王海鲲_南大环境学院网
设为首页 | 加入收藏 | English欢迎来到南京大学环境学院!

教授

王海鲲

教授,博导(环境规划与管理)
办公室:环境学院B224
电话/传真:025-89680533
E-mail:wanghk@nju.edu.cn

教育背景

2006.9—2010.1,清华大学,环境科学与工程系,工学博士
2003.9—2006.3,华东理工大学,资源与环境工程学院,工学硕士
1997.9—2001.7,华东理工大学,资源与环境工程学院,工学学士

科研经历

2017.12至今,教授,南京大学环境学院
2013.9—2015.8,访问学者,哈佛大学(Harvard University)
2011.12—2017.11,副教授,南京大学环境学院
2010.2—2011.11,讲师,南京大学环境学院
2009. 2—2009.5,访问学生,意大利威尼斯国际大学(VIU)

研究兴趣

气候与环境政策效益评估
大气污染健康风险管理
城市交通污染影响与控制

主讲课程

气候变化与低碳经济(研究生)
全球变化与环境(本科生)

学术兼职

中国环境规划专业委员会,委员
江苏省环境科学学会,常务理事,青年分会主任
美国地球物理联合会(American Geophysical Union, AGU),会员
欧洲地学联盟(European Geosciences Union, EGU),会员

主要科研项目

[1] 2016-2020,基于多源卫星遥感的高分辨率全球碳同化系统研究,国家重点研发计划专项项目(2016YFA0600200),子课题负责人;
[2] 2017-2020,长三角排放清单的优化集成与综合校验,国家自然科学基金重点项目(91644220)主要参与人;
[3] 2014-2017,多尺度嵌套的城市交通污染暴露研究,国家自然科学基金面上项目(41371528),主持;
[4] 2011-2013,基于车载测试的城市公交车燃料消耗与排放特征及模拟研究,国家自然科学基金青年基金(51008155),主持;
[5] 2010-2015,全国人为源温室气体排放清单研究,国家重点基础研究发展计划(973计划)(2010CB950704),子课题负责人;
[6] 2011-2014,南京市青奥会环境空气质量保障决策支持系统,国家科技支撑计划项目(863计划)(2011BAK21B03),子课题负责人;
[7] 2011-2013,江苏省碳减排关键技术与路径研究,江苏省自然科学基金重点研究专项(BK2011017),子课题负责人;
[8] 2013-2014,城市温室气体与大气污染物协同减排研究(以苏州为例),美国能源基金会项目,技术负责人;
[9] 2011-2013,江苏省应对气候变化规划研究,中国清洁发展机制(CDM)基金项目,技术负责人;

学术论文

[1] Zhang Y#, Qu S#, Zhao J, Zhu G, Zhang Y, Lu X, Sabel CE, Wang H*. 2018. Quantifying regional consumption-based health impacts attributable to ambient air pollution in China. Environment International, 112: 100-106 (# contribute equally to this paper).
[2] Wang H*, Zhan Y, Zhao H, Lu X*, Zhang Y, Zhu W, Nielsen CP, Li X, Zhang Q, Bi J*, McElroy MB. 2017. Trade driven relocation of air pollution and health impacts in China. Nature Communications, 8: 738.
[3] Jiang S, Chen Z, Shan L, Chen X, Zhang Y, Wang H*. 2017. Committed CO2 emissions of China’s coal-fired power generators from 1993 to 2013. Energy Policy, 104: 295-302.
[4] Liu M, Huang Y, Ma Z, Jin Z, Liu X, Wang H, Liu Y, Wang J, Jantunen M, Bi J*, Kinney PL*. 2017. Spatial and temporal trends in the mortality burden of air pollution in China: 2004–2012. Environment International, 98: 75-81.
[5] Lu Y, Wang H, Wang Q, Zhang Y, Yu Y, Qian Y. 2017. Global anthropogenic heat emissions from energy consumption, 1965–2100. Climatic Change, 145: 459–468.
[6] Zhao H, Li X, Zhang Q*, Jiang X, Lin J, Peters GG, Li M, Geng G, Zheng B, Huo H, Zhang L, Wang H, Davis SJ*, He K. 2017. Effects of atmospheric transport and trade on air pollution mortality in China. Atmospheric Chemistry and Physics, 17: 10367-10381.
[7] Gu B*, Jiang S, Wang H, Wang Z, Jia R, Yang J, He S, Cheng R. 2017. Characterization, quantification and management of China's municipal solid waste in spatiotemporal distributions: A review. Waste Management, 61: 67-77.
[8] Lu X*, McElroy M*, Peng W, Liu S, Nielsen C, Wang H. 2016. Challenges faced by China compared with the US in developing wind power. Nature Energy, 1: 16061.
[9] Xie R, Sabel CE, Lu X, Zhu W, Kan H, Nielsen C, Wang H*. 2016. Long-term trend and spatial pattern of PM2.5 induced premature mortality in China. Environment International, 97: 180-186.
[10] Zhao H, Zhang Q*, Huo H*, Lin J, Liu Z, Wang H, Guan D, He K. 2016. Environment-economy tradeoff for Beijing-Tianjin-Hebei's exports. Applied Energy, 184: 926-935.
[11] Ji L, Liang S, Qu S, Zhang Y, Xu M, Jia X, Niu D, Yuan J, Hou Y, Wang H, Chiu A, Hu X. 2016. Greenhouse gas emission factors of purchased electricity from interconnected grids. Applied Energy, 184: 751-758.
[12] Wang H*, Zhang Y, Lu X, Nielsen CP., Bi J. 2015. Understanding China’s carbon dioxide emissions from both production and consumption perspectives. Renewable & Sustainable Energy Reviews, 52: 189-200.
[13] Zhang Y, Wang H*, Liang S, Xu M, Zhang Q, Zhao H, Bi J*. 2015. A dual strategy for controlling energy consumption and air pollution in China’s metropolis of Beijing. Energy, 81: 294-303.
[14] Gu B, Wang H*, Chen Z, Jiang S, Zhu W, Liu M, Chen Y, Wu Y, He S, Cheng R, Yang J, Bi J*. 2015. Characterization, quantification and management of household solid waste in China: A case study of Suzhou. Resource, Conservation & Recycling, 98: 67-75.
[15] Zhao Y*, Qiu L, Xu R, Xie F, Zhang Q, Yu Y, Nielsen CP, Qin H, Wang H, Wu X, Li W, Zhang J. 2015. Advantages of a city-scale emission inventory for urban air quality research and policy: the case of Nanjing, a typical industrial city in the Yangtze River Delta, China. Atmospheric Chemistry and Physics, 15: 12623-12644.
[16] Zhang Y, Wang H*, Liang S, Xu M, Liu W, Li S, Zhang R, Nielsen CP, Bi J*. 2014. Temporal and spatial variations in consumption-based carbon dioxide emissions in China. Renewable & Sustainable Energy Reviews, 40: 60-68.
[17] Wang H, Wang Y, Wang H*, Liu M, Zhang Y, Zhang R, Bi J*. 2014. Mitigating greenhouse gas emissions from China’s cities: case study of Suzhou. Energy Policy, 68: 482-489.
[18] Gu B, Zhu W, Wang H*, Zhang R, Liu M, Chen Y, Wu Y, Yang X, He S, Cheng R, Yang J, Bi J*. 2014. Household hazardous waste quantification, characterization and management in China's cities: a case study of Suzhou. Waste Management, 34: 2414-2423.
[19] Yang J, Xu R, Cai Z, Bi J, Wang H*. 2014. Influencing factors on forest biomass carbon storage in eastern China – a case study of Jiangsu province. BioResources, 9: 357-371.
[20] Keuken MP*, Jonkers S, Verhagen HLM, Perez L, Trueb S, Okkerse WJ, Liu J, Pan X, Zheng L, Wang H, Xu R, Sabel CE. 2014. Impact on air quality of measures to reduce CO2 emissions from road traffic in Basel, Rotterdam, Xian and Suzhou. Atmospheric Environment 98: 434-441.
[21] Yang J*, Zou L, Lin T, Wu Y, Wang H. 2014. Public willingness to pay for CO2 mitigation and the determinants under climate change: A case study of Suzhou, China. Journal of Environmental Management, 146C: 1-8.
[22] Bi J, Young OR*, Costanza R, Liu L, Kasperson R, Qi Y, Guttman D, Jiang K, Mazmanian D, Zhang S, Zhang J, Osherenko G, Percival R, Zhang B, Wang H, He P, Liu M. 2014. Same dream, different beds: Can America and China take effective steps to solve the climate problem. Global Environmental Change, 24: 2-4.
[23] Liu M, Wang H*, Wang H, Oda T, Zhao Y, Yang X, Zhang R, Zhang B, Bi J, Chen J*. 2013. Refined estimate of China’s CO2 emissions in spatiotemporal distributions. Atmospheric Chemistry and Physics, 13: 10873-10882.
[24] Wang H, Lei Y, Wang H*, Liu M, Yang J, Bi J*. 2013. Carbon reduction potentials of China’s industrial parks: a case study of Suzhou industry park. Energy, 55: 668-675.
[25] Zhou Y, Zhang B*, Wang H, Bi J. 2013. Drops of energy: conserving urban water to reduce greenhouse gas emissions. Environmental Science & Technology, 47: 10753-10761.

[26] Wang H, Zhang R, Liu M, Bi J*. 2012. The carbon emissions of Chinese cities. Atmospheric Chemistry and Physics, 12: 6197-6206.
[27] Bi J, Zhang R, Wang H*, Liu M, Wu Y. 2011. The benchmarks of carbon emissions and policy implications for China‘s cities: case of Nanjing. Energy Policy, 39: 4785-4794.
[28] Wang H*, Fu L, Bi J*. 2011. CO2 and pollutant emissions from passenger cars in China. Energy Policy, 39: 3005-3011.
[29] Wang H*, Fu L. 2010. Developing a high-resolution vehicular emission inventory by integrating an emission model and a traffic model: part 1—modeling fuel consumption and emissions based on speed and vehicle specific power. Journal of the Air & Waste Management Association, 60: 1463-1470.
[30] Wang H*, Fu L, Chen J. 2010. Developing a high-resolution vehicular emission inventory by integrating an emission model and a traffic model: part 2—a case study in Beijing. Journal of the Air & Waste Management Association, 60: 1471-1475.
[31] Wang H, Fu L*, Zhou Y, Du X, Ge W. 2010. Trends in vehicular emissions in China’s mega cities from 1995 to 2005. Environmental Pollution, 158: 394-400.
[32] Wang H, Fu L*, Lin X, Zhou Y, Chen J. 2009. A bottom-up methodology to estimate vehicle emissions for the Beijing urban area. Science of the Total Environment, 407: 1947-1953.
[33] Wang H, Fu L*, Zhou Y, Li H. 2008. Modelling of the fuel consumption for passenger cars regarding driving characteristics. Transportation Research Part D, 13: 479-482.
[34] Wang H, Chen C, Huang C, Fu L*. 2008. On-road vehicle emission inventory and its uncertainty analysis for Shanghai, China. Science of the Total Environment, 398: 60-67.
[35] Chen C, Huang C, Jing Q, Wang H, Pan H, Li L, Zhao J, Dai Y, Huang H, Schipper L, Streets DG*. 2007. On-road emission characteristics of heavy-duty diesel vehicles in Shanghai. Atmospheric Environment, 41: 5334-5344.
[36] Du X, Fu L*, Ge W, Zhang S, Wang H. 2011. Exposure of taxi drivers and office workers to traffic-related pollutants in Beijing: A note. Transportation Research Part D, 16: 78-81.
[37] 王海鲲, 张荣荣, 毕军*. 2011. 中国城市碳排放核算研究—以无锡市为例. 中国环境科学, 31: 1029-1038.
[38] 王海鲲, 傅立新*, 周昱, 等. 2008. 应用车载测试系统研究轻型机动车在实际道路上的排放特征. 环境科学, 29: 2970-2974.
[39] 王海鲲, 陈长虹*, 黄成, 等. 2006. 应用IVE模型计算上海市机动车污染物排放. 环境科学学报, 26: 1-9.

国际会议

[1] Wang H. Decarbonization of China’s urbanization. 10th International Carbon Dioxide Conference (ICDC10), 21-26 August, Interlaken, Switzerland.
[2] Wang H, Xie R, Zhu W, Jiang F. 2016. Spatio-temporal Variations and Source Contributions of China’s premature deaths Attributable to PM2.5. AGU Fall Meeting, 12-16 December, San Francisco, USA.
[3] Wang H, Jiang S, Chen Z. 2016. Committed CO2 Emissions of China’s Coal-fired Power Plants. AGU Fall Meeting, 12-16 December, San Francisco, USA.
[4] Wang H and Zhu W. 2015. Refined Assessment of Human PM2.5 Exposure in Chinese City by Incorporating Time-activity Data, AGU Fall Meeting, 12-16 December, San Francisco, USA.
[5] Wang H, Zhang Y, Bi J. 2014. Various Perspectives of Mitigating Fossil Fuel Use and Air Pollutant Emissions in China’s Megacity. AGU Fall Meeting, 15-19 December, San Francisco, USA.
[6] Zhang Y, Liang S, Wang H, Xu M. 2014. Mapping knowledge domains between input-output analysis and complex network analysis. 22nd International Input-Output Conference, 15-18 July, Lisbon, Portugal.
[7] Wang H, Liu M, Bi J, Sabel C. 2013. Co-benefits of climate change mitigation policies on health: a case study in Suzhou City, China. Conference of ISEE, ISES and ISIAQ: Environment and Health-Bridging South, North, East and West, 19-23 August, Basel, Switzerland.
[8] Wang H, Liu MM, Chen J, et al. 2013. Refined estimate of China’s CO2 emissions in spatiotemporal distributions. 9th International Carbon Dioxide Conference (ICDC9), 3-7 June, Beijing, China (大会主题报告).
[9] Wang H, Bi J, Wang Y, et al. 2013. Impact factors of greenhouse gas emissions from China’s cities: Case study of Suzhou. The Performance of Environmental Governance Systems: Comparing America and China, 5-8 May, Nanjing, China.
[10] Wang H. 2012. High resolution CO2 emission inventories of energy consumptions and industrial processes in China. TransCom Meeting 2012, 4-8 June, Nanjing, China.
[11] Wang H. 2012. Vehicular emissions of Chinese cities. International Workshop: Building a network for developing a roadmap of transition pathways to a green transport future, 15-18 July, University of Leeds, England.
[12] Wang H and Fu L*. 2009. Fuel consumption and emissions from passenger cars in China. The Air & Waste Management Association’s (A&WMA) 102nd Annual Conference & Exhibition, Detroit, MI, U.S.A. (博士生论文第二名)

版权所有©2009南京大学环境学院 Copyright © 2009 school of the environment, Nanjing Universityall Rights Reserved