博士 副教授
南京大学(仙林校区)环境学院B501室
江苏省南京市栖霞区仙林大道163号(210023)
手机:133-9076-7286
电子邮箱:lzhang12@nju.edu.cn
教育经历
博士学位论文《中国燃煤大气汞排放特征与协同控制策略研究》
工作及访学经历
研究领域
汞形态转化与控制机理
环境大气监测技术
期刊论文(被引频次统计于2020年2月22日;总被引频次:1336;h指数:21)
1. Zhang L, Wang S X, Wang L, Wu Y, Duan L, Wu Q R, Wang F Y, Yang M, Yang H, Hao J M, Liu X. Updated emission inventories for speciated atmospheric mercury from anthropogenic sources in China. Environmental Science and Technology, 2015, 49(5): 3185–3194.(被引频次:170;ESI高被引论文)
2. Zhang L, Wang S X, Meng Y, Hao J M. Influence of mercury and chlorine content of coal on mercury emissions from coal-fired power plants in China. Environmental Science and Technology, 2012, 46(11): 6385–6392.(被引频次:76)
3. Zhang L, Wang S X, Wang L, Hao J M. Atmospheric mercury concentration and chemical speciation at a rural site in Beijing, China: implication of mercury emission sources. Atmospheric Chemistry and Physics, 2013, 13(20): 10505–10516.(被引频次:43)
4. Zhang L, Wang S X, Wu Q R, Wang F Y, Lin C J, Zhang L M, Hui M L, Yang M, Su H T, Hao J M. Mercury transformation and speciation in flue gases from anthropogenic emission sources: a critical review. Atmospheric Chemistry and Physics, 2016, 16(4): 2417–2433.(被引频次:47)
5. Zhang L*, Zhou P S, Cao S Z, Zhao Y. Atmospheric mercury deposition over the land surfaces and the associated uncertainties in observations and simulations: a critical review. Atmospheric Chemistry and Physics, 2019, 19(24): 15587–15608.
6. Zhang L*, Jaffe D A. Trends and sources of ozone and sub-micron aerosols at the Mt. Bachelor Observatory (MBO) during 2004–2015. Atmospheric Environment, 2017, 165: 143–154.
7. Zhang L*, Jaffe D A, Gao X, McClure C D. A quantification method for peroxyacetyl nitrate (PAN) using gas chromatography (GC) with a non-radioactive pulsed discharge detector (PDD). Atmospheric Environment, 2018, 179: 23–30.
8. Zhang L, Wang S X, Wu Q R, Meng Y, Yang H, Wang F Y, Hao J M. Were mercury emission factors for Chinese non-ferrous metal smelters overestimated? Evidence from onsite measurements in six smelters. Environmental Pollution, 2012, 171: 109–117.(被引频次:36)
9. Zhang L, Daukoru M, Torkamani S, Wang S X, Hao J M, Biswas P. Measurements of mercury speciation and fine particle size distribution on combustion of China coal seams. Fuel, 2013, 104: 732–738.(被引频次:14)
10. Zhang L, Wang L, Wang S X, Dou H Y, Li J F, Li S, Hao J M. Characteristics and sources of speciated atmospheric mercury at a coastal site in the East China Sea region. Aerosol and Air Quality Research, 2017, 17(12): 2913–2923.
11. Wang S X, Zhang L, Li G H, Wu Y, Hao J M, Pirrone N, Sprovieri F, Ancora M P. Mercury emission and speciation of coal-fired power plants in China. Atmospheric Chemistry and Physics, 2010, 10(3): 1183–1192.(被引频次:231;ESI高被引论文)
12. Jaffe D A, Zhang L. Meteorological anomalies lead to elevated O3 in the western US in June 2015. Geophysical Research Letters, 2017, 44(4): 1990–1997.(被引频次:12)
13. Wang S X, Zhang L, Zhao B, Meng Y, Hao J M. Mitigation potential of mercury emissions from coal-fired power plants in China. Energy and Fuels, 2012, 26(8): 4635–4642.(被引频次:46)
14. Wang S X, Zhang L, Wu Y, Ancora M P, Zhao Y, Hao J M. Synergistic mercury removal by conventional pollutant control strategies for coal-fired power plants in China. Journal of the Air and Waste Management Association, 2010, 60(6): 722–730.(被引频次:22)
15. Wang S X, Zhang L, Wang L, Wu Q R, Wang F Y, Hao J M. A review of atmospheric mercury emissions, pollution and control in China. Frontiers of Environmental Science and Engineering, 2014, 8(5): 631–649.(被引频次:61)
16. Ancora M P, Zhang L, Wang S X, Schreifels J J, Hao J M. Meeting Minamata: cost-effective compliance options for atmospheric mercury control in Chinese coal-fired power plants. Energy Policy, 2016, 88: 485–494.(被引频次:21)
17. Ancora M P, Zhang L, Wang S X, Schreifels J, Hao J M. Economic analysis of atmospheric mercury emission control for coal-fired power plants in China. Journal of Environmental Sciences, 2015, 33: 125–134.(被引频次:15)
18. Obrist D, Kirk J L, Zhang L, Sunderland E M, Jiskra M, Selin N E. A review of global environmental mercury processes in response to human and natural perturbations: Changes of emissions, climate, and land use. Ambio, 2018, 47(2): 116–140.(被引频次:77;ESI高被引论文)
19. Gustin M S, Dunham-Cheatham S, Zhang L. Comparison of 4 methods for measurement of reactive, gaseous oxidized, and particulate bound mercury. Environmental Science and Technology, 2019, 53(24): 14489–14495.
20. Wu Q R, Wang S X, Zhang L, Hui M L, Wang F Y, Hao J M. Flow analysis of the mercury associated with nonferrous ore concentrates: implications on mercury emissions and recovery in China. Environmental Science and Technology, 2016, 50(4): 1796–1803.(被引频次:17)
21. Wu Q R, Wang S X, Zhang L, Song J X, Yang H, Meng Y. Update of mercury emissions from China’s primary zinc, lead and copper smelters, 2000–2010. Atmospheric Chemistry and Physics, 2012, 12(22): 11153–11163.(被引频次:50)
22. Wang F Y, Wang S X, Zhang L, Yang H, Wu Q R, Hao J M. Characteristics of mercury cycling in the cement production process. Journal of Hazardous Materials, 2016, 302: 27–35.(被引频次:16)
23. Wang F Y, Wang S X, Zhang L, Yang H, Wu Q R, Hao J M. Mercury enrichment and its effects on atmospheric emissions in cement plants of China. Atmospheric Environment, 2014, 92: 421–428.(被引频次:23)
24. Yang Y, Zhao Y, Zhang L, Lu Y. Evaluating the methods and influencing factors of satellite-derived estimates of NOX emissions at regional scale: A case study for Yangtze River Delta, China. Atmospheric Environment, 2019, 219: 117051.
25. Wang L, Wang S X, Zhang L, Wang Y X, Zhang Y X, Nielsen C, McElroy M B, Hao J M. Source apportionment of atmospheric mercury pollution in China using the GEOS-Chem model. Environmental Pollution, 2014, 190: 166–175.(被引频次:42)
26. Liu X L, Wang S X, Zhang L, Wu Y, Duan L, Hao J M. Speciation of mercury in FGD gypsum and mercury emission during the wallboard production in China. Fuel, 2013, 111: 621–627.(被引频次:28)
27. Wang F Y, Wang S X, Zhang L, Yang H, Gao W, Wu Q R, Hao J M. Mercury mass flow in iron and steel production process and its implications for mercury emission control. Journal of Environmental Sciences, 2016, 43: 293–301.(被引频次:20)
28. Yang M, Wang S X, Zhang L, Wu Q R, Wang F Y, Hui M L, Yang H, Hao J M. Mercury emission and speciation from industrial gold production using roasting process. Journal of Geochemical Exploration, 2016, 170: 72–77.
29. Fu X, Wang T, Wang S X, Zhang L, Cai S Y, Xing J, Hao J M. Anthropogenic emissions of hydrogen chloride and fine particulate chloride in China. Environmental Science and Technology, 2018, 52(3): 1644–1654.
30. Bi X Y, Li Z G, Wang S X, Zhang L, Xu R, Liu J L, Yang H M, Guo M Z. Lead isotopic compositions of selected coals, Pb/Zn ores and fuels in China and the application for source tracing. Environmental Science and Technology, 2017, 51(22), 13502–13508.(被引频次:27)
31. Zhong H, Zhao Y, Muntean M, Zhang L, Zhang J. A high-resolution regional emission inventory of atmospheric mercury and its comparison with multi-scale inventories: a case study of Jiangsu, China. Atmospheric Chemistry and Physics, 2016, 16(23): 15119–15134.
32. Luippold A, Gustin M S, Dunham-Cheatham S M, Zhang L. Improvement of quantification and identification of atmospheric reactive mercury. Atmospheric Environment, 2020, 224: 117307.
33. Wang F Y, Wang S X, Meng Y, Zhang L, Wu Q R, Hao J M. Mechanisms and roles of fly ash compositions on the adsorption and oxidation of mercury in flue gas from coal combustion. Fuel, 2016, 163: 232–239.(被引频次:41)
34. Wu R R, Zhao Y, Zhang J, Zhang L. Variability and sources of ambient volatile organic compounds based on online measurements in a suburban region of Nanjing, eastern China. Aerosol and Air Quality Research, 2020, doi: 10.4209/aaqr.2019.10.0517.
35. Hui M L, Wu Q R, Wang S X, Liang S, Zhang L, Wang F Y, Lenzen M, Wang Y F, Xu L X, Lin Z T, Yang H, Lin Y, Larssen T, Xu M, Hao J M. Mercury flows in China and global drivers. Environmental Science and Technology, 2017, 51(1): 222–231.(被引频次:50)
36. Wan Q, Yao Q, Duan L, Li X H, Zhang L, Hao J M. Comparison of elemental mercury oxidation across vanadium and cerium based catalysts in coal combustion flue gas: Catalytic performances and particulate matter effects. Environmental Science and Technology, 2018, 52(5): 2981–2987.
37. Wu Q R, Wang S X, Hui M L, Wang F Y, Zhang L, Duan L, Luo Y. New insight into atmospheric mercury emissions from zinc smelters using mass flow analysis. Environmental Science and Technology, 2015, 49(6): 3532–3539.(被引频次:22)
38. Wang S X, Song J X, Li G H, Wu Y, Zhang L, Wan Q, Streets D G, Chin C K, Hao J M. Estimating mercury emissions from a zinc smelter in relation to China’s mercury control policies. Environmental Pollution, 2010, 158(10): 3347–3353.(被引频次:32)
39. Wang F Y, Li G L, Wang S X, Wu Q R, Zhang L. Modeling the heterogeneous oxidation of elemental mercury by chlorine in flue gas. Fuel, 2020, 262: 116506.
40. Liu K Y, Wang S X, Wu Q R, Wang L, Ma Q, Zhang L, Li G L, Tian H Z, Duan L, Hao J M. A highly resolved mercury emission inventory of Chinese coal-fired power plants. Environmental Science and Technology, 2018, 52(4): 2400–2408.(被引频次:34)
41. Li G L, Wu Q R, Wang S X, Duan Z Y, Su H T, Zhang L, Li Z J, Tang Y, Zhao M J, Chen L, Liu K Y, Zhang Y. Improving flue gas mercury removal in waste incinerators by optimization of carbon injection rate. Environmental Science and Technology, 2018, 52(4): 1940–1945.
42. Wu Q R, Wang S X, Wang L, Liu F, Lin C J, Zhang L, Wang F Y. Spatial distribution and accumulation of Hg in soil surrounding a Zn/Pb smelter. Science of the Total Environment, 2014, 496: 668–677.
43. Tang Y, Wang S X, Wu Q R, Liu K Y, Wang L, Li S, Gao W, Zhang L, Zheng H T, Li Z J, Hao J M. Recent decrease trend of atmospheric mercury concentrations in East China: the influence of anthropogenic emissions. Atmospheric Chemistry and Physics, 2018, 18(11): 8279–8291.
44. Rönkkö T J, Jalava P I, Happo M S, Kasurinen S, Sippula O, Leskinen A, Koponen H, Kuuspalo K, Ruusunen J, Väisänen O, Hao L, Ruuskanen A, Orasche J, Fang D, Zhang L, Lehtinen K E J, Zhao Y, Gu C, Wang Q g, Jokiniemi J, Komppula M, Hirvonen M-R. Emissions and atmospheric processes influence the chemical composition and toxicological properties of urban air particulate matter in Nanjing, China. Science of the Total Environment, 2018, 639: 1290–1310.(被引频次:10)
45. 惠霂霖, 张磊, 王祖光, 王书肖. 中国燃煤电厂汞的物质流向与汞排放研究. 中国环境科学, 2015, 35(8): 2241–2250.(《中国环境科学》2015年度十佳优秀论文)
46. 段振亚, 黄文博, 王凤阳, 张磊, 王书肖. 溴添加对燃煤烟气汞形态转化的影响. 中国环境科学, 2015, 35(7): 1975–1982.
47. 张磊, 王书肖, 惠霂霖, 郝吉明. 我国燃煤部门履行《关于汞的水俣公约》的对策建议. 环境保护, 2016, 44(22): 38–42.
48. 惠霂霖, 张磊*, 王书肖, 蔡思翌, 赵斌. 中国燃煤部门大气汞排放协同控制效果评估及未来预测. 环境科学学报, 2017, 37(1): 11–22.
49. 王书肖, 张磊. 我国人为大气汞排放的环境影响及控制对策. 环境保护, 2013, 41(9): 31–34.
50. 王书肖, 张磊. 燃煤电厂大气汞排放控制的必要性与防治技术分析. 环境保护, 2012, 1(9): 31–33.
51. 李舒, 高伟, 王书肖, 张磊, 李智坚, 王龙, 郝吉明. 上海崇明地区大气分形态汞污染特征. 环境科学, 2016, 37(9): 3290–3299.
52. 段振亚, 苏海涛, 王凤阳, 张磊, 王书肖, 余斌. 重庆市垃圾焚烧厂汞的分布特征与大气汞排放因子研究. 环境科学, 2016, 37(2): 459–465.
53. 窦红颖, 王书肖, 王龙, 张磊, 郝吉明. 长三角背景地区秋冬季节大气气态总汞含量特征研究. 环境科学, 2013, 34(1): 1–7.
54. 段凤魁, 郝吉明, 王书肖, 段雷, 张磊, 王龙. 汽车尾气排放检测与催化转化教学实验建设. 实验技术与管理, 2014, 31(9): 167–169.
55. 危浩, 朱云, 许嘉钰, 余斌, 王书肖, 付学吾, Che-Jen Lin, 张磊, 杨文尉, 杨再东. 特种污染物排放源强反演及可视化分析工具研发及Hg2+分析示例. 环境科学学报, 2017, 37(2): 512–519.
56. Adriel Luippold, Mae Sexauer Gustin*, Sarrah M. Dunham-Cheatham, Mark Castro, Winston Luke, Seth Lyman, and Lei Zhang. Use of Multiple Lines of Evidence to Understand Reactive Mercury Concentrations and Chemistry in Hawai'i, Nevada, Maryland, and Utah, USA[J]. Environmental Science And Technology, 2020, 54(13):7922-7931.
57. Zhang L , Zhou P , H Zhong, et al. Quantifying the impacts of anthropogenic and natural perturbations on gaseous elemental mercury (GEM) at a suburban site in eastern China using generalized additive models[J]. Atmospheric Environment, 2021.
58. Zhang L , X Zhu, Wang Z , et al. Improved speciation profiles and estimation methodology for VOCs emissions: A case study in two chemical plants in eastern China[J]. Environmental Pollution, 2021, 291:118192.
59. Yang Y , Zhao Y , Zhang L , et al. Improvement from the satellite-derived NOx emissions on air quality modeling and its effect on ozone and secondary inorganic aerosol formation in Yangtze River Delta, China. 2020.
60. Gustin M S , Dunham-Cheatham S M , Zhang L , et al. Use of Membranes and Detailed HYSPLIT Analyses to Understand Atmospheric Particulate, Gaseous Oxidized, and Reactive Mercury Chemistry[J]. Environmental Science and Technology, 2021, 55(2):893-901.
61. Stefan Osterwalder, Sarrah M. Dunham-Cheatham, Beatriz Ferreira Araujo, Olivier Magand, Jennie L. Thomas, Foteini Baladima, Katrine Aspmo Pfaffhuber, Torunn Berg, Lei Zhang, Jiaoyan Huang, Aurélien Dommergue, Jeroen E. Sonke, and Mae Sexauer Gustin. Fate of Springtime Atmospheric Reactive Mercury: Concentrations and Deposition at Zeppelin, Svalbard. ACS Earth and Space Chemistry 2021 5 (11), 3234-3246
62. Zhang Y , Shindell D , Seltzer K , Zhang L . Impacts of emission changes in China from 2010 to 2017 on domestic and intercontinental air quality and health effect. 2021.
63. Shuzhen Cao ,Lei Zhang*, Yang Zhang, Shuxiao Wang, Qingru Wu. Impacts of Removal Compensation Effect on the Mercury Emission Inventories for Nonferrous Metal (Zinc, Lead, and Copper) Smelting in China. Environment Science &Technology .
64. Zhang L , X Zhu, Wang Z , et al. Improved speciation profiles and estimation methodology for VOCs emissions: A case study in two chemical plants in eastern China[J]. Environmental Pollution, 2021, 291:118192.
学术专著
王书肖, 张磊, 吴清茹, 王凤阳. 中国大气汞排放特征、环境影响及控制途径. 科学出版社, 北京, 2016.
专利及软件著作权
张磊, 周培生, 赵瑜. 一种GOM干沉降被动采样器. 实用新型专利: 中国, ZL201820696602.9. 2018.
主持的科研项目
化工行业挥发性有机物排放定量研究, 国家重点研发计划项目课题三子课题, 2018年7月至2021年6月.
大气分形态活性汞定量识别方法体系研究, 国家自然科学基金项目(面上), 2019年1月至2022年12月.
燃煤汞形态转化动力学机理模型研究, 国家自然科学基金项目(青年), 2014年1月至2016年12月.
燃煤电厂烟气汞在SCR内的形态转化机制研究, 中国博士后科学基金项目, 2013年1月至2015年7月.
中国燃煤电厂和工业锅炉汞协同控制潜力研究, 美国自然资源保护协会项目, 2014年7月至2015年12月.
中国有色金属冶炼行业汞污染控制技术路线图, 美国自然资源保护协会项目, 2018年9月至2019年8月.
国际会议组织
Chair of the Organizing Committee of the Workshop on Air Pollution, Climate Change and Human Health, Nanjing, China, July 16–18, 2019.
所获奖励
1. 江苏省“双创博士” 2018年9月
2. 清华大学优秀博士后 2015年4月
3. 北京地区高等学校优秀博士毕业生 2012年7月
4. 清华大学优秀博士学位论文一等奖 2012年7月
5. 北京地区高等学校优秀本科毕业生 2007年7月
6. 清华大学优秀本科毕业生 2007年7月
学术任职
Environmental Science and Technology受邀审稿人
Atmospheric Chemistry and Physics受邀审稿人
Journal of Geophysical Research – Atmospheres受邀审稿人
Atmospheric Environment受邀审稿人
Science of the Total Environment受邀审稿人
Environmental Pollution受邀审稿人
Journal of Cleaner Production受邀审稿人
Journal of Environmental Management受邀审稿人
International Journal of Coal Geology受邀审稿人
Journal of the Atmospheric Sciences受邀审稿人
Environmental Research受邀审稿人
Environmental Science and Pollution Research受邀审稿人
Applied Thermal Engineering受邀审稿人
Energy and Fuels受邀审稿人
Environmental Geochemistry and Health受邀审稿人
Aerosol and Air Quality Research受邀审稿人
Journal of Environmental Sciences受邀审稿人
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