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教授,博士生导师
麻豆视频 B501室
地址:江苏省南京市仙林大道163号
邮编:210023
Email:[email protected]
ORCID: 0000-0003-2796-6043
教育经历
2007/09–2012/06 清华大学麻豆视频 环境科学与工程专业 工学博士
2003/08–2007/07 清华大学环境科学与工程系 环境工程专业 工学学士
工作及访学经历
2024/12至今 麻豆视频 教授
2017/09–2024/12 麻豆视频 副教授
2015/09–2017/06 美国华盛顿大学科学技术工程数学学院 博士后
2014/11–2015/01 美国华盛顿大学科学技术工程数学学院 短期访问学者
2012/07–2015/07 清华大学麻豆视频 博士后
2010/03–2010/06 美国圣路易斯华盛顿大学能源环境化学工程系 短期访问学者
2008/06–2008/07 意大利国家研究总院大气污染研究所 短期访问学者
2007/02–2007/03 加拿大环境部能源技术中心 短期访问学者
研究领域
全球及区域大气环境质量改善与协同履约研究
研究方向
l 关键大气污染物的生消演变
l 大气污染智能感知与溯源
l 区域大气污染模拟与调控
l 环境大数据与机器学习
学术兼职
l 联合国环境署《关于汞的水俣公约》履约成效评估科学小组专家
l Eco-Environ. Health期刊助理执行主编
l Bull. Environ. Contam. Toxicol.期刊发展委员会副主任、青年编委
l Nat. Commun.、Environ. Sci. Technol.、Atmos. Chem. Phys.、J. Geophys. Res.-Atmos.等环境领域权威期刊审稿人
l Workshop on Air Pollution, Climate Change & Human Health国际研讨会组委会主席
l 水污染控制与资源绿色循环全国重点实验室研究骨干
l 江苏省大气环境与装备技术协同创新中心研究骨干
课程教学
l 《环境统计学》(本科平台课)
l 《环境机器学习概论》(本研贯通课)
l 《“科学之光”——探索“碧水蓝天”背后的大数据科学》(新生通识课)
l 《“全球大气污染的生态环境效应”中挪暑期学校》(国际科考课)
l 《工程伦理》(研究生基础课)
主要科研项目
1. 我国“双碳”战略对大气汞污染的协同控制成效评估,国家自然科学基金面上项目,主持,2023/01–2026/12
2. 大气分形态活性汞定量识别方法体系研究,国家自然科学基金面上项目,主持,2019/01–2022/12
3. 燃煤汞形态转化动力学机理模型研究,国家自然科学基金青年科学基金项目,主持,2014/01–2016/12
4. 大气多污染物治理措施及成本效益评价,国家重点研发计划项目子课题,主持,2023/12–2026/11
5. 长三角氮氧化物和挥发性有机物总量控制研究,国家重点研发计划项目子课题,主持,2018/07–2021/06
6. 多场景臭氧污染综合管控技术转化与推广,江苏省生态环境科研项目(成果转化与推广)课题,主持,2022/09–2024/08
7. 大气污染关键前体物VOCs监测与溯源技术研究与应用示范,江苏省科技计划项目(社会发展重大科技示范)课题,主持,2022/07–2025/06
8. 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,主持,2018/09–2019/08
9. 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,主持,2014/07–2015/12
代表性论文
1. Liu Y J, Zhang L*, Wang Z R, Wu R R, Liu X, Zhu X Z, Li H, Bian Y D, Wang Z, Zhao Y. An inverse dispersion method based on fingerprint species for estimating emission intensities of volatile organic compounds in the chemical industry. ACS ES&T Air, 2025, 2(7): 1161–1171.(ACS ES&T Air副封面文章)
2. Yang J Y, Wang Y T, Zhang L, Zhao Y. Investigating the response of China's surface ozone concentration to the future changes of multiple factors. Atmos. Chem. Phys., 2025, 25(4): 2649–2666.
3. Zhang L*, Zhou H T, Zhang W K, Zhou H, Zhang G C, Zhou P S, Wang Z, Wang Q G, Zhao Y. Intercomparison of methods for atmospheric reactive mercury observations: evidences to interpret what we are actually measuring. Atmos. Environ., 2024, 333: 120637.
4. Zhang Y, Zhang L*, Cao S Z, Liu X, Jin J M, Zhao Y. Improved anthropogenic mercury emission inventories for China from 1980 to 2020: toward more accurate effectiveness evaluation for the Minamata Convention. Environ. Sci. Technol., 2023, 57(23): 8660–8670.
5. Zhang L*, Zhang G C, Zhou P S, Zhao Y. A review of dry deposition schemes for speciated atmospheric mercury. Bull. Environ. Contam. Toxicol., 2023, 110(1): 16.
6. 王泽人, 张磊*, 于沛文, 李泫, 王卿鑫, 汪仙凤, 孙欣萌, 朱新志, 赵瑜. 基于特征物种的挥发性有机物排放源强受体反演技术研究. 环境科学学报, 2023, 43(9): 298–310.
7. Dai L, Zhao Y, Zhang L, Chen D, Wu R R. Particle number size distributions and formation and growth rates of different new particle formation types of a megacity in China. J. Environ. Sci., 2023, 131: 11–25.
8. Gu C, Zhang L, Xu Z D, Xia S J, Wang Y T, Li L, Wang Z R, Zhao Q Y, Wang H Y, Zhao Y. High-resolution regional emission inventory contributes to the evaluation of policy effectiveness: a case study in Jiangsu Province, China. Atmos. Chem. Phys., 2023, 23(7): 4247–4269.
9. Chen D, Zhao W X, Zhang L*, Zhao Q Y, Zhang J, Chen F, Li H P, Guan M, Zhao Y. Characterization and source apportionment for light absorption amplification of black carbon at an urban site in eastern China. Sci. Total Environ., 2023, 865: 161180.
10. Cao S Z, Zhang L*, Zhang Y, Wang S X, Wu Q R. Impacts of removal compensation effect on the mercury emission inventories for nonferrous metal (zinc, lead, and copper) smelting in China. Environ. Sci. Technol., 2022, 56: 2163–2171.
11. Dai L, Zhang L, Chen D, Zhao Y. Assessment of carbonaceous aerosols in suburban Nanjing under air pollution control measures: Insights from long-term measurements. Environ. Res., 2022, 212: 113302.
12. Zhang L*, Zhu X Z, Wang Z R, Zhang J, Liu X, Zhao Y. Improved speciation profiles and estimation methodology for VOCs emissions: A case study in two chemical plants in eastern China. Environ. Pollut., 2021, 291: 118192.
13. Zhang L*, Zhou P S, Zhong H, Zhao Y, Dai L, Wang Q G, Xi M X, Lu Y, Wang Y T. Quantifying the impacts of anthropogenic and natural perturbations on gaseous elemental mercury (GEM) at a suburban site in eastern China using generalized additive models. Atmos. Environ., 2021, 247: 118181.
14. Yang Y, Zhao Y, Zhang L, Zhang J, Huang X, Zhao X F, Zhang Y, Xi M X, Lu Y. Improvement of the satellite-derived NOx emissions on air quality modeling and its effect on ozone and secondary inorganic aerosol formation in the Yangtze River Delta, China. Atmos. Chem. Phys., 2021, 21(2): 1191–1209.
15. Gustin M S, Dunham-Cheatham S M, Zhang L, Lyman S, Choma N, Castro M. Use of membranes and detailed HYSPLIT analyses to understand atmospheric particulate, gaseous oxidized, and reactive mercury chemistry. Environ. Sci. Technol., 2021, 55(2): 893–901.
16. 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. Atmos. Chem. Phys., 2019, 19(24): 15587–15608.
17. Gustin M S, Dunham-Cheatham S, Zhang L. Comparison of 4 methods for measurement of reactive, gaseous oxidized, and particulate bound mercury. Environ. Sci. Technol., 2019, 53(24): 14489–14495.
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.(ESI高被引论文)
19. 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). Atmos. Environ., 2018, 179: 23–30.
20. Zhang L*, Jaffe D A. Trends and sources of ozone and sub-micron aerosols at the Mt. Bachelor Observatory (MBO) during 2004–2015. Atmos. Environ., 2017, 165: 143–154.
21. Jaffe D A, Zhang L. Meteorological anomalies lead to elevated O3 in the western US in June 2015. Geophys. Res. Lett., 2017, 44(4): 1990–1997.(GRL封面文章)
22. 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 Air Qual. Res., 2017, 17(12): 2913–2923.
23. 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.
24. 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. Atmos. Chem. Phys., 2016, 16(4): 2417–2433.
25. 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. Energ. Policy, 2016, 88: 485–494.
26. 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. Environ. Sci. Technol., 2015, 49(5): 3185–3194.(ESI高被引论文)
27. 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. J. Environ. Sci., 2015, 33: 125–134.
28. 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)
29. 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. Front. Env. Sci. Eng., 2014, 8(5): 631–649.
30. 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. Atmos. Chem. Phys., 2013, 13(20): 10505–10516.
31. 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.
32. 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. Environ. Sci. Technol., 2012, 46(11): 6385–6392.
33. 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. Environ. Pollut., 2012, 171: 109–117.
34. Wang S X, Zhang L, Zhao B, Meng Y, Hao J M. Mitigation potential of mercury emissions from coal-fired power plants in China. Energ. Fuel., 2012, 26(8): 4635–4642.
35. 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. Atmos. Chem. Phys., 2010, 10(3): 1183–1192.
36. 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. J. Air Waste Manage. Assoc., 2010, 60(6): 722–730.
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.
所获荣誉
高等教育国家级教学成果二等奖(12/15)
江苏省“青蓝工程”优秀青年骨干教师培养对象
江苏省“双创博士”
江苏省优秀专业学位硕士学位论文(指导教师)
江苏省高校微课教学比赛二等奖
麻豆视频 中国银行青年教师优秀教学奖
首届麻豆视频 教师教学竞赛一等奖
麻豆视频 川糖远贤奖教金
麻豆视频 “教授进中学名师奖”
麻豆视频 校级本科优秀毕业论文(设计)二等奖(指导教师)
麻豆视频 “我最喜爱的学业导师”
麻豆视频 “我最喜爱的任课老师”
北京市普通高等学校优秀毕业生(博士生)
清华大学优秀博士后
清华大学优秀博士学位论文一等奖
招生情况
招收环境科学与工程学科博士、硕士研究生
招聘优秀博士后或助理研究员
