张巍 性别：男
专业职称：副教授
行政职务：
办公室电话：
电子邮件：zhw326@ruc.edu.cn
联系地址：中国北京市海淀区中关村大街59号中国人民大学环境学院120室(100872)


基本资料 教育背景
工作经历
社会兼职
科研项目
目前教授课程
奖励与荣誉称号
学术成果
教育背景 2005.9—2009.7，北京大学，城市与环境学院，环境地理学专业，理学博士
2007.9—2008.3，University of California, Santa Barbara，联合培养博士生
2000.9—2002.7，北京大学，城市与环境学系，环境科学专业，理学硕士
1997.9—2000.7，北京大学，中国经济研究中心，经济学学士（双学位）
1996.9—2000.7，北京大学，城市与环境学系，环境科学专业，理学学士


工作经历 2012.6-今，中国人民大学，环境学院环境经济与管理系，副教授
2011.6-2012.6，北京大学，城市与环境学院，副研究员（科研岗位）
2009.7—2011.6，北京大学，城市与环境学院，博士后
2002.8—2005.7，ERM环境资源管理咨询有限公司，Consultant


社会兼职 2017，《岩矿测试》第八届编辑委员会编委
2018，《分析试验室》第五届编辑委员会编委



科研项目 1. 在研项目
[1] 2017-2020，城市中持久性有毒污染物的多介质环境过程与模拟方法研究，国家自然科学基金面上项目（**），项目负责人
[2] 2015-2018，中国人为源大气汞的东亚传输模拟及其应用研究，国家自然科学基金面上项目（**），项目负责人

2. 以往项目
[1] 2012-2016，华北地区陆地表层系统中汞的区域环境过程模拟，国家自然科学基金重点项目（**），主要研究人员
[2] 2014-2015，生态文明建设的投资与政策对经济和社会的影响研究，美国能源基金会，子课题负责人
[3] 2014-2015，土壤中汞的释放和环境迁移表征，国家地质实验测试中心科研协作项目，项目负责人
[4] 2013-2014，大气汞环境迁移模拟及污染控制政策研究，中国人民大学新教师启动金项目，项目负责人
[5] 2013-2014，汞的颗粒表面吸附特征及其在土壤体系中的迁移和转化，国家地质实验测试中心科研协作项目，项目负责人
[6] 2012-2014，“十二五”发展循环经济的主要目标研究，国家发改委，研究人员
[7] 2011-2013，城市地表多环芳烃的累积、冲刷过程及其定量模拟，国家自然科学基金青年项目（**），项目负责人
[8] 2010-2011，多环芳烃在城市环境多介质间的迁移及通量研究，中国博士后科学基金特别资助项目（），项目负责人
[9] 2009-2011，降雨对城市大气中多环芳烃的净化机制研究，中国博士后科学基金面上项目（一等资助，），项目负责人
[10] 2010-2012，流域非点源污染分布式模拟的不确定性分析方法研究，国家自然科学基金项目（**），参与
[11] 2011-2012，区域循环经济技术及发展模式的风险评估及决策支持研究，国家科技支撑计划课题，参与
[12] 2009-2010，中国循环经济发展模式的系统评价与决策支持技术研究，国家科技支撑计划课题，参与
[13] 2009-2010，跨行政区水污染协调和管理机制及试点示范研究，国家水专项子课题，参与


目前教授课程 环境污染与健康（本科）；环境政策与管理研究（研究生）；污染场地修复政策与管理（研究生）




学术成果 1. 国外SCI学术期刊
[66] Zhang, Wei; Zhang, Xue; Tian, Yuling; Zhu, Yan; Tong, Yindong; Li, Ying*; Wang, Xuejun. Risk assessment of total mercury and methylmercury in aquatic products from offshore farms in China. Journal of Hazardous Materials, 2018, 354:198-205.
[65] Ou, Langbo; Wang, huanhuan; Chen, Cen; Chen, Long; Zhang, Wei*; Wang, Xuejun. Physiologically based pharmacokinetic (pbpk) modeling of human lactational transfer of methylmercury in china. Environment International, 2018, 115: 180-187.
[64] Zhang, Wei; Zhang, Lei*; Li, Ying; Tian, Yuling; Li, Xiaoran; Zhang, Xue; Mol, Arthur P J, et al. Neglected environmental health impacts of China's supply-side structural reform. Environment International, 2018, 115: 97-103
[63] Zhang, Haoran; Chen, Long; Tong, Yindong; Zhang, Wei; Yang, Wen; Liu, Maodian; Liu, Laibao; Wang, Huanhuan; Wang, Xuejun*. Impacts of supply and consumption structure on the mercury emission in China: An input-output analysis based assessment. Journal of Cleaner Production, 2018.1.1, 170: 96~107
[62] Liu, Maodian; Du, Peng; Yu, Chenghao; He, Yipeng; Zhang, Haoran; Sun, Xuejun; Lin, Huiming; Luo, Yao; Xie, Han; Guo, Junming; Tong, Yindong; Zhang, Qianggong; Chen, Long; Zhang, Wei; Li, Xiqing; Wang, Xuejun*. Increases of Total Mercury and Methylmercury Releases from Municipal Sewage into Environment in China and Implications. Environmental Science & Technology, 2018.1.2, 52(1): 124~134
[61] Ying Li, Ting Ren, Patrick L. Kinney, Andrew Joyner, Wei Zhang*. Projecting future climate change impacts on heat-related mortality in large urban areas in China. Environmental Research, 2018, 163: 171-185
[60] Lizhou Feng, Wei Zhang, Xiqing Li, Monitoring of regional drug abuse through wastewater-based epidemiology-A critical review, Science China Earth Sciences, 2018, 61(3): 239-255
[59] Chen L, Zhang W*, Zhang Y, et al. Historical and future trends in global source-receptor relationships of mercury. Science of the Total Environment, 2018, 610–611: 24-31.
[58] Tong, Yindong; Wang, Mengzhu; Bu, Xiaoge; Guo, Xin; Lin, Yan; Lin, Huiming; Li, Jing; Zhang, Wei; Wang, Xuejun*. Mercury concentrations in China's coastal waters and implications for fish consumption by vulnerable populations. Environmental Pollution, 2017.12, 231: 396~405
[57] Zhang Y, Ye X, Yang T, et al. Evaluation of costs associated with atmospheric mercury emission reductions from coal combustion in China in 2010 and projections for 2020. Science of the Total Environment, 2017, 610-611:796.
[56] Tong YD, Zhang W, Wang XJ, Couture RM, Larssen T, Zhao Y, Li J, Liang HJ, Liu XY, Bu XG, He W, Zhang QG, Lin Y. Decline in Chinese lake phosphorus concentration accompanied by shift in sources since 2006. Nature Geoscience. 2017, doi:10.1038/ngeo2967
[55] Zhang, W; Zhen, GC; Chen, L; Wang, HH; Li, Y; Ye, X; Tong, Y; Zhu, Y; Wang, XJ. Economic evaluation of health benefits of mercury emission controls for China and the neighboring countries in East Asia. Energy Policy. 2017, 106: 579-587.
[54] Lin, H; Zhang, W*; Deng, C; Tong, Y; Zhang, Q; Wang, X. Evaluation of passive sampling of gaseous mercury using different sorbing materials. Environmental Science and Pollution Research, 2017, 24(16): 14190–14197.
[53] Tong Y, Bu X, Chen C, et al. Impacts of sanitation improvement on reduction of nitrogen discharges entering the environment from human excreta in China. Science of the Total Environment, 2017, 593-594:439.
[52] Li J, Yi Z, Luo X, et al. PAH contamination in Beijing’s topsoil: A unique indicator of the megacity’s evolving energy consumption and overall environmental quality. Scientific Reports, 2016, 6:33245.
[51] Tong, YD; Bu, XG; Chen, JY; Zhou, F; Chen, L; Liu, MD; Tan, X; Yu, T; Zhang, W*; Mi, ZR; Ma, LK; Wang, XJ; Ni, J. Estimation of nutrient discharge from the Yangtze River to the East China Sea and the identification of nutrient sources. Journal of Hazardous Materials, 2017, 321: 728–736.
[50] Benjamin F, Tong YD, Yin XF, Zhang W, Kang SC, Zhang QG, Zhang GS, Wang XJ, Schauer J. First field-based atmospheric observation of the reduction of reactive mercury driven by sunlight, Atmospheric Environment, 2016, 134: 27-39.
[49] Yi Z, Luo X, Wei Z, et al. Transport mechanisms of soil-bound mercury in the erosion process during rainfall-runoff events. Environmental Pollution, 2016, 215:10-17.
[48] Tong Y, Yao R, He W, et al. Impacts of sanitation upgrading to the decrease of fecal coliforms entering into the environment in China. Environmental Research, 2016, 149:57-65.
[47] Tong, YD; Yin, XF; Lin, HM; et al. Recent Decline of Atmospheric Mercury Recorded by Androsace tapete on the Tibetan Plateau. Environmental Science & Technology, 2016, 50: 13224-13231.
[46] Deng C, Xie H, Ye X, Zhang H, Liu M, Tong Y, Ou L, Yuan W, Zhang W*, Wang X. Mercury risk assessment combining internal and external exposure methods for a population living near a municipal solid waste incinerator. Environmental Pollution, 2016, 219: 1060-1068.
[45] Liu MD, Chen L, Wang XJ*, Zhang W*, Tong YD, Ou LB, Xie H, Shen HZ, Ye XJ, Deng CY, Wang HH, Mercury Export from Mainland China to Adjacent Seas and Its Influence on the Marine Mercury Balance, Environmental Science & Technology, 2016, 50: 6224-6232.
[44] Liu MD, Zhang W*, Wang XJ*, Chen L, Wang HH, Luo Y, Zhang HR, Shen HZ, Tong YD, Ou LB, Xie H, Ye XJ, Deng CY. Mercury Release to Aquatic Environments from Anthropogenic Sources in China from 2001 to 2012, Environmental Science & Technology, 2016, 50: 8169–8177
[43] Tong, YD*; Wang, XJ; Zhen, GC; Li, Ying; Zhang, W*; He, W. Agricultural water consumption decreasing nutrient burden at Bohai Sea, China. Estuarine, Coastal and Shelf Science. 2016, 169(5): 85-94.
[42] Zhang, W; Zhen, GC; Tong, YD; Yang, L; Yan, Z; Liu, GH, Wang, XJ; Li, Ying. Perspectives on policy framework for trans-boundary water quality management in China. Environmental Hazards, 2016, 15(2): 113-127
[41] Tong, YD; Chen, L; Chi J; Zhen, GC; Zhang, QG; Wang, RN; Yao, RH; Zhang, W*; Wang, XJ. Riverine nitrogen loss in the Tibetan Plateau and potential impacts of climate change. Science of The Total Environment, 2016, 553: 276-284.
[40] Liang L, Ju L, Hu JD, Zhang W, Wang XJ*. Transport of sodium dodecylbenzene sulfonate (SDBS)-dispersed carbon nanotubes and enhanced mobility of tetrabromobisphenol A (TBBPA) in saturated porous media, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 497(2016) 205-213
[39] Zhen, GC; Ying, L; Tong, YD; Lei, Y; Yan, Z; Zhang, W*. Temporal variation and regional transfer of heavy metals in the Pearl (Zhujiang) River, China. Environmental Science and Pollution Research, 2016, 23(8): 1-11.
[38] Tong, YD; Zhao, Y; Zhen, GC; Chi J; Liu, XH; Lu, YR; Wang, XJ; Yao, RH; Chen, JY; Zhang, W*. Nutrient Loads Flowing into Coastal Waters from the Main Rivers of China (2006-2012). Scientific Reports, 2015, 5: 16678. doi: 10.1038/srep16678.
[37] Ou, LB; Chen, C; Chen, L; Wang, HH; Yang, TJ; Xie, H; Tong, YD; Hu, D; Zhang, W*; Wang, XJ. Low-level Prenatal Mercury Exposure in North China: An Exploratory Study of Anthropometric Effects. Environmental Science &Technology, 2015, 49, 6899?6908.
[36] Ye, XJ; Hu, D; Wang, HH; Chen, L; Xie, H; Zhang, W*; Deng, CY; Wang, XJ*. Atmospheric mercury emissions from China's primary nonferrous metal (Zn, Pb and Cu) smelting during 1949-2010. Atmospheric Environment, 2015, 103: 331-338.
[35] Tong, YD; Ou, LB; Chen, L; Wang, HH; Chen, C; Wang, XJ; Zhang, W; Wang, QG. Modeled methylmercury exposure and risk from rice consumption for vulnerable populations in a traditional fish-eating area in China. Environmental Toxicology and Chemistry, 2015, 34(5): 1161-1168.
[34] Zhang, W; Tong, YD; Wang,HH; Chen, Long; Ou, LB; Wang, XJ; Liu, GH; Zhu, Y. Emission of Metals from Pelletized and Uncompressed Biomass Fuels Combustion in Rural Household Stoves in China. Scientific Reports, 2014, 4, Article number: 5611 doi:10.1038/srep05611.
[33] Chen, L, Wang, HH, Liu, JF, Tong, YD, Ou, LB, Zhang, W*, Hu, D, Chen, C, Wang, XJ. Intercontinental transport and deposition patterns of atmospheric mercury from anthropogenic emissions. Atmospheric Chemistry and Physics, 2014, 14: 10163-10176.
[32] Guo, HL; Lin, HM; Zhang, W*; Deng, CY; Wang, HH; Zhang, QG; Shen, YT; Wang, XJ. Influence of meteorological factors on the atmospheric mercury measurement by a novel passive sampler. Atmospheric Environment, 2014, 97: 310-315.
[31] Ou, LB; Chen, L; Chen, C; Yang, TJ; Wang, HH; Tong, YD; Hu, D; Zhang, W*; Long, WJ; Wang, XJ. Associations of methylmercury and inorganic mercury between human cord blood and maternal blood: A meta-analysis and its application. Environmental Pollution, 2014, 191: 25-30.
[30] Zhang, Wei; Zhu, Y; Wang, XJ. A modeling method to evaluate the management strategy of urban storm runoff, Water Resources Management, 2014, 28(2): 541-552.
[29] Tong, YD, Zhang, Wei, Chen, C, Chen, L, Wang, WT, Hu, XD, Wang, HH, Hu, D, Ou, LB, Wang, XJ, Wang, QG. Fate modeling of mercury species and fluxes estimation in an urban river. Environmental Pollution, 2014, 184: 54-61.
[28] Zhang, W; Zhu, Y. Evaluation of Metal Emissions from Biomass Fuel Combustion in China. Energy & Environment, 2014, 25(1): 93-104.
[27] Zhang, Wei; Wei, W; Hu, D; Zhu, Y; Wang, XJ. Emission of speciated mercury from residential biomass fuel combustion in China, 2013, Energy & Fuels, 27(11): 6792-6800.
[26] Chen, C, Wang, HH, Zhang, Wei*, Hu, D, Chen, L, Wang, XJ. High-resolution inventory of mercury emissions from biomass burning in China for 2000-2010 and a projection for 2020. Journal of Geophysical Research: Atmospheres. 2013, 118(21): 12248–12256.
[25] Tong, YD, Zhang, Wei, Hu, D, Ou, LB, Hu, XD, Yang, TJ, Wei, W, Ju, L, Wang, XJ. Behavior of mercury in an urban river and its accumulation in aquatic plants, Environmental Earth Sciences. 2013, 68: 1089-1097.
[24] Luo, XL; Zheng, Y; Wu, B; Lin, ZR; Han, F; Zhang, W; Wang, XJ. Impact of carbonaceous materials in soil on the transport of soil-bound PAHs during rainfall-runoff events. Environmental Pollution, 2013, 182: 233-241.
[23] Ju, L; Zhang, W; Wang, XJ; Hu, JD; Zhang, YL. Aggregation kinetics of SDBS-dispersed carbon nanotubes in different aqueous suspensions. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2012, 409: 159-166.
[22] Zheng, Y, Luo, XL, Zhang, Wei, Wu, B, Han, F, Lin, ZR, Wang, XJ. Enrichment behavior and transport mechanism of soil-bound PAHs during rainfall-runoff events. Environmental Pollution, 2012, 171: 85-92.
[21] Hu D, Zhang, Wei*, Chen L, Chen C, Ou LB, Tong YD, Wei W, Long WJ, Wang XJ. Mercury emissions from waste combustion in China from 2004 to 2010. Atmospheric Environment. 2012, 62: 359-366.
[20] Tong, YD; Zhang, Wei*; Hu, XD ; Ou, LB; Hu, D; Yang, TJ; Wei, W; Wang, XJ. Model description of trophodynamic behavior of methylmercury in a marine aquatic system. Environmental Pollution. 2012, 166: 89-97.
[19] Wei, W; Zhang, Wei*; Hu, D; Ou, LB; Tong, YD; Shen, GF; Shen, H; Wang, XJ. Emissions of carbon monoxide and carbon dioxide from uncompressed and pelletized biomass fuel burning in typical household stoves in China. Atmospheric Environment. 2012, 56: 136-142.
[18] Zhang, Wei; Tong, YD; Hu, D; Ou, LB; Wang, XJ. Characterization of atmospheric mercury concentrations along an urban-rural gradient using a newly developed passive sampler. Atmospheric Environment. 2012, 47: 26-32.
[17] Zhang, Wei; Ye, YB; Tong, YD; Ou, LB; Hu, D; Wang, XJ. Modeling time-dependent toxicity to aquatic organisms from pulsed exposure of PAHs in urban road runoff. Environmental Pollution. 2011, 159: 503-508.
[16] Zhang, Wei; Ye, YB; Hu, D; Ou, LB; Wang, XJ. Contribution and loading estimation of organochlorine pesticides from rain and canopy throughfall to runoff in an urban environment. Journal of Hazardous Materials. 2011, 185: 801-806.
[15] Wang, WT; Jariyasopit, N; Schrlau, J; Jia,YL; Tao, S; Yu, TW; Dashwood, RH; Zhang, W; Wang, XJ; Simonich, SLM. Concentration and Photochemistry of PAHs, NPAHs, and OPAHs and Toxicity of PM2.5 during the Beijing Olympic Games. Environmental Science & Technology. 2011, 45: 6887-6895.
[14] Zhang, Wei; Ye, YB; Tong, YD; Ou, LB; Hu, D; Wang, XJ. Characteristics and Transport of Organochlorine Pesticides in Urban Environment: Air, Dust, Rain, Canopy Throughfall, and Runoff. Journal of Environmental Monitoring. 2010, 12 (11): 2153 – 2160.
[13] Zhang, W; Keller, A; Yue, DP; Wang, XJ. Management of urban road runoff containing PAHs: probabilistic modeling and its application in Beijing, China. Journal of the American Water Resources Association. 2009, 45: 1009-1018.
[12] Zhang, W; Keller, A; Wang, XJ. Analytical modeling of polycyclic aromatic hydrocarbon loading and transport via road runoff in an urban region of Beijing, China. Water Resources Research. 2009, 45, W01423, doi:10.1029/2008WR007004.
[11] Zhang, SC; Zhang, W; Wang, KY; Shen, YT; Hu, LW; Wang, XJ. Concentration, distribution and source apportionment of atmospheric polycyclic aromatic hydrocarbons in the southeast suburb of Beijing, China. Environmental Monitoring and Assessment. 2009, 151: 197-207.
[10] Wu, M; Zhang, W; Wang, XJ; Luo, DG. Application of MODIS satellite data in monitoring water quality parameters of Chaohu Lake in China. Environmental Monitoring and Assessment. 2009, 148: 255-264
[9] Shen, Q; Wang, KY; Zhang, W; Zhang, SC; Wang, XJ. Characterization and sources of PAHs in an urban river system in Beijing, China. Environmental Geochemistry and Health. 2009, 31: 453-462.
[8] Li, AM; Hu, JD; Li, WH; Zhang, W; Wang, XJ. Polarity based fractionation of fulvic acids. Chemosphere. 2009, 77: 1419-1426.
[7] Zhang, W; Zhang, SC; Wan, C; Yue D; Ye, YB; Wang, XJ. Source diagnostics of polycyclic aromatic hydrocarbons in urban road runoff, dust, rain and canopy throughfall. Environmental Pollution. 2008, 153: 594-601.
[6] Zhang, W; Zhang, SC; Yue DP; Wan, C; Ye, YB; Wang, XJ. Characterization and loading estimation of polycyclic aromatic hydrocarbons in road runoff from urban regions of Beijing, China. Environmental Toxicology and Chemistry. 2008, 27: 31-37.
[5] Zhang, SC; Zhang, W; Shen, YT; Wang, KY; Hu LW; Wang XJ. Dry deposition of atmospheric polycyclic aromatic hydrocarbons in the southeast suburb of Beijing, China. Atmospheric Research. 2008, 89: 138–148.
[4] Zhou, F; Huang, GH; Guo, HC; Zhang, W; Hao, ZJ. Spatio-temporal patterns and source apportionment of coastal water pollution in eastern Hong Kong. Water Research. 2007, 41: 3429-3439.
[3] Wang, XJ; Zhang, W; Li, Y; Yang, KZ; Bai, M. Air quality improvement estimation and assessment using contingent valuation method, a case study in Beijing. Environmental Monitoring and Assessment. 2006, 120: 153-168.
[2] Wang, XJ; Zhang, W; Huang, YN; Li, SJ. Modeling and simulation of point-non-point source effluent trading in Taihu Lake area: perspective of non-point sources control in China. The Science of the Total Environment. 2004, 325: 39-50.
[1] Zhang, W; Wang, XJ. Modeling for point-non-point source effluent trading: Perspective of non-point sources regulation in China. The Science of the Total Environment. 2002, 292: 167-176.
2. 国内核心期刊（2010-今）
[13] 李元杰, 王森杰, 张敏, 何泽, 张巍. 土壤和地下水污染的监控自然衰减修复技术研究进展. 中国环境科学, 2018, 38(3):1185-1193.
[12] 童银栋, 王慧, 张巍, 邓春燕, 王学军. 校园学生群体食物汞暴露现状及风险评价—以天津大学为例. 中国环境科学, 2016, 36(2)：589-595.
[11] 童银栋, 张巍, 邓春燕, 陈龙, 王欢欢, 王学军, James Jay Schauer. 大气汞均相和非均相化学反应过程研究进展. 环境科学学报. 2015, DOI: 10.13671/j.hjkxxb.2015.0716
[10] 杨天骏, 胡歆笛, 张巍, 王学军. 小麦生长周期的甲基汞器官分布. 农业环境科学学报. 2013,32(3):445-449.
[9] 刘志刚, 欧浪波, 胡丹, 童银栋, 张巍, 王学军. 北京城市雨水、树冠水和地表径流中有机氯农药的污染特征. 环境工程学报, 03期, 804-810, 2012
[8] 欧浪波, 胡丹, 黄晔, 崔司宇, 郭天娇, 张巍, 王学军. 北京城区屋面径流中PAHs的初期冲刷效应. 环境科学, 10期, 2896-2903, 2011.
[7] 童银栋, 郭明, 张巍, 胡丹, 王学军. 甲苯二次萃取-直接测汞法快速测定海产品中的甲基汞. 环境化学, 30(4): 766-770, 2011.
[6] 罗小林, 郑一, 张巍, 王学军. 城市降雨径流多环芳烃污染研究的进展与展望. 环境科学与技术, 34(4):55- 59, 2011.
[5] 刘志刚, 胡丹, 欧浪波, 童银栋, 张巍, 王学军. 北京郊区树冠穿透水中多环芳烃的污染特征与通量计算. 农业环境科学学报, 06期, 1200-1207, 2011.
[4] 童银栋, 张巍, 胡丹, 王学军. 冬季降雪过程对城市大气气态汞污染的影响. 生态环境学报, 2010, 19(3): 505-508.
[3] 叶友斌, 张巍, 胡丹, 欧浪波, 王学军. 城市大气中多环芳烃的降雨冲刷. 中国环境科学, 2010, 30(7): 985-991.
[2] 童银栋, 郭明, 胡丹, 欧浪波, 魏文, 张巍, 王学军. 北京市场常见水产品中总汞、甲基汞分布特征及食用风险. 生态环境学报, 2010, 9: 2187-2191.
[1] 叶友斌, 张巍, 胡丹, 欧浪波, 王学军. 北京城区大气多环芳烃的沉降特征. 城市环境与城市生态, 2010. 23(02): 23-26.
3. 国际会议报告
[5] Zhang, W. Evaluation of China’s mercury emission controls in the coal-fired power industry: projection for the health and welfare effects in East Asia. Society For Risk Analysis Annual Meeting. Arlington, USA, 2017.
[4] Zhang, W; Long, W; Zhen, G. Development and calibration of a passive sampler for monitoring mercury in atmosphere: influence of meteorological factors and field applications. The 12th International Conference on Mercury as a Global Pollutant. Edinburgh, Jeju, Korea, 2015.
[3] Zhang, W; Chen L; Wang XJ. Emission of speciated mercury from indoor biomass fuels combustion. The 11th International Conference on Mercury as a Global Pollutant. Edinburgh, UK, 2013.
[2] Zhang, W; Tong, YD; Wang, XJ. Calibration of a passive sampler for gaseous mercury in both indoor and outdoor air. Annual Meeting of SETAC Asia/Pacific, Guangzhou, 2010.
[1] Zhang, W; Zhang, SC; Yue, DP; Wang, XJ. Study on Characteristics and Modelling of PAHs Pollution in Road Runoff in Beijing City. Annual Meeting of SETAC Asia/Pacific, Beijing, 2006.

4. 发明专利
[1] 张巍，童银栋，胡丹，欧浪波，王学军. 发明专利：一种大气颗粒物的被动采样装置（ZL6.1），授权日2012年4月6日
[2] 张巍，童银栋，王学军，胡丹. 发明专利：一种大气中气态汞的被动采样装置 （ZL1.1），授权日2011年12月7日.

5. 专著
[1] 张巍. 城市径流有毒污染物的环境行为. 科学技术文献出版社. 21万字, 2013

6. 其他
[1] 国家标准：社区服务指南第2部分：环境管理（GB/T 20647.2-2006），与中国标准化研究院等单位合作制订.
[2] 污染预防理论与实践. 清华大学出版社, 北京. 2003. （参与编译、统校）
[3] 加拿大污染预防的战略规划. 学苑出版社, 北京. 2002. （参与编译、统校）