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Zhang Junying

Time:December 22, 2021 Editor:Tang Shiqing Source:

Professor

Tel: 86-27-87542417-8208

E-mail: jyzhang@hust.edu.cn

Academic Areas:

Nonconventional Pollutant Emission and control

Research Interests

● Nonconventional Pollutant Emission and Control Technology

● CO₂ Mineralization and Utilization Technology

● Clean Coal Technology

Academic Degrees

1999: Ph.D. in China University of Mining and Technology (Beijing)

1990: M.S., in China University of Mining and Technology

1985: B.S. in China University of Mining and Technology

Professional Experience

2004-present: Professor, State key laboratory of coal combustion, HUST (2008: Instituto Nacional del Carbón(INCAR), CSIC, Spain)

2001-2004: Associate professor, State key laboratory of coal combustion, HUST

1999-2001: Postdoctor, Nanjing University of Science and Technology

1990-1996: Lecturer; Taiyuan University of Technology

1985-1987: assistant; Taiyuan University of Technology

Selected Publications

1. Junying Zhang, Yongchun Zhao, Jing Li, Hailong Li, Jianping Yang. Mercury removal from coal combustion flue gas by nocarbon sorbents. Science Press, 2020 (In Chinese)

2. Yongchun Zhao, Hailong LI, Jianping Yang, Junying Zhang, Chuguang Zheng. Junying Zhang Emission and control of trace elements from coal-derived flue gas. Elsevier, 2019

3. Chuguang Zheng, Junying Zhang, Yongchun Zhao, Jing Liu, Xin Guo. Emission and control of mercury from coal combustion. Science Press, 2010 (In Chinese)

4. Deyi Ren, Fenghua Zhao, Shifeng Dai, Junying Zhang, Kunli Luo. Geochemistry of trace elements in coal. Science Press, 2006 (In Chinese)

5. Yili Zhang, Yongchun Zhao, Zhuo Xiong, Tian Gao, Rihong Xiao, Pengfei Liu, Jing Liu, Junying Zhang. Photo- and thermo-catalytic mechanisms for elemental mercury removal by Ce doped commercial selective catalytic reduction catalyst (V2O5/TiO2). Chemosphere，2022,287:132336

6. Yili Zhang, Yongchun Zhao, Zhuo Xiong, Tian Gao, Rihong Xiao, Pengfei Liu, Jing Liu, Junying Zhang. Enhanced photocatalytic Hg0 oxidation activity of iodine doped bismuth molybdate (Bi2MoO6) under visible light. Journal of Colloid and Interface Science,2022,607:1864-1875

7. Yili Zhang, Yongchun Zhao, Zhou Xiong, Tian Gao, Bengen Gong, Pengfei Liu, Jing Liu, Junying Zhang. Elemental mercury removal by I--doped Bi2WO6 with remarkable visible-light-driven photocatalytic oxidation. Applied Catalysis B: Environmental, 2021，282：119534

8. Huan Liu, Zhuo Xiong, Rong Peng, Bengen Gong, Jianping Yang, Yongchun Zhao, Junying Zhang. Elemental mercury removal from simulated coal-fired flue gas by modified tonstein in coal seam. Fuel, 2021,284:1116

9. Ruifeng Peng, Yumin Chen，Baoxu Zhang，Zhipeng Li，Xin Cui，Chuwen Guo，Yongchun Zhao，Junying Zhang. Tailoring the Stability of Ni-Fe/mayenite in Methane - Carbon Dioxide Reforming, Fuel, 2021,284:118909

10. Lin Chang，Yongchun Zhao，Yi Zhang，Xuehai Yu，Zenghua Li，Bengen Gong，Huan Liu，Shuzhou Wei，Hao Wu，Junying Zhang. Mercury species and potential leaching in sludge from coal-fired power plants. Journal of Hazardous Materials，2021,403：123927

11. Chong Tian，Bengen Gong，Xiaochuan Wang，Yongchun Zhao，Junying Zhang. Ash formation and trace elements associations with fine particles in an ultra-low emission coal-fired power plant,2021,Fuel,288:119718

12. Liu, H; Chen, Y; Gao, T; Yang, GZ; Wang, Y; Zhou, YM; Yang, JP; Zhao, YC; Guo, X; Zhang, JY. Elemental mercury removal from flue gas using modified tonstein: Performance of adsorbent injection at an entrained flow reactor system and 50-MW coal-fired power plant in China.JOURNAL OF CLEANER PRODUCTION, 2021, 287: 124998

13. Zhang, Zhen; Liu, Jing; Wang, Zhen; Zhang, Junying. Bimetallic Fe-Cu based metal-organic frameworks as efficient adsorbents for gaseous elemental mercury removal. Industrial & Engineering Chemistry Research,2021,60(1):781-789

14. Yang, Jianping; Xu, Hong; Zhao, Yongchun; Li, Hailong; Zhang, Junying. Mercury removal from flue gas by non-carbon sorbents. Energy & Fuels, 2021,35: 3581-3610

15. Wang, Junyi; Li, Youzi; Zhao, Jiangting; Xiong, Zhuo; Zhang, Junying; Zhao, Yongchun. Reversed selectivity of photocatalytic CO2 reduction over metallic Pt and Pt(ii) oxide cocatalysts. PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 2021, 23(15):9407-9417.

16. Yi Du, Changqing Fu, Bengen Gong, Endong Miao, Xufan Zheng, Zhuo Xiong, Yongchun Zhao, Junying Zhang. Real-time investigation of the CO2 sequestration through direct aqueous carbonation of semidry desulfurization slag. Journal of CO2 Utilization, 2021, 51:101614

17. Endong Miao, Yi Du, Hongyue Wang, Zhuo Xiong, Yongchun Zhao, Junying Zhang. Experimental study and kinetics on CO2 sequestration by the direct carbonation of pepper stalk ash. Fuel,2021,303:121230

18. Yingni Yu, Yingju Yang, Jing Liu, Junyan Ding, Junying Zhang. Nanosized Cu-In spinel-type sulfides as efficient sorbents for elemental mercury removal from flue gas. Science of the Total Environment, 2021, 796:149094

19. Yili Zhang, Yongchun Zhao, Zhou Xiong, Rihong Xiao, Tian Gao, Pengfei Liu, Jing Liu, Junying Zhang. Fabrication of Z-scheme VO-Bi2WO6/g-C3N4 heterojunctioned composite with visible-light-driven photocatalytic performance for elemental mercury removal. Chemical Engineering Journal, 2021, 425:131537

20. Xiaoshuai Wang, Yuegang Tang, Harold H.Schobert, TengdaMa, Sarma V.Pisupati, Junying Zhang, Yifan Chen. Partitioning behavior during coal combustion of potentially deleterious trace elements in Ge-rich coals from Wulantuga coal mine, Inner Mongolia, China. Fuel, 2021, 305: 121595

21. Aijia Zhang, Yingju Yang, Jing Liu, Yingni Yu, Junyan Ding, Junying Zhang. Atomic-level mechanism of the effects of NOx species on Pb adsorption over the Al2O3 sorbent surface,Applied Surface Science, 2021, 570:151217

22. GAO Tian, ZHANG YiLi, QIU YaQin, XIONG Zhuo, YANG JianPing, ZHAO YongChun, ZHANG JunYing. Mercury removal performance over a Ce-doped V-W/TiO2 catalyst in an internally illuminated honeycomb photoreactor. Sci China Tech Sci, 2021, 64 (11): 2441-2452

23. Jiangting Zhao, Zhuo Xiong, Yongchun Zhao, Junyi Wang, Yaqin Qiu, Pengfei Liu, Junying Zhang. 2D/2D Heterostructure of Metal-Free Ultrathin Graphdiyne/Carbon Nitride Nanosheets for Enhanced Photocatalytic Reduction of Carbon Dioxide with Water. ACS Applied Energy Materials. 2021, 4, 12403−12410

24. Huan Liu, Lin Chang, Weijie Liu, Yongchun Zhao, Junying Zhang. Advances in mercury removal from coal-fired flue gas by mineral adsorbents. Chemical Engineering Journal,2020,379:122263

25. Yi Du，Changqing Fu，Zhejun Pan，Shuxun Sang，Wenfeng Wang，Shiqi Liu，Yongchun Zhao,Junying Zhang. Geochemistry effects of supercritical CO2 and H2O on the mesopore and macropore structures of high-rank coal from the Qinshui Basin, China. International Journal of Coal Geology,2020,223:103467

26. Zhou, YM; Yang, JP; Dong, LC; Gao, T; Li, ZH; Ji, YS; Zhao, YC; Pan, SW; Zhang, JY; Zheng, CG. Removal of elemental mercury from flue gas by recyclable CuCl2 modified magnetospheres from fly ash: Part 5. Industrial scale studies at a 50 MWth coal-fired power plant. FUEL,2020, 266:117052

27. Xin, F; Ma, SM; Yang, JP; Zhao, YC; Zhang, JY; Zheng, CG. Photocatalytic removal of elemental mercury via Ce-doped TiO2 catalyst coupling with a novel optical fiber monolith reactor. ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH，2020,27:21281–21291

28. Xiong, Z; Xu, ZW; Li, YZ ; Dong, LC; Wang, JY; Zhao, JT; Chen, XX; Zhao, YC; Zhao, HB; Zhang, JY. Incorporating highly dispersed and stable Cu+ into TiO2 lattice for enhanced photocatalytic CO2 reduction with water. APPLIED SURFACE SCIENCE，2020,507: 145095

29. Chen, YM; Zhang, BX; Peng, RF; Chuai, X; Cui, X; Kang, BK; Yan, WJ; Zhang, JY. Comprehensive Modeling of Sorption-Enhanced Steam Reforming of Coke Oven Gas in a Fluidized Bed Membrane Reactor. ENERGY & FUELS,2020,34(3):3065-3086

30. Chen, Y; Liu, H; Guo, X; Wu, F; Zhao, YC; Zhang, JY. Performance of CuCl2-Modified Activated Carbon on Mercury Capture after Injection in an Entrained Flow Reactor. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH，2020, 59(13):5557-5565

31. Zhang, BX, Chen, YM, Kang, BK, Qian, JF, Chuai, X,Peng, RF,Li, ZP,Guo, FQ,Yan, WJ, Zhang, JY. Hydrogen production via steam reforming of coke oven gas enhanced by steel slag-derived CaO. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY，2020,45(24):13231-13244

32. Yili Zhang,Yongchun Zhao,Yingju Yang,Pengfei Liu,Jing Liu,Junying Zhang. DFT study on Hg0 adsorption over graphene oxide decorated by transition metals (Zn, Cu and Ni). Applied Surface Science,2020,525(30): 146519

33. Shibo Zhang, Qingzhu Zhang, Yongchun Zhao, Jianping Yang, Yang Xu and Junying Zhang. Enhancement of CeO2 modified commercial SCR catalyst for synergistic mercury removal from coal combustion flue gas. RSC Advances, 2020, 10, 25325 – 25338

34. Bengen Gong, Chong Tian, Zhuo Xiong, Yan Yang, Jun Wu, Wenju Li, Yi Du, Huan Liu, Yi Wang, Yongchun Zhao, Junying Zhang. Effects of temperature, atmosphere, silicon occurrences on fine particle formation from vaporization during high-silicon coal combustion. Fuel,2020, 280:118649

35. Danyan Cheng, Qirun Yong, Yongchun Zhao, Bengen Gong, Junying Zhang. Study on the Carbothermal Interaction of the Fe-based Oxygen Carrier with Ashes. ENERGY & FUELS,2020,34:9796-9809

36. Liangchen Dong，Zhuo Xiong，Yuming Zhou，Jiangting Zhao，Youzi Li，Junyi Wang，Xiaoxiang Chen，Yongchun Zhao，Junying Zhang. Photocatalytic CO2 reduction over postcalcinated atomically thin TiO2 nanosheets: Residual carbon removal and structure transformation .Journal of CO2 Utilization,2020,41:101262

37. Lin Chang, Yi Zhang, Huan Liu, Rong Peng, Xuehai Yu, Yongchun Zhao, Junying Zhang. Migration and identification of mercury species in wet flue gas desulfurization system using temperature programmed decomposition. Journal of Cleaner Production，2020，276:124211

38. HuanLiu，YuChen，TianGao，GangzhongYang，YiWang，YumingZhou，JianpingYang，YongchunZhao，XinGuo，JunyingZhang. Elemental mercury removal from flue gas using modified tonstein: Performance of adsorbent injection at an entrained flow reactor system and 50-MW coal-fired power plant in China. Journal of Cleaner Production, 2020, 124998

39. Huan Liu, Yongchun Zhao, Yuming Zhou, Lin Chang, Junying Zhang, Removal of gaseous elemental mercury by modified diatomite, Science of the Total Environment, 2019, 652: 651~659.

40. Lin Chang, Jianping Yang, Yongchun Zhao, Junying Zhang, Chuguang Zheng. The fate and behavior of As, Se, and Cd in ultra-low emission coal fired power plant. Journal of Cleaner Production,2019,209: 722-730

41. Jianping Yang, Wenbing Zhu, Shibo Zhang, Mingguang Zhang, Wenqi Qu, Hailong Lia,Zhiyong Zeng, Yongchun Zhao, Junying Zhang. Role of flue gas components in Hg0 oxidation over La0.8Ce0.2MnO3 perovskite catalyst in coal combustion flue gas. Chemical Engineering Journal, 2019, 360:1656-1666

42. Zhang, SB; Diaz-Somoano, M; Zhao, YC; Yang, JP; Zhang, JY. Research on the Mechanism of Elemental Mercury Removal over Mn-Based SCR Catalysts by a Developed Hg-TPD Method. ENERGY & FUELS, 2019, 33(3): 2467-2476

43. Yi Du, Shuxun Sang, Zhejun Pan, Wenfeng Wang, Shiqi Liu, Changqing Fu, Yongchun Zhao, Junying Zhang. Experimental study of supercritical CO2-H2O-coal interactions and the effect on coal permeability. Fuel, 2019, 253:369-382

44. Zhou, YM; Zhao, YC; Zhang, JY; Zheng, CG. Mercury adsorption and oxidation over magnetic biochar in oxyfuel combustion atmosphere: Impact of enriched CO2 and H2O. FUEL,2019, 251:458-465

45. Yuming Zhou, Jianping Yang, Yili Zhang, Yi Zhang, Xuehai Yu, Yongchun Zhao, Junying Zhang, and Chuguang Zheng. Role of SO3 in Elemental Mercury Removal by Magnetic Biochar. Energy Fuels 2019, 33, 11446−11453

46. Yumin Chen, Ruifeng Peng, Yao Xiao, Baoxu Zhang, Weijie Yan, Yongchun Zhao, Junying Zhang. Efficient Hydrogen Production from Coke Oven Gas by Sorption-Enhanced Steam Reforming in a Membrane-Assisted Fluidized Bed Reactor. Energy Fuels 2019, 33, 11420−11438

47. Guo YQ, Zhao YC, Wang SL, Jiang C, Zhang JY. Relationship between the Zeta Potential and the Chemical Agglomeration Efficiency of Fine Particles in Flue Gas during Coal Combustion. Fuel, 2018, 215: 756-765.

48. Yang, JP; Zhao, YC; Liang, SF; Zhang, SB; Ma, SM; Li, HL; Zhang, JY; Zheng, CG. Magnetic iron-manganese binary oxide supported on carbon nanofiber (Fe3-xMnxO4/CNF) for efficient removal of Hg-0 from coal combustion flue gas. CHEMICAL ENGINEERING JOURNAL,2018,334: 216-224

49. Zhuo Xiong, Chia-Chien Kuang, Kuan-Yu Lin, Ze Lei, Xiaoxiang Chen, Bengen Gong,Jianping Yang, Yongchun Zhao, Junying Zhang, Baoyu Xia, Jeffrey C.S. Wu. Enhanced CO2 photocatalytic reduction through simultaneously accelerated H2 evolution and CO2 hydrogenation in a twin photoreactor. Journal of CO2 Utilization, 2018, 24:500–508

50. Yang, JP; Zhao, YC; Guo, X; Li, HL; Zhang, JY; Zheng, CG. Removal of elemental mercury from flue gas by recyclable CuCl2 modified magnetospheres from fly ash. Part 4. Performance of sorbent injection in an entrained flow reactor system. Fuel,2018,220: 403-411

51. Zhao, YC; Yang, JP; Ma, SM; Zhang, SB; Liu, H; Gong, BG; Zhang, JY; Zheng, CG .Emission controls of mercury and other trace elements during coal combustion in China: a review. INTERNATIONAL GEOLOGY REVIEW,2018,60(5-6):638-670

52. Quan Zhou, Yongfeng Zhang , Junying Zhang , Daqian Ding. Evolution behaviors of nitrogen functionalities during fast CO2-rich pyrolysis of coal. Fuel, 2018, 229:135–143

53. Lei, Z; Xiong, Z; Wang, YC; Chen, YX; Cao, DS; Zhao, YC; Zhang, JY; Zheng, CG. Photocatalytic reduction of CO2 over facet engineered TiO2 nanocrystals supported by carbon nanofibers under simulated sunlight irradiation. CATALYSIS COMMUNICATIONS. 2018, 108: 27-32

54. Zhang, SB; Zhao, YC ; Yang, JP; Zhang, JY ; Zheng, CG. Fe-modified MnOx/TiO2 as the SCR catalyst for simultaneous removal of NO and mercury from coal combustion flue gas.CHEMICAL ENGINEERING JOURNAL,2018,348:618-629

55. Bengen Gong, Qirun Yong, Zhuo Xiong, Chong Tian, Jianping Yang, Yongchun Zhao，Junying Zhang. Mineral matter and trace elements in ashes from a high-arsenic lignite fired power plant in Inner Mongolia, China. International Journal of Coal Geology, 2018, 196:317-334

56. Xiong, Z; Lei, Z; Li, YZ; Dong, LC; Zhao, YC; Zhang, JY. A review on modification of facet-engineered TiO2 for photocatalytic CO2 reduction. JOURNAL OF PHOTOCHEMISTRY AND PHOTOBIOLOGY C-PHOTOCHEMISTRY REVIEWS，2018, 36: 24-47

57. Yang, JP ; Zhang, MG; Li, HL; Qu, WQ ; Zhao, YC; Zhang, JY. Simultaneous NO Reduction and Hg-0 Oxidation over La0.8Ce0.2MnO3 Perovskite Catalysts at Low Temperature. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2018, 57(29): 9374-9385

58. Zhang, SB; Zhao, YC; Diaz-Somoano, M; Yang, JP; Zhang, JY. Synergistic Mercury Removal over the CeMnO3 Perovskite Structure Oxide as a Selective Catalytic Reduction Catalyst from Coal Combustion Flue Gas. ENERGY & FUELS, 2018,32(11):11785-11795

59. Jianping Yang，Siming Ma， Yongchun Zhao，Hailong Li，Junying Zhang，Chuguang Zheng. Elemental Mercury Removal from Flue Gas over TiO2 Catalyst in an Internal-Illuminated Honeycomb Photoreactor. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2018, 57: 17348-17255

60. Wang, Lulu; Zhao, Yongchun; Zhang, Junying. Comprehensive Evaluation of Mercury Photocatalytic Oxidation by Cerium-Based TiO2 Nanofibers. INDUSTRIAL&ENGINEERING CHEMISTRY RESEARCH , 2017,56(14): 3804-3812

61. Wang, Lulu; Zhao, Yongchun; Zhang, Junying. Photochemical Removal of SO2 over TiO2-Based Nanofibers by a Dry Photocatalytic Oxidation Process. ENERGY & FUELS， 2017,31(9):9905-9914

62. Wang, LL; Zhao, YC; Zhang, JY. Electrospun cerium-based TiO2 nanofibers for photocatalytic oxidation of elemental mercury in coal combustion flue gas. Chemosphere, 2017,85: 690-698

63. Guo Yiquan, Zhang Junying, Zhao Yongchun, Wang Shaolong, Jiang Cheng, Zheng Chuguang. Chemical agglomeration of ﬁne particles in coal combustion ﬂue gas: Experimental evaluation. Fuel,2017,203:557-569

64. Zhang, Shibo; Zhao, Yongchun; Wang, Zonghua, Zhang, Junying; Wang, Lulu ; Zheng, Chuguang. Integrated removal of NO and mercury from coal combustion flue gas using manganese oxides supported on TiO2. Journal of Environmental Sciences, 2017,53: 141-150

65. Shibo Zhang, Yongchun Zhao, Jianping Yang, Jing Liu, Yi Zhang, Xuehai Yu, Junying Zhang, Chuguang Zheng. Simultaneous NO and mercury removal over MnO_x/TiO₂ catalyst in different atmospheres. Fuel Processing Technology, 2017,166: 282-290

66. Lin Chang, Yongchun Zhao, Hailong Li, Chong Tian, Yi Zhang, Xuehai Yu, Junying Zhang. Effect of sulﬁte on divalent mercury reduction and re-emission in a simulated desulfurization aqueous solution. Fuel Processing Technology,2017,165 :138–144

67. Xuehai Yu，Bengeng Gong，Quan Gao，Yongchun Zhao，Chong Tian，Junying Zhang. Investigation of fireside corrosion at water-cooled wall from a coal-fired power plant in China. Applied Thermal Engineering. 2017, 127C:1164-1171.

68. Peng Ni, Chong Tian, Hailong Li, Yongchun Zhao, Junying Zhang, Chuguang Zheng. Relation between leaching characteristics of heavy metals and physical properties of fly ashes from typical municipal solid waste (MSW) incinerators. Environmental Technology，2017, 38(17): 2105-2118

69. Peng Ni, Zhuo Xiong, Chong Tian, Hailong Li, Yongchun Zhao, Junying Zhang, Chuguang Zheng.Inﬂuence of carbonation under oxy-fuel combustion ﬂue gas on the leachability of heavy metals in MSWI ﬂy ash. Waste Management,2017,67: 171-180

70. Zhuo Xiong, Ze Lei, Bengen Gong, Xiaoxiang Chen, Yongchun Zhao, Junying Zhang, Chuguang Zheng, Jeffrey C.S. Wu. A novel reaction mode using H2 produced from solid-liquid reaction to promote CO2 reduction through solid-gas reaction. Catalysis Communications. 2017, 89:4–8.

71. Xiong, Z; Lei, Z; Ma, SM; Chen, XX; Gong, BG; Zhao, YC; Zhang, JY; Zheng, CG; Wu, JCS .CO2 photocatalytic reduction over Pt deposited TiO2 nanocrystals with coexposed {101} and {001} facets: Effect of deposition method and Pt precursors Catalysis Communications. 2017, 96:1–5.

72. Xiong, Z; Lei, Z; Ma, SM; Chen, XX; Gong, BG; Zhao, YC ; Zhang, JY ; Zheng, CG; Wu, JCS . Photocatalytic CO2 reduction over V and W codoped TiO2 catalyst in an internal-illuminated honeycomb photoreactor under simulated sunlight irradiation. APPLIED CATALYSIS B-ENVIRONMENTAL,2017,219:412-424

73. Zhuo Xiong, Ze Lei, Chia-Chien Kuang, Xiaoxiang Chen, Bengen Gong, Yongchun Zhao , Junying Zhang , Chuguang Zheng, Jeffrey C.S. Wu. Selective photocatalytic reduction of CO2 into CH4 over Pt-Cu2O /TiO2 nanocrystals: The interaction between Pt and Cu2O cocatalysts. Applied Catalysis B:Environmental. 2017，202: 695-703

74. Xiong, Z; Lei, Z; Xu, ZW; Chen, XX; Gong, BG; Zhao, YC; Zhao, HB; Zhang, JY; Zheng, CG . Flame spray pyrolysis synthesized ZnO/CeO2 nanocomposites for enhanced CO2 photocatalytic reduction under UV-Vis light irradiation. JOURNAL OF CO2 UTILIZATION,2017,18: 53-61

75. Zhang, Y , Yang, JP , Yu, XH , Sun, P , Zhao, YC, Zhang, JY, Chen, G , Yao, H , Zheng, CG. Migration and emission characteristics of Hg in coal-fired power plant of China with ultra low emission air pollution control devices. Fuel Processing Technology,2017, 158: 272-280

76. Luo, ZX， Cheng, WF，Wu, B，Zhao, YC ，Zhang, JY. A mode transition strategy from air to oxyfuel combustion in a 35 MW coal-fired power plant boiler. KOREAN JOURNAL OF CHEMICAL ENGINEERING.2017,34(5):1554-1562

77. Yumin Chen,John R. Grace,Yongchun Zhao,Junying Zhang. Multi-fluid reactive modeling of sorption enhanced steam reforming of coke oven gas in fluidized bed. Fuel， 2017, 204:152–170

78. Huan Liu, Jianping Yang, Chong Tian, Yongchun Zhao, Junying Zhang. Mercury removal from coal combustion ﬂue gas by modiﬁed palygorskite adsorbents. Applied Clay Science，2017,147: 36-43

79. Yang, JP, Ma, SM, Zhao, YC, Zhang, JY, Liu, ZH, Zhang, SH, Zhang, Y, Liu, YM, Feng, YX, Xu, K. Mercury emission and speciation in fly ash from a 35 MWth large pilot boiler of oxyfuel combustion with different flue gas recycle. FUEL,195: 174-181

80. Yang, JP; Zhao, YC; Zhang, SB; Liu, H; Chang, L; Ma, SM; Zhang, JY; Zheng, CG. Mercury removal from flue gas by magnetospheres present in fly ash: Role of iron species and modification by HF. FUEL PROCESSING TECHNOLOGY,2017,167:263-270

81. Ma, SM; Zhao, YC; Yang, JP; Zhang, SB; Zhang, JY; Zheng, CG. Research progress of pollutants removal from coal-fired flue gas using non-thermal plasma. RENEWABLE & SUSTAINABLE ENERGY REVIEWS,2017,67:791-810

82. Tian, Chong; Gupta, Rajender; Zhao, Yongchun; Zhang, Jun Ying. Release behaviors of arsenic in fine particles generated from a typical high arsenic coal at high temperature. Energy & Fuels,2016,30(8):6201–6209

83. Xiaoxiang Chen, Zhuo Xiong, Yadi Qin, Bengen Gong, Chong Tian, Yongchun Zhao, Junying Zhang, Chuguang Zheng. High-temperature CO2 sorption by Ca-doped Li4SiO4 sorbents. International Journal of Hydrogen Energy.2016,41:13077-13085

84. Bengen Gong; Chong Tian; Zhuo Xiong; Yongchun Zhao. Junying Zhang. Mineralogical changes and trace elements released during extraction of alumina from high aluminum fly ash in Inner Mongolia, China. International Journal of Coal Geology,2016,166:96–107

85. Jianping Yang, Yongchun Zhao, Junying Zhang, Chuguang Zheng. Removal of elemental mercury from flue gas by recyclable CuCl 2 modified magnetospheres catalyst from fly ash. Part 1. Catalyst characterization and performance evaluation. Fuel, 2016, 164: 419-428.

86. Jianping Yang, Yongchun Zhao, Junying Zhang, Chuguang Zheng. Removal of elemental mercury from flue gas by recyclable CuCl2 modified magnetospheres catalyst from fly ash. Part 2. Catalyst characterization and performance evaluation. Fuel, 2016, 164: 429-441.

87. Jianping Yang, Yongchun Zhao, Junying Zhang, Chuguang Zheng. Removal of elemental mercury from ﬂue gas by recyclable CuCl2 modiﬁed magnetospheres catalyst from ﬂy ash. Part 3. Regeneration performance in realistic ﬂue gas atmosphere. Fuel, 2016, 173: 1-7.

88. Jianping Yang; Dongyuan Liu; Yujing Wang; Yongchun Zhao; Yi Zhang; Junying Zhang; Chuguang Zheng. Release and the interaction mechanism of uranium and alkaline/alkaline-earth metals during coal combustion. Fuel,2016,186:405–413.

89. Zhuo Xiong, Ying Luo, Yongchun Zhao, Junying Zhang, Chuguang Zheng, Jeffrey C. S. Wu. Synthesis, characterization and enhanced photocatolytic CO2 reduction activity of grapheme supported TiO2 nancrystals with coexposed {001} and {101} facets. Physical Chemistry Chemical Physics,2016,18(19):13186-13195

90. Chong Tian, Qingye Lu, Yuxi Liu, Hongbo Zeng, Yongchun Zhao, Junying Zhang, Rajender Gupta. Understanding of physicochemical properties and formation mechanisms of ﬁne particular matter generated from Canadian coal combustion. Fuel ,2016,165: 224–234

91. Yumin Chen, C. Jim Lim, John R. Grace, Junying Zhang, Yongchun Zhao, Chuguang Zheng. Characterization of pressure fluctuations from a gas-solid fluidized bed by structure density function analysis. Chemical Engineering Science, 2015,129:156–167

92. Jianping Yang, Yongchun Zhao,Lin Chang, Junying Zhang, Chuguang Zheng. Mercury Adsorption and Oxidation over Cobalt Oxide Loaded Magnetospheres Catalyst from Fly Ash in Oxyfuel Combustion Flue Gas. Environ. Sci. Technol., 2015, 49: 8210−8218

93. Heng Yan, Junying Zhang, Yongchun Zhao, Rui Liu, Chuguang Zheng. CO2 sequstration by direct aqueous mineral carbonation under low-medium pressure conditions. Journal of Chemical Engineering of Japan, 2015,48(11): 937-946

94. Zhuo Xiong, Yongchun Zhao, Junying Zhang , Chuguang Zheng. Efﬁcient photocatalytic reduction of CO2 into liquid products over cerium doped titania nanoparticles synthesized by a sol–gel auto-ignitedmethod. Fuel Processing Technology, 2015,135: 6–13

95. Zhuo Xiong , Haibing Wang , Nuoyan Xu , Hailong Li, Baizeng Fang,Yongchun Zhao, Junying Zhang, Chuguang Zheng . Photocatalytic reduction of CO2 on Pt²⁺-Pt ⁰/TiO2 nanoparticles under UV/Vis light irradiation: A combination of Pt ²⁺doping and Pt nanoparticles deposition. international journal of hydrogen energy,2015, 40: 10049 -10062

96. Chong Tian, Junying Zhang, Yongchun Zhao, Rajender Gupta. Understanding of mineralogy and residence of trace elements in coals via a novel method combining low temperature ashing and ﬂoat-sink technique. International Journal of Coal Geology，2014, 131:162–171

97. Bingkai Zhang, Jing Liu, Junying Zhang, Chuguang Zheng, Ming Chang.Mercury oxidation mechanism on Pd(100) surface from ﬁrst-principles calculations. Chemical Engineering Journal,2014,237:344–351

98. Yumin Chen, Andres Mahecha-Botero, C. Jim Lim, John R. Grace, Junying Zhang, Yongchun Zhao, and Chuguang Zheng. Hydrogen Production in a Sorption-Enhanced Fluidized-Bed Membrane Reactor: Operating Parameter Investigation. Industrial & Engineering Chemistry Research, 2014,53:6230-6240

99. Jianping Yang, Yongchun Zhao, Vladimir Zyryanov, Junying Zhang, Chuguang Zheng. Physical-chemical characteristics and elements enrichment of magnetospheres from coal fly ashes. Fuel, 2014, 135, 15–26.

100. Jianping Yang, Yongchun Zhao, Vladimir Zyryanov, Junying Zhang, Chuguang Zheng. A regenerable cobalt oxide loaded magnetosphere catalyst from fly ash for mercury removal in coal combustion flue gas. Environ. Sci. Technol. 2014;48:14837–43.

101. Li, H., Wu, C.-Y., Li, Y., Li, L., Zhao, Y., Zhang, J. Impact of SO2 on elemental mercury oxidation over CeO2-TiO2 catalyst. Chemical Engineering Journal, 2013,219:319-326

102. Yumin Chen, Yongchun Zhao, Chuguang Zheng, Junying Zhang. Numerical study of hydrogen production via sorption-enhanced steam methane reforming in a ﬂuidized bed reactor at relatively low temperature. Chemical Engineering Science, 2013,92: 67–80

103. Yongchun Zhao, Junying Zhang, Chuguang Zheng. Release and removal using sorbents of chromium from a high-Cr lignite in Shenbei coalfield, China. Fuel, 2013,109:86-93

104. Hailong Li, Chang-Yu Wu, Liqing Li, Ying Li, Yongchun Zhao, Junying Zhang. Kinetic modeling of mercury oxidation by chlorine over CeO2–TiO2 catalysts. Fuel,2013,726-732

105. YAN Heng, ZHANG JunYing, ZHAO YongChun, ZHENG ChuGuang. CO₂ Sequestration from Flue Gas by Direct Aqueous Mineral Carbonation of Wollastonite. Sci China Tech Sci,2013, 56(9):2219-2227

106. Yuan Yuan, Junying Zhang, Hailong Li, Yang Li, Yongchun Zhao, Chuguang Zheng. Simultaneous Removal of SO2, NO and Mercury using TiO2-Aluminum Silicate Fiber by Photocatalysis. Chemical Engineering Journal,2012, 192(1):21–28.

107. Yongchun Zhao, Junying Zhang, Chuguang Zheng. Transformation of aluminum-rich minerals during combustion of a bauxite-bearing Chinese coal, International Journal of Coal Geology, 2012, 94, 182-190.

108. Feng Ding, Yongchun Zhao, Liangliang Mi, hailong Li, Yang Li, and Jun Ying Zhang. Removal of Gas-Phase Elemental Mercury in Flue Gas by Inorganic Chemically Promoted Natural Mineral Sorbents. Industrial & Engineering Chemistry Research, 2012, 51(7): 3039-3047

109. Zonghua Wang, Junying Zhang, Yongchun Zhao and Chuguang Zheng. Relationship between nitrogenous species in coals and volatile nitrogen-containing yields during pyrolysis. Asia-Pacific Journal of Chemical Engineering, 2012, 7: 124–130

110. Hailong Li, Chang-Yu Wu, Ying Li, Junying Zhang. Superior activity of MnO_x-CeO₂/TiO₂ catalyst for catalytic oxidation of elemental mercury at low flue gas temperatures, Applied catalysis B: Environmental, 2012,111: 381-388

111. Yuan Yuan, Yongchun Zhao, Hailong Li, Yang Li, Xiang Gao, Chuguang Zheng, Junying Zhang. Electrospun Metal Oxide-TiO2 Nanofibers for Elemental Mercury Removal from Flue Gas. Journal of Hazardous Materials,2012, 227–228: 427–435

112. Yang Li, Junying Zhang, Yongchun Zhao, Chuguang Zheng. Volatility and Speciation of Mercury during Pyrolysis and Gasification of Five Chinese Coals. Energy & Fuels. 2011, 25(9): 3988-3996

113. Hailong Li, Ying Li, Chang-Yu Wu, Junying Zhang. CeO₂–TiO₂ Catalysts for Catalytic Oxidation of Elemental Mercury in Low-Rank Coal Combustion Flue Gas. Environmental Science & Technology, 2011, 45, 7394–7400

114.Hailong Li, Junying Zhang, Yongchun Zhao, Chang-Yu Wu, Chuguang Zheng. Wettability of typical fly ashes from four coal-fired power plants in China. Industrial Engineering Chemistry Research, 2011, 50 (13): 7763–7771

115.Hailong Li, Ying Li, Chang-Yu Wu, Junying Zhang. Oxidation and capture of elemental mercury over SiO₂-TiO₂-V₂O₅ catalysts in simulated low-rank coal combustion flue gas. Chemical Engineering Journal, 2011, 169 (1-3): 186-193

116.Chen Y M, Zhao Y C, Zhang J Y, Zheng C G. Hydrogen production through CO2 sorption-enhanced methane steam reforming: Comparison between different adsorbents. Sci China Tech Sci, 2011, 54:2999-3008

117.WANG Yun, ZHANG JunYing, ZHAO YongChun, LI ZhongYuan, ZHENG ChuGuang. Exergy life cycle assessment model of "CO₂ zero-emission" energy system and application. SCIENCE CHINA, Technological Sciences, 2011,54(12):3296-3303

118.Junying Zhang, Yongchun Zhao, Chao Wei, Xinyu Shao, Chuguang Zheng. Mineralogy and microstructure of ash deposits from a coal-fired power plant in China. International Journal of Coal Geology, 2010,81:309-319

119.Yongchun Zhao, Junying Zhang, Chong Tian, Hailong Li, Xinyu Shao, and Chuguang Zheng. Mineralogy and Chemical Composition of High-Calcium Fly Ashes and Density Fractions from a Coal-Fired Power Plant in China. Energy & Fuels, 2010, 24, 834–843

120.Yongchun Zhao, Junying Zhang, Jing Liu, Mercedes Díaz-Somoano, Patricia Abad-Valle, M. Rosa Martínez-Tarazona, Chuguang Zheng. Study on mechanism of mercury oxidation by fly ash from coal combustion. Chinese Science Bulletin, 2010, 55(2):163-167

121.WANG Yun, ZHAO YongChun, ZHANG JunYing，ZHENG ChuGuang. Technical-economic evaluation of O2/CO2 recycle combustion power plant based on life-cycle. Science China Technological Sciences，2010,53(12): 3284–3293

122.Yongchun Zhao, Junying Zhang, Wenchun Huang, Yang Li, Dangyu Song, Fenghua Zhao, Chuguang Zheng. Arsenic Emission during Combustion of High-Arsenic Coals from Southwestern Guizhou, China, Energy Conversion and Management, 2008, 49(4): 615-624

123.Yongchun Zhao, Junying Zhang, Chen-Lin Chou, Yang Li, Zonghua Wang, Yintang Ge, Chuguang Zheng. Trace Element Emissions from Spontaneous Combustion of Gob Piles in Coal Mines, Shanxi, China. International Journal of Coal Geology, 2008, 73(1): 52-62

124.Song, D. Y.; Qin, Y.; Wang, W. F.; Zhang, J. Y.; Zheng, C. G., Geochemistry and modes of occurrence of hazardous trace elements in the No. 11 coal seam, Antaibao surface mine, Shanxi Province. Acta Geologica Sinica-English Edition 2007, 81(1): 135-140.

125.Song, D.; Qin, Y.; Zhang, J.; Wang, W.; Zheng, C., Concentration and distribution of trace elements in some coals from Northern China. International Journal of Coal Geology 2007, 69(3):179-19

126.Zhang Junying, Zhao Yongchun, Ding Feng, Zeng Hancai, Zheng Chuguang. Preliminary study of trace element emissions and control during coal combustion. Front. Energy Power Eng. China, 2007, 1(3): 273-279.

127.Yongchun Zhao, Junying Zhang, Junmin Sun, Xiangfei Bai, Chuguang Zheng. Mineralogy, chemical composition, and microstructure of ferrospheres in fly ashes from coal combustion. Energy & Fuels,2006, 20(4): 1490-1497

128.WEI Feng, ZHANG Jun-ying, ZHENG Chu-guang. Agglomeration rate and effect forces between atomized particles of agglomerator and inhaled-particles from coal combustion. Journal of Environment Science, 2005, 17(2): 335-339

129.Wei Feng, Zhang Jun-ying, Zheng Chu-guang. Submicron particle formation and growth mechanisms during combustion processes. Progress in Natural Science, 2005, 15(4): 358-362

130.Junying Zhang, Deyi Ren, Yanming Zhu, Chen-Lin Chou, Rongshu Zeng, Baoshan Zheng. Mineral Matter and Potentially Hazardous Trace Elements in Coals from Qianxi Fault Depression Area in Southwestern Guizhou, China. International Journal of Coal Geology, 2004, 57(1):49-61

131.J.Y. Zhang, C.G. Zheng, D. Y. Ren, C-L. Chou, J. Liu, R.S. Zeng, Z.P. Wang, F.H. Zhao, Y.T. Ge. Distribution of Potentially Hazardous Trace Elements in Coals from Shanxi Province, China, Fuel, 2004, 83(1):129-135

132.Junying Zhang, Deyi Ren, Chuguang Zheng, Rongshu Zeng, Chen-Lin Chou, Jing Liu. Trace element abundances in major minerals of Late Permian coals from southwestern Guizhou province, China. International Journal of Coal Geology, 2002, 53(1):55-64

Awards:

1. 2020 Science and Technology Innovation in Hubei Province (First Prize): Chemical Agglomeration Enhanced PM2.5 Removal and Desulfurization Wastewater Zero Discharge Technology and Equipment

2. 2008 Science and Technology Innovation of the Ministry of Education of the Peoples Republic of China (First Prize): The Formation Mechanisms and Emission Control of Submicron Particulate Matter from Combustion

3. 2008 Science and Technology Innovation of the Ministry of Education of the Peoples Republic of China (First Prize): Geochemistry of Trace Elements in Chinese Coal

Courses Taught

1. Basis of Coal Science

2. Principles of Modern Instrumental Analysis

Projects

1. Enrichment and differentiation of hazardous mineral matter in coal and influencing mechanism on their migration and transformation during thermal technology. National Natural Science Foundation of China (NSFC) (42030807) (2021-2025)

2. Chemical agglomeration enhanced fine particles removal and zero discharge of desulfurization wastewater. Key R& D Program of Hubei Province (2020BCA076）(2021-2023)

3. Hazardous organic waste clean-high efficiency -stable Incineration technology and equipment. National Key R&D Program of China (2019YFC1907000) (2020-2023)

4. CO2 mineralization technology and demonstration by coal-basis solid wastes. National Key R&D Program of China (2018YFB0605701) (2019-2022)

5. High-value utilization technology and demonstration of coal fly ash. National Key R&D Program of China (2017YFB0603101) (2017-2021)

6. Study on high-temperature mineralogy during high-silicon coal combustion. Natural Science Foundation of China (NSFC) (41672148) (2017-2020)

7. Distribution and enrichment mechanism and pollution prevention of hazardous trace elements in coals. 973 Program of China (973 Program) (2014CB238904) (2014-2018)

8. Study on fine particle agglomeration during coal combustion. Natural Science Foundation of China (NSFC) (51376074) (2014-2017)

9. Study on carbon dioxide sequestration by mineral carbonation. National Natural Science Foundation of China (NSFC) (40972102) (2010-2012)

10. Retention of toxic metals during coal combustion, National Basic Research Program of China (973 Program) (2006CB200304) (2006-2010)

11. Study on Mineralogy and Geochemistry during Coal Combustion, National Natural Science Foundation of China (NSFC) (40672098) (2006-2009)

12. Agglomeration technology of submicron particles in coal-fired power plants, Hi-Tech Research and Development Program of China “863”, (2006AA05Z303) (2006-2008),

13. Hazardous trace elements in self-burning coal gangue and their releases. National Natural Science Foundation of China (NSFC) (40272071) (2003-2005)

14. Study on the retention of arsenic pollution in coal combustion, National Natural Science Foundation of China (NSFC) (50176019) (2002-2004)

15. Retention of arsenic, selenium and agglomeration technology of fine particles in Coal combustion. Hi-Tech Research and Development Program of China “863”, (2002AA529200) (2002-2005)

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