799. (SCI, IF= 2.828)
 Xing Yi, Si Yanxiao, Hong Chen, et al. Multiple factors affect diversity and abundance of ammonia-oxidizing microorganisms in iron mine soil. Archives of Environmental Contamination and Toxicology. 2015, 69(1): 20-31. (SCI, IF= 1.895)
 Li Ziyi, Liu Yingshu, Yang Xiong, Xing Yi, et al. Desorption Kinetics of Naphthalene and Acenaphthene over Two Activated Carbons via Thermogravimetric Analysis.Energy and Fuels. 2015, 29(8): 5303-5310. (SCI, IF= 2.790)
 Lu Shaoyong, Zhang Wentao, Xing Yi, et al. Spatial distribution of water quality parameters of rivers around Erhai Lake during the dry and rainy seasons. Environmental Earth Sciences. 2015, 74(11): 7423-7430. (SCI, IF= 1.765)
 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. (SCI, IF= 5.613)
 Xing Yi, Hong Chen, Cheng Bei, et al. Preparation of Mn-based selective catalytic reduction catalysts by three methods and optimization of process conditions. PLOS ONE, 2013, 8(9): e73237. (SCI, IF= 3.234)
 Xing Yi, Cheng Bei, Guo Tianpeng, et al. Application of New Room-temperature Catalytic Oxidation Material on Indoor Formaldehyde Control, Environmental Progress and Sustainable Energy, 2013, 32(1):115-119. (SCI, IF= 1.403)
 Xing Yi, Zhang yingying, Si yanxiao, et al. Impacts of Long-Term Heavy Metal Pollution on Microbial Metabolic Activity in Iron Mine Soil, Research of Environmental Sciences, 2015, 18(12): 1879-1886.（EI）
 Chen wei, Chen yue, Xing Yi*, et al. Combined effect of desulfurization ash--FeCl3 on sludge dewatering performance, Chinese Journal of Engineering 2015, (9): 1239-1245. （EI）
 Xing Yi, Wang zhiqiang, Hong chen,et al. Influence of extracellular polymeric substances on sludge dewaterability and bound water content at various pH values, Chinese Journal of Engineering2015, 37(10): 1387-1395.（EI）
 Tong zhensong, Shen zhuoshen, Xing Yi*, Properties of Ti-coated diamond-reinforced glass matrix composites,Journal of University of Science and Technology Beijing,2014, 36(7): 946-951. （EI）
 Tong zhensong, Shen zhuoshen, Xing Yi*, Effect of surface coatings on the properties of diamond /glass composites,Journal of University of Science and Technology Beijing2014, 36(10): 1341-1347. （EI）
 Xing Yi, Wang zhiqiang, Hong chen,et al.Parameter optimization of sludge co-conditioning based on RSM model.China Environmental Science,2014, 34(11): 2866-2873.（EI）
 Hong chen, Xing Yi*, Si yanxiao,et al. Influence of Fenton's Ｒeagent Oxidation on Sludge Dewaterability,Ｒesearch of Environmental Sciences, 2014, 27(6):615-622.（EI）
 Hong chen, Xing Yi*, Wang zhiqiang,et al. Dewatering performance of sludge modified by inorganic conditioner combined with surfactant, CIESC Journal, 2014, 65(3):1068-1075.（EI）
 Hong chen, Xing Yi*, Si yanxiao,et al. Impact of long-term heavy metals pollution on ammonia oxidizing microbial community in an iron mine soil, China Environmental Science, 2014,34(5)：259-265.（EI）
 Tong zhensong, en, Xing Yi*, Relationship between extracellular polymeric substances and bound water in sludge with surfactant conditioning, Journal of Central South University (Science and Technology), 2014, 45(8): 2913-2919.（EI）
 Hong chen, Xing Yi*, Wang zhiqiang,et al.Influence of surfactant conditioning on sludge dewaterability in various PH value, Journal of Zhejinag University (Engineering Science,)2014, 48(5):850-857. （EI）
 Zhang kun, Xing Yi*, Hong chen,et al. Effect of utilizing lime mediated sludge to produce cement on cement Performance, Journal of University of Science and Technology Beijing, 2013,35(12): 1628-1635.（EI）
 Xing Yi, Hong chen, Zhao fan, et al. Dewatering performance of sludge modified by desulfurization ash, CIESC Journa, 2013, 64(5):1810-1818.（EI）
 Xing Yi, Hong chen, Zhang kun, et al. Lime-mediated sewage sludge partly replacing fluxes as metallurgy sintering ingredients, Journal of University of Science and Technology Beijing, 2013, 35(2): 148-154. （EI）
 “Environment Project Microbiology ”, Metallurgical Engineering Press, 2008.11.
 “Principle and technology of environmental monitoring”, China Machine Press, 2008.10.
 “Environmental Biotechnology”, School teaching materials of University of Science and Technology Beijing, 2006.7.
 “Environmental monitoring and assessment”, School teaching materials of University of Science and Technology Beijing, 2004.8.
 “How to be a qualified Supervisor”, Metallurgical industry press, 2007.11.
 “A method for excess sludge conditioning and dewatering”, ZL 201310004357.2
 “A method of handling banknote printing wastewater by combining modified bentonite with photo Fenton”, ZL 201210012991.6
 “A method of excess sludge treatment”, ZL 201110057411.0
 “A method of excess sludge treatment using desulfurized lime”, ZL 201110057413.x
 “A treatment method of high heat value excess sludge”, ZL 201110057325.x
 “A treatment method of low calorific value excess sludge”, ZL 201110057038.9
 “A cleaning separator for dynamic liquid level particle”, ZL 201110107823.6
 “A purification method of storing reducing type nitrogen oxide at low temperature”, ZL 200910242368.8