袁自冰，男，博士后，教授，2002年获北京大学化学学士，2006年获香港科技大学大气环境科学博士学位，毕业后留校工作，历任博士后，副研究员，研究助理教授，同时已在国际知名杂志(SCI收录)发表论文三十余篇，其中第一作者或通讯作者十余篇，2015年以来主持多项国家以及省部级重点项目，2017年3月份入选“大气污染成因与控制技术研究”重点专项视频评审专家，经济快速发展地区区域空气质量改善国际系列学术会议重要组织者之一。

人物经历

1998.9 – 2002.7 北京大学理学学士（化学） 2002.9 – 2006.11 香港科技大学哲学博士（大气环境科学）

2006.11 – 2015.11 香港科技大学博士后、副研究员、研究助理教授、霍英东研究院大气研究中心经理

2015.12 – 华南理工大学教授

2017.3入选“大气污染成因与控制技术研究”重点专项视频评审专家

招生专业

招生专业：083000环境科学与工程（学术型博士、学术型硕士）、 085229环境工程(专业学位硕士)；截止到2018年，袁自冰教授团队拥有博士研究生5名，硕士研究生8名（包含已经毕业硕士研究生一名），毕业设计本科生多名

主持项目

1.国家自然科学基金委“中国大气复合污染的成因、健康影响和应对机制”联合重大研究计划重点支持项目“气候变化背景下光化学活跃区大气氧化性演变对近地面臭氧污染的影响研究”（91644221），250万元（直接费用），2017.1-2020.12

2.国家重点研发计划“大气污染成因与控制技术研究”试点专项项目课题“大气反应性有机化合物来源量化与校验”（2016YFC0202201），730万元，2016.7-2020.6

3.上海市科委科研计划重点项目课题“上海市臭氧非线性变化控制机制研究”（16DZ204605），70万元，2016.7-2018.6

4.华南理工大学中央高校基本科研业务费重点项目“珠三角二次有机气溶胶估算方法研究”，20万元，2015.7-2017.6

研究方向

研究方向概述：

近年来，由于一系列减排措施的推行，我国主要城市群大气细颗粒物（PM2.5）污染得到一定程度的改善。然而，臭氧污染日益严重，引起政府和公众的广泛关注。国外的相关经验表明，臭氧治理比PM2.5要困难的多，需要时间也长的多。我国现阶段普遍采取的以PM2.5为导向的控制策略不能满足臭氧控制的需求，在PM2.5达标后，我国主要城市群的大气污染控制势必转移到以臭氧为防控重点上来。以长三角、珠三角等典型光化学活跃区近地面臭氧污染为研究核心，在反应性有机化合物排放特征、臭氧非线性变化控制机制以及气候变化背景下大气氧化性演变对近地面臭氧污染影响等方向开展深入研究，具体为：

1. 大气反应性有机物来源量化与校验：

反应性有机物在大气化学过程和臭氧生成中起至关重要的作用，但其排放特征和化学转化尚未得到充分研究。针对当前反应性有机物来源研究的两个薄弱环节：活性组分测量和化学转化过程校正，借助源排放测量、排放模型和文献调研等手段，完善长三角和珠三角地区反应性有机物重要排放源化学成分谱，特别是补充现有反应性有机物源谱中缺失的支链烯烃、反应性醛类等关键活性组分，构建本地化的反应性有机物排放源数据库；以2016年为基准年，构建中国东部地区高时空分辨率的反应性有机物排放源清单；针对反应性有机物重要排放源，量化表征大气中反应性有机物从源到受体点的化学转化过程，建立基于地面观测、模型反演和卫星遥感的反应性组分来源校验方法；并预估长三角和珠三角地区反应性有机物未来5~10年的排放趋势。

2. 光化学活跃区臭氧非线性变化控制机制研究：

通过结合基于观测模型、三维空气质量模型和卫星遥感等三种技术手段，定量识别不同气象条件下本地生成及区域传输对长三角和珠三角不同地区臭氧的相对贡献，阐明不同地区臭氧及其前体物的非线性关系及其时空变化特征，揭示不同气象条件下VOC敏感、NOx敏感及过渡区的空间分布；利用长期卫星遥感资料阐明长三角和珠三角地区评判VOC敏感、NOx敏感及过渡区的FNR标准，识别两区域臭氧控制机制的长期变化趋势，探索臭氧生成的敏感区域划分随NOx及挥发性有机物削减的变化规律，为遏制臭氧污染事件发生的频率和强度以及制定中长期臭氧达标规划提供科学依据。

3. 气候变化背景下大气氧化性演变对近地面臭氧污染影响研究：

臭氧防控通常需要数十年的时间，在这一时间尺度上气候变化对臭氧污染的影响不可忽视。根据长三角和珠三角多站点长期监测结果，建立描述臭氧、NOx及环境温度关系的概念模型，识别温度对不同区域臭氧生成效率的影响；将温度因素纳入排放源清单动态体系，在不同环境温度下对部分挥发性挥发性有机物排放源谱进行现场采样与分析，阐明温度对挥发性VOCs排放特征的影响；在本地化的三维空气质量模型中应用纳入温度因素的动态排放源清单并对环境温度进行扰动，揭示两区域的臭氧气候补偿效应，建立温度与臭氧前体物响应关系之间的函数关系，为不同气候变化背景下两区域制定臭氧控制策略提供科学依据。

主要贡献

国际学术论文

1. Huang, Z.J., Hu, Y.T., Zheng, J.Y.*, Yuan, Z.B., Russell, A.G.*, Ou, J.M. and Zhong, Z.M. A new combined stepwisebased high-order decoupled direct and reduced-form method to improve uncertainty analysis in PM2.5 simulations, Environmental Science and Technology, 2017, 51, 3852-3859.

2. Zhong, Z.M., Sha, Q.E., Zheng, J.Y.*, Yuan, Z.B., Gao, Z.J., Ou, J.M., Zheng, Z.Y., Li, C. and Huang, Z.J. sectorbased 挥发性有机物 emission factors and source profiles for the surface coating industry in the Pearl River Delta region of China, Science of the 道达尔公司 Environment, 2017, 583, 19-28.

3. Yin, X.H., Huang, Z.J., Zheng, J.Y.*, Yuan, Z.B., Zhu, 微博电子竞技俱乐部, Huang, X.B. and Chen, D.H. Source contributions to PM2.5 in Guangdong province, China by numerical modeling: results and implications, Atmospheric Research, 2017, 186, 63-71.

4. Ou, J.M., Yuan, Z.B.*, Zheng, J.Y.*, Huang, Z.J., Shao, M., Li, Z.K., Huang, X.B., Guo, H. and Louie, P.K.K. Ambient 臭氧 control in a photochemically active region: short-term despiking or long-term attainment?, Environmental Science and Technology, 2016, 50, 5720-5728.

5. Xue, J., Yuan, Z.B., Griffith, M., Yu, X., Lau, 安德烈·基里连科H. and Yu, J.Z.* Sulfate formation enhanced by a cocktail of High NOx, 二氧化硫, particulate matter, and droplet pH during haze-fog events in megacities in China: an observation-based modeling investigation, Environmental Science and Technology, 2016, 50, 7325-7334.

6. Li, C., Yuan, Z.B., Ou, J.M., Fan, X.L., Ye, S.Q., Xiao, T., Shi, Y.Q., Huang, Z.J., Ng, S.K.W., Zhong, Z.M. and Zheng, J.Y.* An AIS-based high-resolution ship emission inventory and its uncertainty in the Pearl River Delta region, China, Science of the Total Environment, 2016, 573, 1-10.

7. Lin, C.Q., Li, C.C.*, Lau, 安德烈·基里连科H., Yuan, Z.B., Lu, X.C., Tse, KT Rolster, Fung, J.C.H., Li, Y., Yao, T. and Su, L. Assessment of satellite-based aerosol optical depth using continuous lidar observation, Atmospheric Environment, 2016, 140, 273-282.

8. Yin, S.S., Zheng, J.Y.*, Lu, Q., Yuan, Z.B., Huang, Z.J., Zhong, L.J. and Lin, H. A refined 2010-based VOC emission inventory and its improvement on modeling regional 臭氧 in the Pearl River Delta region, China, Science of the Total Environment, 2015, 154, 426-438.

9. Li, Z.Y., Yuan, Z.B.*, Lau, A.K.H. and Louie, P.K.K. Characterization and source apportionment of health risks from ambient PM10 in Hong Kong over 2000-2011, Atmospheric Environment, 2015, 122, 892-899.

10. Su, L., Yuan, Z.B.*, Fung, J.C.H. and Lau, A.K.H. A comparison of HYSPLIT backward trajectories generated from two GDAS datasets, Science of the Total Environment, 2015, 506-507, 527-537.

11. Lin, C.Q., Li, Y.*, Yuan, Z.B., Lau, 安德烈·基里连科H., Li, C.C. and Fung, J.C.H. Using satellite remote sensing data to estimate the high-resolution distribution of ground-level PM2.5, Remote Sensing of Environment, 2015, 56, 117-128.

12. Huang, Z.J., Wang, S.S., Zheng, J.Y.*, Yuan, Z.B., Ye, S.Q. and Kang, D.W. Modeling inorganic nitrogen deposition in Guangdong province, China, Atmospheric Environment, 2015, 109, 147-160.

13. Yin, S.S., Zheng, J.Y.*, Lu, Q., Yuan, Z.B., Huang, Z.J., Zhong, L.J. and Lin, H. A refined 2010-based VOC emission inventory and its improvement on modeling regional 臭氧 in the Pearl River Delta region, China, Science of the Total Environment, 2015, 154, 426-438.

14. Xue, J., Yuan, Z.B.*, Yu, J.Z. and Lau, A.K.H. An observation-based model for secondary inorganic aerosols, Aerosol and Air Quality Research, 2014, 14, 862-878.

15. Xue, J., Yuan, Z.B., Lau, 安德烈·基里连科H. and Yu, J.Z.* Insights into factors affecting nitrate in PM2.5 in a polluted high NOx environment through hourly observations and size distribution measurements, Journal of Geophysical Research– Atmospheres, 2014, 119, 4888-4902.

16. Yu, X., Yuan, Z.B., Fung, J.C.H., Xue, J., Li, Y., Zheng, J.Y. and Lau, A.K.H.* 臭氧 changes in response to the heavy-duty diesel truck control in the Pearl River delta, Atmospheric Environment, 2014, 88, 269-274.

17. Yuan, Z.B., Yadav, V., Turner, J.R., Louie, P.K.K. and Lau, A.K.H.* Long-term trends of ambient particulate matter emission source contributions and the accountability of control strategies in Hong Kong over 1998-2008, Atmospheric Environment, 2013, 76, 21-31.

18. Yuan, Z.B., Zhong, L.J., Lau, 安德烈·基里连科H.*, Yu, J.Z. and Louie, P.K.K. Volatile organic compounds in the Pearl River Delta: Identification of source regions and recommendation for emission-oriented monitoring strategies, Atmospheric Environment, 2013, 76, 162-172.

19. Zhong, L.J., Louie, P.K.K.*, Zheng, J.Y., Wai, K.M., Ho, J.W.K., Yuan, Z.B., Lau, A.K.H., Yue, D.L. and Zhou, Y. The Pearl River Delta regional air quality monitoring network– regional collaborative efforts on joint air quality 管理学, Aerosol and Air Quality Research, 2013, 13, 1582-1597.

20. Deng, X.J.*, Wu, D., Yu, J.Z., Lau, 安德烈·基里连科H., Li, F., Tan, H.B., Yuan, Z.B., Ng, 威廉与玛丽学院, Deng, T., Wu, C. and Zhou, X.J. Characterization of secondary aerosol and its extinction effects on visibility over the Pearl River Delta Region, China, Journal of Air and Waste 管理学 Association, 2013, 63, 1012-1021.

21. Zhong, L.J., Louie, P.K.K.*, Zheng, J.Y., Yuan, Z.B., Yue, D.L., Ho, J.W.K. and Lau, A.K.H. Science-policy Interplay娱乐: Air quality management in the Pearl River Delta and Hong Kong, Atmospheric Environment, 2013, 76, 3-10.

22. Lu, Q., Zheng, J.Y.*, Ye, 世界树迷宫, Shen, X.L., Yuan, Z.B. and Yin, S.S. Emission trends and source characteristics of 二氧化硫, NOx, PM10 and 挥发性有机物 in the Pearl River Delta region from 2000 to 2009, Atmospheric Environment, 2013, 76, 11-20.

23. Louie, P.K.K.*, Ho, J.W.K., Tsang, R.C.W., Blake, D.R., Lau, 安德烈·基里连科H., Yu, J.Z., Yuan, Z.B., Wang, X.M., Shao, M. and Zhong, L.J. VOCs and OVOCs distribution and control policy implications in Pearl River Delta region, China, Atmospheric Environment, 2013, 76, 125-135.

24. Li, Y.C., Yu, J.Z.*, Ho, S.S.H., Schauer, 约翰·约翰逊, Yuan, Z.B., Lau, A.K.H. and Louie, P.K.K. Chemical characteristics and source apportionment of fine particulate organic carbon in Hong Kong during high particulate matter episodes in winter 2003, Atmospheric Research, 2013, 120, 88-98.

25. Li, Y.C., Yu, J.Z.*, Ho, S.S.H., Yuan, Z.B., Lau, 安德烈·基里连科H. and Huang, X.F. Chemical characteristics of PMand organic aerosol source analysis during cold front episodes in Hong Kong, China, Atmospheric Research, 2012, 118, 41-51.

26. Zheng, J.Y.*, He, M., Shen, X.L., Yin, S.S. and Yuan, Z.B. High resolution of 黑色 carbon and organic carbon emissions in the Pearl River Delta region, China, Science of the Total Environment, 2012, 438, 189-200.

27. Lau, A.K.H., Yuan, Z.B.*, Yu, J.Z. and Louie, P.K.K. Source apportionment of ambient volatile organic compounds in Hong Kong, Science of the Total Environment, 2010, 408, 4138-4149.

28. Yuan, Z.B., Lau, 安德烈·基里连科H.*, Shao,M., Louie, P.K.K., Liu, S.C. and Zhu, T. Source analysis of volatile organic compounds by positive matrix factorization in urban and rural environments in Beijing, Journal of Geophysical Research, 2009, 114,doi:10.1029/2008JD011190.

29. Huang, X.F., Yu, J.Z.*, Yuan, Z.B., Lau, A.K.H. and Louie, P.K.K. Source analysis of high particulate matter days in Hong Kong, Atmospheric Environment, 2009, 43, 1196-1203.

30. Yuan, Z.B., Lau, A.K.H.*, Zhang, H.Y., Yu, J.Z., Louie, P.K.K. and Fung, J.C.H. Identification and spatiotemporal variation of dominant PMsources over Hong Kong, Atmospheric Environment, 2006, 40, 1803-1815.

31. Yuan, Z.B., Yu, J.Z.*, Lau, A.K.H., Louie, P.K.K. and Fung, J.C.H. Application of positive matrix factorization in estimating aerosol secondary organic carbon in Hong Kong and its relationship with secondary sulfate, Atmospheric 化学 and Physics, 2006, 6, 25-34.

32. Huang, X.F., Yu, J.Z.*, He, L.Y. and Yuan, Z.B. Water-soluble organic carbon and oxalate in aerosols at a coastal urban site in China: Size distribution characteristics, sources and formation mechanisms, Journal of Geophysical Research, 2006, 111,doi:10.1029/2006JD007408.

33. Lo, JC·弗劳尔斯公司, Lau, 安德烈·基里连科H.*, Yuan, Z.B., Chen, F. and Fung, J.C.H. A physical modeling approach for identification of source regions of air pollutants, Atmospheric Chemistry and Physics Discussions, 2006, 6, 6467-6496.

34. Li, C.C., Mao, J.T.*, Lau, A.K.H., Yuan, Z.B., Wang, M.H. and Liu, X.Y. Application of MODIS satellite products to the air pollution research in Beijing, Science in China Series D– Earch Sciences, 2005, 48, Suppl. 2, 209-219.

35. Li, C.C., Mao, J.T.*, Lau, A.K.H., Chen, J.C., Yuan, Z.B., Liu, X.Y., Zhu, A.H. and Liu, G.Q. Characteristics of distribution and seasonal variation of aerosol optical depth in eastern China with MODIS products, Chinese Science Bulletin, 2003, 48, 2488-2495.

36. Fung, J.C.H.*, Lau, A.K.H., Lam, J.S.L. and Yuan, Z.B. Observational and modeling analysis of a severe air pollution episode in western Hong Kong. Journal of Geophysical Research, 2003, 110,doi: 10.1029/2004JD005105.

参考资料

华南理工大学环境与能源学院.华南理工大学环境与能源学院.2018-07-27

国家重点研发计划“大气污染成因与控制技术研究”重点专项2017年度指南申报项目视频评审专家名单公告.国家重点研发计划“大气污染成因与控制技术研究”重点专项2017年度指南申报项目视频评审专家名单公告.2018-07-27

重点研发计划.重点研发计划三个重点专项视频答辩评审专家名单.2018-07-29

Insights into factors affecting nitrate in PM2.5 in a polluted high NOx environment through hourly observations and size distribution measurements.JGR.2018-07-29

The Pearl River Delta regional air quality monitoring network– regional collaborative efforts on joint air quality management.AAQR.2018-07-29

Characterization of secondary aerosol and its extinction effects on visibility over the Pearl River Delta Region, China.JAWMA.2018-07-29

Characteristics of distribution and seasonal variation of aerosol optical depth in eastern China with MODIS products.CSB.2018-07-29