刘保双

发布者:envadmin发布时间:2025-01-03浏览次数:10

姓名:刘保双

职务职称:副教授

   o   生态环境部城市空气颗粒物污染防治重点实验室成员

   o   中国气象局-南开大学大气环境与健康联合实验室成员

联系电话022-85358616

电子邮箱lbsnankai@foxmail.com

办公地点:南开大学津南校区环境科学与工程学院A248

研究领域:大气化学;大气污染防治;大气污染物溯源方法

研究兴趣:

围绕大气复合污染相关问题,主要从事大气颗粒物与臭氧复合污染机理、臭氧及其关键前体物VOCs精准溯源方法、大气污染源控制效果评估等方面的研究工作,探索大气颗粒物与臭氧污染协同管控路径与方向。诚邀感兴趣的同学、同行交流合作!

 

 

教育背景

2019.2—2024.12  南开大学环境科学与工程学院环境科学专业师资博士后

2014.9—2018.12  南开大学环境科学与工程学院环境科学专业理学博士

 

科研教学经历

2024.12 —至今 南开大学环境科学与工程学院副教授

2019.2—2024.12  南开大学环境科学与工程学院助理研究员

 

学术与社会任职

Environmental Science & TechnologyEnvironment InternationalAtmospheric Chemistry and PhysicsJournal of Hazardous MaterialsScience of The Total EnvironmentEnvironmental Pollution等期刊审稿人。

 

科研项目

1.国家自然科学基金面上项目(42477101),环境空气VOCs化学损耗的定量及来源研究,2025—2028,主持;

2.国家重点研发计划项目子课题(2023YFC3705801),颗粒物化学组分质控与自洽技术研究,2023—2027,主持;

3.大气重污染成因与防治攻关项目(DQGG202103),石家庄市细颗粒物和臭氧来源解析技术服务,2023—2024,主持;

4.大气重污染成因与防治攻关项目(DQGG202152-3),石河子市秋冬季大气污染协同防控示范研究,2021—2024,主持;

5.中国博士后科学基金面上项目(2019M660986),基于频谱分析的大气污染监测数据时间序列分解方法研究,2020—2021,主持;

6.中央高校基本科研项目(63211074),大气复合污染成因综合分析技术体系,2021—2021,主持;

7.中央高校基本科研项目(63201121),大气污染在线多组分数据的质控方法及有效性评估研究,2020—2020,主持;

8.横向应用项目,--区域颗粒物组分分析服务项目,2023—2023,主持;

9.横向应用项目,颗粒物来源解析资金项目,2019—2020,主持;

10.横向应用项目,空气颗粒物来源解析研究,2019—2020,主持;

11.横向应用项目,2020年臭氧污染防治能力建设项目,2020—2021,主持;

12.横向应用项目,胶州市PM2.5来源解析及O3污染成因研究项目,2021—2022,主持;

13.横向应用项目,天津市河西区大气污染现状、成因分析及对策建议,2020—2021,主持;

14.国家自然科学基金面上项目(42177085),耦合多维先验信息的新型大气颗粒物来源解析方法研究,2022—2025,项目骨干;

15.国家重点研发计划项目课题(2016YFC0208502),大气污染多组分在线源解析集成技术,2016—2019,项目骨干;

16.国家重点研发计划项目课题(2022YFC3703001),环境空气质量评估与标准制修订关键技术及应用,2022—2026,项目骨干;

17.大气重污染成因与防治攻关项目(DQGG2021301),臭氧来源解析技术研究,2021—2022,项目骨干;

18.大气重污染成因与防治攻关项目(DQGG0105-01),主要污染源和污染过程的示踪信息识别及筛选技术,2017—2019,项目骨干;

19.天津市生态环境治理科技重大专项(18ZXSZSF00160),天津市大气复合污染精准解析及防治方案研究,2018—2021,项目骨干。

 

学术论著

代表性论文(*为通讯作者)

1. Wu, Y.T., Liu, B.S.*, Meng, H., Wang, F.Q., Li, S., Xu, M., Shi, L.Y., Zhang, S.F., Feng, Y.C., Hopke, P.K., 2024. Unexpected changes in source apportioned results derived from different ambient VOC metrics. Environment International, 190, 108910.

2. Cui, Y.Q., Liu, B.S.*, Yang, Y.F., Kang, S.C., Wang, F.Q., Xu, M., Wang, W., Feng, Y.C., Hopke, P.K., 2024. Primary and oxidative source analyses of consumed VOCs in the atmosphere. Journal of Hazardous Materials, 476, 134894.

3. Liu, B.S.*, Gu, Y., Wu, Y.T., Dai, Q.L., Song, S.J., Feng, Y.C.*, Hopke, P.K., 2024. Review of source analyses of ambient volatile organic compounds considering reactive losses: methods of reducing loss effects, impacts of losses, and sources. Atmospheric Chemistry and Physics, 24, 1286112879.

4. Diao, LL., Xu, Z.Z., Song, D.R.*, Zhu, C., Li, X.C., Zhou, X.Y., Jing, X.D., Yu, L.M., Liu, B.S.*, 2024. Dry deposition fluxes and inhalation risks of toxic elements in total suspended particles in the Bohai Rim region: Long-term trends and potential sources. Journal of Hazardous Materials, 474, 134692.

5. Liu, B.S.*, Yang, T., Kang, S.C., Wang, F.Q., Zhang, H.X., Xu, M., Wang, W., Bai, J.R., Song, S.J., Dai, Q.L., Feng, Y.C., Hopke, P.K., 2025. Changes in factor profiles deriving from photochemical losses of volatile organic compounds: insight from daytime and nighttime positive matrix factorization analyses. Journal of Environmental Sciences, 151, 627–639.

6. Gu, Y., Liu, B.S.*, Meng, H., Song, S.J., Dai, Q.L., Shi, L.Y., Feng, Y.C., Hopke, P.K., 2023. Source apportionment of consumed volatile organic compounds in the atmosphere. Journal of Hazardous Materials, 459, 132138.

7. Wu, Y.T., Liu, B.S.*, Meng, H., Dai, Q.L., Shi, L.Y., Song, S.J., Feng, Y.C., Hopke, P.K., 2023. Changes in source apportioned VOCs during high O3 periods using initial VOC-concentration-dispersion normalized PMF. Science of The Total Environment, 896, 165182.

8. Liu, B.S., Yang, Y., Yang, T., Dai, Q.L., Zhang, Y.F.*, Feng, Y.C., Hopke, P.K., 2023. Effect of photochemical losses of ambient volatile organic compounds on their source apportionment. Environment International, 172, 107766.

9. Liu, B.S., Wang, Y.Y., Meng, H., Dai, Q.L., Diao, L.L., Wu, J.H., Shi, L.Y., Wang, J., Zhang, Y.F.*, Feng, Y.C.*, 2022. Dramatic changes in atmospheric pollution source contributions for a coastal megacity in northern China from 2011 to 2020. Atmospheric Chemistry and Physics, 22, 8597–8615.

10. Yang, T., Liu, B.S.*, Yang, Y., Dai, Q.L., Zhang, Y.F., Feng, Y.C., Hopke, P.K., 2022. Improved positive matrix factorization for source apportionment of volatile organic compounds in vehicular emissions during the Spring Festival in Tianjin, China. Environmental Pollution, 303, 119122.

11. Yang, Y., Liu, B.S.*, Hua, J., Yang, T., Dai, Q.L., Wu, J.H., Feng, Y.C., Hopke, P.K., 2022. Global review of source apportionment of volatile organic compounds based on highly time-resolved data from 2015 to 2021. Environment International, 165, 107330.

12. Gu, Y., Liu, B.S.*, Dai, Q.L., Zhang, Y.F., Zhou, M., Feng, Y.C., Hopke, P.K., 2022. Multiply improved positive matrix factorization for source apportionment of volatile organic compounds during the COVID-19 shutdown in Tianjin, China. Environment International, 158, 106979.

13. Diao, L.L., Zhang, H.T., Liu, B.S.*, Dai, C.L., Zhang, Y.F., Dai, Q.L., Bi, X.H., Zhang, L.Z., Song, C.B., Feng, Y.C., 2021. Health risks of inhaled selected toxic elements during the haze episodes in Shijiazhuang, China: Insight into critical risk sources. Environmental Pollution, 276, 116664.

14. Wang, Y.Y., Liu, B.S.*, Zhang, Y.F., Dai, Q.L., Song, C.B., Duan, L.Q., Guo, L.L., Zhao, J., Xue, Z.G., Bi, X.H., Feng, Y.C., 2021. Potential health risks of inhaled toxic elements and risk sources during different COVID-19 lockdown stages in Linfen, China. Environmental Pollution, 284, 117454.

15. Huang, H.Y., Liu, B.S.*, Li, S., Choe, T.H., Dai, Q.L., Gu, Y., Diao, L.L., Zhang, S.F., Bi, X.H., Luo, Z.W., Lu, M.M., Zhang, Y.F., Feng, Y.C., 2021. An estimation method for regional transport contributions from emission sources based on a high-mountain site: a case study in Zhumadian, China. Atmospheric Environment, 263, 118664.

16. Liu, B.S., Wu, J.H.*, Wang, J., Shi, L.Y., Meng, H., Dai, Q.L., Wang, J., Song, C.B., Zhang, Y.F., Feng, Y.C., Hopke, P.K., 2021. Chemical characteristics and sources of ambient PM2.5 in a harbor area: Quantification of health risks to workers from source-specific selected toxic elements. Environmental Pollution, 268, 115926.

17. Gu, Y., Liu, B.S.*, Li, Y.F., Zhang, Y.F., Bi, X.H., Wu, J.H., Song, C.B., Dai, Q.L., Han, Y., Ren, G., Feng, Y.C., 2020. Multi-scale volatile organic compound (VOC) source apportionment in Tianjin, China, using a receptor model coupled with 1-hr resolution data. Environmental Pollution, 265, 115023.

18. Li, Y.F., Liu, B.S.*, Xue, Z.G., Zhang, Y.F., Sun, X.Y., Song, C.B., Dai, Q.L., Fu, R.C., Tai, Y.G., Gao, J.Y., Zheng, Y.J., Feng, Y.C., 2020. Chemical characteristics and source apportionment of PM2.5 using PMF modelling coupled with 1-hr resolution online air pollutant dataset for Linfen, China.Environmental Pollution, 263, 114532.

19. Liu, B.S., Li, Y.F., Wang, L., Bi, X.H.*, Dong, H.Y., Sun, X.Y., Xiao, Z.M., Zhang, Y.F., Feng, Y.C., 2020. Source directional apportionment of ambient PM2.5 in urban and industrial sites at a megacity in China. Atmospheric Research, 235, 104764.

20. Zhang, W.H., Liu, B.S.*, Zhang, Y.F., Li, Y.F., Sun, X.Y., Gu, Y., Dai, C.L., Li, N., Song, C.B., Dai, Q.L., Han, Y., Feng, Y.C., 2020. A refined source apportionment study of atmospheric PM2.5 during winter heating period in Shijiazhuang, China, using a receptor model coupled with a source-oriented model. Atmospheric Environment, 222, 117157.

21. Liu, B.S., Sun, X.Y., Zhang, J.Y., Bi, X.H.*, Li, Y.F., Li, L.W., Dong, H.Y., Xiao, Z.M., Zhang, Y.F., Feng, Y.C., 2020. Characterization and Spatial Source Apportionments of Ambient PM10 and PM2.5 during the Heating Period in Tian’jin, China. Aerosol and Air Quality Research, 20, 1–13.

22. Liu, B.S., Bi, X.H.*, Zhang, J.Y., Yuan, J., Xiao, Z.M., Dai, Q.L., Feng, Y.F., Zhang, Y.F., 2019. Insight into the critical factors determining the particle number concentrations during summer at a megacity in China. Journal of Environmental Sciences, 75, 169–180.

23. Liu, B.S., Cheng, Y., Zhou, M., Liang, D.N., Dai, Q.L., Wang, L., Jin, W., Zhang, L.Z., Ren, Y.B., Zhou, J.B., Dai, C.L., Xu, J., Wang, J., Feng, Y.C.*, Zhang, Y.F.*, 2018. Effectiveness evaluation of temporary emission control action in 2016 in winter in Shijiazhuang, China. Atmospheric Chemistry and Physics, 18, 7019–7039.

24. Liu, B.S., Zhang, J.Y., Wang, L., Liang, D.N., Cheng, Y., Wu, J.H.*, Bi, X.H., Feng, Y.C.*, Zhang, Y.F., Yang, H.H., 2018. Characteristics and sources of the fine carbonaceous aerosols in Haikou, China. Atmospheric Research, 199, 103–112.

25. Liu, B.S., Wu, J.H.*, Zhang, J.Y., Wang, L., Yang, J.M., Liang, D.N., Dai, Q.L., Bi, X.H., Feng, Y.C., Zhang, Y.F., Zhang, Q.X., 2017. Characterization and source apportionment of PM2.5 based on error estimation from EPA PMF 5.0 model at a medium city in China. Environmental Pollution, 222, 10–22.

26. Liu, B.S., Yang, J.M., Yuan, J., Wang, J., Dai, Q.L, Li, T.K., Bi, X.H.*, Feng, Y.C.*, Xiao, Z.M., Zhang, Y.F., Xu, H., 2017. Source apportionment of atmospheric pollutants based on the online data by using PMF and ME2 models at a megacity, China. Atmospheric Research, 185, 22–31.

27. Liu, B.S., Li, T.K., Yang, J.M., Wu, J.H.*, Gao, J.X., Bi, X.H., Feng, Y.C., Zhang, Y.F., Yang, H.H., 2017. Source apportionment and a novel approach of estimating regional contributions to ambient PM2.5 in Haikou, China. Environmental Pollution, 223, 334–345.

28. Liu, B.S., Song, N., Dai, Q.L., Mei, R.B., Sui, B.H., Bi, X.H.*, Feng. Y.C., 2016. Chemical composition and source apportionment of ambient PM2.5 during the non-heating period in Taian, China. Atmospheric Research, 170, 23–33.

29. Liu, B.S., Liang, D.N., Yang, J.M., Dai, Q.L., Bi, X.H.*, Feng, Y.C., Yuan, J., Xiao, Z.M., Zhang, Y.F., Xu, H., 2016. Characterization and source apportionment of volatile organic compounds based on 1-year of observational data in Tianjin, China. Environmental Pollution, 218, 757–769.

30. Liu, B.S., Bi, X.H.*, Feng, Y.C., Dai, Q.L., Xiao, Z.M., Li, L.W., Wu, J.H., Yuan, J., Zhang Y.F., 2016. Fine carbonaceous aerosol characteristics at a megacity during the Chinese Spring Festival as given by OC/EC online measurements. Atmospheric Research, 181, 20–28.

31. 段丽琴, 吴雨彤, 刘保双*.临汾市臭氧污染时期VOCs来源解析研究. 中国环境科学, 2024 (在线发表).

32. 孟赫,任晓洁,王桂霞,刘保双*. 青岛沿海地区2021年典型沙尘回流—霾污染过程气溶胶垂直分布特征. 环境科学学报, 2024, 44(1): 37–46.

33. 孔翠丽, 吴雨彤, 顾瑶, 宋江邦, 孟赫, 石来元, 刘保双*. 基于化学损耗矫正的青岛胶州市环境VOCs来源解析. 环境科学, 2023, 44(12): 6551–6563.

34. 贾智海, 顾瑶, 孔翠丽, 宋江邦, 孟赫, 石来元, 吴建会, 刘保双*. 青岛市臭氧污染与非污染期间VOCs化学特征及来源解析. 环境科学, 2023, 44(4): 1962–1973.

35. 李艺, 华静, 刘保双*, 张裕芬, 冯银厂. 大气污染物监测数据异常值判别方法研究. 环境科学学报, 2022, 42(12): 341–352.

36. 张子祎, 刘保双*, 孟赫, 石来元, 王静, 吴建会, 冯银厂. 青岛市港口区域PM2.5污染特征及来源解析研究. 环境科学学报, 2022, 42(11): 293–307.

37. 王艺璇, 刘保双*, 吴建会, 张裕芬, 冯银厂. 天津市郊夏季VOCs化学特征及其时间精细化的来源解析. 环境科学, 2021, 42(12): 5644–5655.

38. 刁刘丽, 李森, 刘保双*, 李亚菲, 张晴, 高翔, 毕晓辉, 张裕芬, 冯银厂.驻马店市区采暖季PM2.5时间和空间来源解析研究. 环境科学研究, 2021, 34(1): 79–91.

39. 罗瑞雪, 刘保双*, 梁丹妮, 毕晓辉, 张裕芬, 冯银厂. 天津市郊夏季的臭氧变化特征及其前体物VOCs的来源解析. 环境科学, 2021, 42(1): 75–87.

40. 程渊, 刘保双*, 吴建会, 毕晓辉, 张勤勋, 冯银厂, 张裕芬. 菏泽市夏季PM10和 PM2.5中水溶性离子组分污染特征. 环境化学, 2019, 38(4): 729–737.

41. 元洁, 刘保双*, 程渊, 肖致美, 徐虹, 关玉春. 2017年1月天津市区PM2.5化学组分特征及高时间分辨率来源解析研究. 环境科学学报, 2018, 38(3): 1090–1101.

42. 王露, 毕晓辉, 刘保双*, 吴建会, 张裕芬, 冯银厂, 张勤勋. 菏泽市PM2.5源方向解析研究. 环境科学研究, 2017, 30(12): 1849–1858.

 

发明专利(授权):

1. 刘保双, 顾瑶, 张裕芬, 冯银厂. 一种基于大气扩散-辐射标准化的环境VOCs来源解析方法. 专利号: ZL 202110836417.1, 国家发明专利;

2. 刘保双, 杨涛, 张裕芬, 冯银厂. 一种基于初始浓度和实测源谱限制的VOCs来源解析方法. 专利号: ZL 202210188395.7, 国家发明专利