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大气污染与控制教研所

张少君

邮箱:zhsjun@tsinghua.edu.cn

电话:+86-10-62797770

地点:12BET424

教育背景

2005.08 — 2009.07 12BET,环境工程专业,学士

2009.08 — 2014.07 12BET,环境工程专业,博士


工作履历

2022.06 — 至今 12BET副教授,博士生导师

2019.07 — 2022.06 12BET助理教授,博士生导师

2017.02 — 2019.01 美国康奈尔大学阿特金森博士后研究员(David R. Atkinson Fellowship)

2015.03 — 2017.01 美国福特汽车公司研究创新中心,博士后研究员

2015.03 — 2017.01 美国密歇根大学机械工程系,博士后研究员

2014.08 — 2015.03 12BET,博士后研究员


学术兼职

Transportation Research Part D期刊编委(2019-2024)

担任环境、能源与交通领域近20余个期刊审稿人,包括Nature Communications,Environ. Sci. Technol., Appl. Energy, Atmos. Environ., Transport. Res. D., Transport. Res. A

瑞士自然科学基金委和美国南加州大学交通研究中心项目评审专家


研究领域

交通空气质量与能源系统研究,主要包括:机动车实际道路排放特征测试与模拟,高分辨率交通排放清单与空气质量模拟,先进车辆技术与可持续交通系统的综合影响研究(空气-能源-气候-健康),航空排放及其空气质量影响

课题组长期招收本科、硕士及博士生;招聘具有环境工程、大气化学、交通工程或车辆工程等研究背景的博士后,支持申报国家博新计划、12BET博士后“水木学者”计划和青年基金等,有意向者请将简历和代表性成果发送至zhsjun@tsinghua.edu.cn


研究概况

  1. 国家重点研发计划,在用机动车高污染成因诊断与治理关键技术研发及示范, 2022/10-2026/3,课题负责人

  2. 国家自然科学基金面上项目,基于OBD远程监控的重型柴油车氮氧化物排放动态表征方法研究,2022/1-2025/12,项目负责人

  3. 宁德时代公司,动力电池供应链碳足迹生命周期数据和方法研究,2022/1-2023/6,项目负责人

  4. 一汽-大众中华环境保护基金会项目,智能交通模式下能源结构预测及减排效果仿真研究,2022/4-2023/3,项目负责人

  5. 福特汽车公司(URP),基于数据驱动的智慧感知城市空气质量管理系统研究,2020/12-2022/12,项目负责人

  6. 12BET-丰田汽车公司联合研究院跨学科专项,新能源汽车能源环境大数据系统研发与示范应用,2020/4-2022/3,子课题负责人

  7. 移动源污染排放控制技术国家工程实验室开放基金,典型重型天然气车实际道路排放特征及排放模型研究,2020/1-2021/12,项目负责人

  8. 德国国际合作机构(GIZ),京津冀区域电动汽车发展空气质量影响研究,2019/05-2019/11,项目负责人


奖励与荣誉

  1. 2023年 交通运输行业青年拔尖创新人才计划

  2. 2023年 环境保护科学技术一等奖(3/15

  3. 2023年 高等学校科学技术进步奖一等奖(14/15

  4. 2020年 生态环境十大科技进展

  5. 2020年 Environmental Science & Technology Letters优秀审稿人

  6. 2017年 康奈尔大学阿特金森可持续发展博士后资助(David R. Atkinson Fellowship)

  7. 2014年 北京市优秀毕业生(研究生)

  8. 2012年 12BET林枫辅导员奖

  9. 2009年 北京市优秀毕业生


学术成果

迄今在能源、环境和交通领域期刊发表论文100余篇,代表性论文发表于Nature EnergyNature SustainabilityPNASOne Earth等国际顶级期刊。入选交通运输行业青年拔尖人才,作为主要起草人参与制定《道路机动车大气污染物排放清单编制技术指南》和《汽车生命周期温室气体及大气污染物排放评价方法》团体标准。

截至2024年9月,Google论文总引超过7000次,H指数为46。

一、部分期刊论文*通讯作者;#共同一作):

  1. Zhao, P.#, Zhang, S.#*, Santi, P., Cui, D., Wang, F., Liu, P., Zhang, Z., Liu, J., Wang, Z*., Ratti, C. Wu, Y.*, 2024. Challenges and opportunities in truck electrification revealed by big operational data. Nature Energy.

  2. Zhao, P., Wu, X., Zhang, S.*, He, L., Yang, Y., Hu, Q., Huang, C., Yu, B., Wu, Y.. Regulatory Insights for On-Board Monitoring of Vehicular NOx Emission Compliance. Environmental Science & Technology, 2024, 58(18), 7968-7976.

  3. Wen, Y., Zhang, S.*, Wang, Y.*, Yang, J., He, L., Wu, Y. and Hao, J. Dynamic Traffic Data in Machine-Learning Air Quality Mapping Improves Environmental Justice Assessment. Environmental Science & Technology, 2024, 58(7), 3118-3128.

  4. Zhang, S.*, Xiong, Y., Liang, X., Wang, F., Liang, S.*, Wu, Y. Spatial and Cross-Sectoral Transfer of Air Pollutant Emissions from the Fleet Electrification in China by 2030. Environmental Science & Technology, 2023, 57(50), pp.21249-21259.

  5. Wang, Y.#, Wen, Y.#, Zhang, S.*, Zheng, G., Zheng, H., Chang, X., Huang, C., Wang, S., Wu, Y., Hao, J. Vehicular ammonia emissions significantly contribute to urban PM2.5 pollution in two Chinese megacities. Environmental science & technology, 2023, 57(7), 2698-2705. (ESI高被引论文)

  6. Zhang, J.#, Jiang, Y.#, Wang, Y., Zhang, S.*, Wu, Y., Wang, S., Nielsen, C.P., McElroy, M.B. and Hao, J. Increased Impact of Aviation on Air Quality and Human Health in China. Environmental Science & Technology, 2023, 57(48), 19575-19583.

  7. Wang, F., Zhang, S.*, Zhao, Y., Ma, Y., Zhang, Y., Hove, A. and Wu, Y. Multisectoral drivers of decarbonizing battery electric vehicles in China. PNAS nexus, 2(5), 2023, p.pgad123.

  8. Wen, Y., Zhou, Z., Zhang, S.*, Wallington, T.J., Shen, W., Tan, Q., Wu, Y. Urban–Rural Disparities in Air Quality Responses to Traffic Changes in a Megacity of China Revealed Using Machine Learning. Environmental Science & Technology Letters, 2022, 9 (7), 592-598

  9. Zhang, J., Zhang, S*., Zhang, X., Wang, J., Wu, Y., Hao, J. Developing a High-Resolution Emission Inventory of China’s Aviation Sector Using Real-World Flight Trajectory Data. Environmental Science & Technology, 2022, 56(9), 5743-5752.

  10. Chen, J., Wang, F., He, X., Liang, X., Huang, J., Zhang, S.*, Wu, Y. Emission mitigation potential from coordinated charging schemes for future private electric vehicles. Applied Energy, 2022, 308, 118385

  11. Yu, Y.T., Xiang, S., Zhang, T., You, Y., Si, S., Zhang, S.*, Wu, Y. Evaluation of city-scale disparities in PM2.5 exposure using hyper-localized taxi-based mobile monitoring. Environmental Science & Technology, 2022, 56(19), 13584-13594.

  12. Yang, J.#, Wen, Y.#, Wang, Y.*, Zhang, S.*, Pinto, J.P., Pennington, E.A., Wang, Z., Wu, Y., Sander, S.P., Jiang, J.H. Hao, J., Yung, Y.L., Seinfeld, J. H.* From COVID-19 to future electrification: Assessing traffic impacts on air quality by a machine-learning model. Proceedings of the National Academy of Sciences, 2021, 118(26), p.e2102705118.

  13. Zhang, D.*, Gao, J., Tang, D., Wu, X., Shi, J., Chen, J., Peng, Y., Zhang, S.*, Wu, Y. Switching on auxiliary devices in vehicular fuel efficiency tests can help cut CO2 emissions by millions of tons. One Earth, 2021, 4(1): 135-145

  14. Wen, Y., Zhang, S.*, He, L., Yang, S., Wu, X. and Wu, Y. Characterizing start emissions of gasoline vehicles and the seasonal, diurnal and spatial variabilities in China. Atmospheric Environment, 2021, 245: 118040.

  15. Wang, H.# *, He, X.#, Liang, X.#, Li, S., Zheng, H., Zhang, S,*, Nielsen, C. P., Wang S., Wu, Y.*, Evans, J. S. Health benefits of on-road transportation pollution control programs in China. Proceedings of National Academy of Sciences, 2020, 117(41): 25370-25377

  16. Xiang, S., Zhang, S*., Wang, H., Wen, Y., Yu, Y.T., Li, Z., Wallington, T.J., Shen, W., Deng, Y., Tan, Q.,  Zhou, Z., Wu, Y., 2021. Mobile Measurements of Carbonaceous Aerosol in Microenvironments to Discern Contributions from Traffic and Solid Fuel Burning. Environmental Science & Technology Letters, 8(10), 867-872.

  17. Wang, Y.#, Wen, Y.#, Zhang, S.*, Zhang, K. M., Zheng, H., Xing, J., Wu, Y., Hao, J. Four-month changes in air quality during and after the COVID-19 lockdown in six megacities in China. Environmental Science & Technology Letters, 2020, 7(11): 802-808 (入选ES&T Letters年度浏览量最高论文)

  18. Zhang, S.*, Zhao, P., He, L., Yang, Y., Liu, B., He, W., Cheng, Y., Liu, Y., Liu, S., Hu, Q., Huang, C., Wu, Y. On-board monitoring (OBM) for heavy-duty vehicle emissions in China: Regulations, early-stage evaluation and policy recommendations. Science of the Total Environment, 2020, 731: 139045

  19. Liang, X.#, Zhang, S.#, Wu, Y.*, Xing, J., He, X., Zhang, K. M., Wang, S., Hao, J. Air quality and health benefits from fleet electrification in China. Nature Sustainability, 2019, 2: 962-971

  20. Zhang, S., Niu, T., Wu, Y.*, Zhang, K. M., Wallington, T. J., Xie, Q., Wu, X., Xu, H., Zhang, L. Integrating intelligent transportation system into vehicle emission management: A case study based on multi-source traffic data. Environmental Pollution, 2018, 241: 1027-1037

  21. Wu, Y.#*, Zhang, S.#, Hao, J., Liu, H., Wu, X., Hu, J., Walsh, M. P., Wallington, T. J., Zhang, K. M., Stevanovic, S. On-road vehicle emissions and their control in China: A review and outlook. Science of the Total Environment, 2017, 574: 332-349ESI高被引论文)

  22. Zhang, S., Wu, Y.*, Huang, R., Yan, H., Zheng, Y., Hao, J. High-resolution simulation of link-level vehicle emissions and concentrations for air pollutants in a traffic-populated city. Atmospheric Chemistry and Physics, 2016, 16: 9965-9981.

  23. Zhang, S., Wu, Y.*, Liu, H., Huang, R., Yang, L., Li, Z., Fu, L., Hao, J. Real-world fuel consumption and CO2 emissions of urban public buses in Beijing. Applied Energy, 2014, 113: 1645-1655 ESI高被引论文)

  24. Zhang, S., Wu, Y.*, Hu J., Huang, R., Zhou, Y., Bao, X., Fu, L., Hao, J. Can Euro V heavy-duty diesel engines and alternative fuel technologies mitigate NOX emissions? - New evidences from the on-road tests for buses in China. Applied Energy, 2014, 132: 118-126

  25. Zhang, S., Wu, Y.*, Wu, X., Li, M., Ge, Y., Liang, B., Xu, Y., Zhou, Y., Liu, H., Fu, L., Hao, J. Historic and future trends of vehicle emissions in Beijing, 1998-2020: A policy assessment for the most stringent vehicle emission control program in China. Atmospheric Environment, 2014, 89: 216-229

二、专著

  1. 《汽车尾气净化技术》,郭刚,徐立峰,张少君. 机械工业出版社,北京, 2017.