冯银厂

中国工程院咨询项目，天津市大气污染全产业链解析及精准防控战略研究，2019-2020，执行负责人

大气重污染成因与治理攻关项目，天津市跟踪项目，2017-2019，主持。

《Recent development of Receptor Model for Ambient Particulate Matter Source Apportionment》，科学出版社，2016.11.

1.       Dai, Q., Liu, B., Bi, X., Wu, J., Liang, D., Zhang, Y., Feng, Y. ^*, Hopke, P. K. ^*. Dispersion Normalized PMF Provides Insights into the Significant Changes in Source Contributions to PM_2.5 after the COVID-19 Outbreak. Environmental Science & Technology, 2020, 54: 9917-9927。

2.       Dai, Q., Schulze, B. C., Bi, X., Bui, A. A. T., Guo, F., Wallance, H. W., Sanchez, N. P., Flynn, J. H., Lefer, B. L., Feng, Y. ^*, Griffin, R. J. Seasonal differences in formation processes of oxidized organic aerosol near Houston, TX     ，Atmospheric Chemistry and Physics, 2020, 19:9641-9661。

3.       Hopke, P. K.*, Dai, Q., Li, L., Feng, Y. Global review of recent source apportionments for airborne particulate matter.    Science of the Total Environment, 2020, 740, 140091.

4.       Dai, Q., Hopke, P. K. ^*, Bi, X., Feng, Y. ^*, Improving apportionment of PM_2.5 using multisite PMF by constraining G-values with a priori information.    Science of the Total Environment, 2020, 736, 139657。

5.       Yingze Tian, Yufen Zhang, Yongli Liang, Zhibin Niu, Qianqian Xue, Yinchang Feng^*. PM_2.5 source apportionment during severe haze episodes in a Chinese megacity based on a 5-month period by using hourly species measurements: Explore how to better conduct PMF during haze episodes.     Atmospheric Environment, 2020, 224, 117364.

6.       Peng, X., Vasilakos, P., Nenes, A., Shi, G.L. ^*, Qian, Y., Shi, X.R., Xiao, Z.M., Chen, K., Feng, Y.C. ^*, Russell, A.G.^*. Detailed Analysis of Estimated pH, Activity Coefficients, and Ion Concentrations between the Three Aerosol Thermodynamic Models.    Environmental Science & Technology, 2019, 53: 8903-8913   。

7.       Bi X., Dai Q., Wu J., Zhang Q., Zhang W., Luo R., Cheng Y., Zhang J., Wang L., Yu Z., Zhang Y., Tian Y, Feng Y. ^*,Characteristics of the main primary source profiles of particulate matter across China from 1987 to 2017.Atmospheric Chemistry and Physics, 2019, 19: 3223-3243.

8.       Peng, X., Liu, X.X., Shi, X.R., Shi, G.L. ^*, Li, M. ^*, Liu, J.Y., Huangfu, Y.Q., Xu, H., Ma, R.Y., Wang, W., Feng, Y.C. ^*, Source apportionment using receptor model based on aerosol mass spectra and 1 h resolution chemical dataset in Tianjin, China.Atmospheric Environment,  2019,198:387-397.   

9.       J. Ding , Y.F. Zhang, P.S. Zhao^*, M. Tang , Z.M. Xiao, W.H. Zhang, H.T. Zhang, Z.J. Yu, X. Du, L.W. Li, J. Yuan, Y.C. Feng^*.Comparison of size-resolved hygroscopic growth factors of urban aerosol by different methods in Tianjin during a haze episode.    Science of the Total Environment, 2019, 678:618–626.

10.  彭杏, 史旭荣, 史国良, 田瑛泽, 董世豪, 冯银厂^*.基于受体模型和源成分谱的缺失组分反演算法.中国环境科学, 2019, 39(3),939-947, 

11.  Shi, G.L., Liu, J.Y., Wang, H.T., Tian, Y.Z., Wen, J., Shi, X.R., Feng, Y.C. ^*, Ivey, C.E., Russell, A.G., Source apportionment for fine particulate matter in a Chinese city using an improved gas-constrained method and comparison with multiple receptor models. Environmental Pollution, 2018, 233: 1058-1067.

12.  Xu, J., Shi, G.L., Guo, C.S., Wang, H.T., Tian, Y.Z., Huangfu, Y.Q., Zhang, Y., Feng, Y.C. ^*, Xu, J. ^*, A New Method to Quantify the Health Risks from Sources of Perfluoroalkyl Substances, Combined with Positive Matrix Factorization and Risk Assessment Models,      Environmental Toxicology and Chemistry, 2018, 37: 107-115.

13.  Baoshuang Liu, Yuan Cheng, Ming Zhou, Danni Liang, Qili Dai, Lu Wang, Wei Jin, Lingzhi Zhang, Yibin Ren, Jingbo Zhou, Chunling Dai, Jiao Xu, Jiao Wang, Yinchang Feng^*, Yufen Zhang^*, Effectiveness evaluation of temporary emission control action in 2016 in winter in Shijiazhuang, China,     Atmospheric Chemistry and Physics, 2018, 18:7019–7039.    

14.  Yingze Tian, Zhimei Xiao, Haiting Wang, Xing Peng, Liao Guan, Yanqi Huangfu, Guoliang Shi, Kui Chen, Xiaohui Bi, Yinchang Feng^*. Influence of the sampling period and time resolution on the PM source apportionment: Study based on the high time-resolution data and long-term daily data.     Atmospheric Environment ,2017,165: 301-309.

15.  Ying-Ze Tian, Jia-Bao Chen, Lin-Lin Zhang, Xin Du, Jin-Jin Wei, Hui Fan, Jiao Xu, Hai-Ting Wang, Liao Guan, Guo-Liang Shi^*, Yin-Chang Feng^*.Source profiles and contributions of biofuel combustion for PM_2.5, PM₁₀ and their compositions, in a city influenced by biofuel stoves.    Chemosphere ,2017,189: 255-264.

16.  Shi, G.L. ^*, Peng, X., Huangfu, Y.Q., Wang, W., Xu, J., Tian, Y.Z., Feng, Y.C. ^*, Ivey, C.E., Russell, A.G, Quantification of source impact to PM using three-dimensional weighted factor model analysis on multi-site data.   Atmospheric Environment，2017, 160:89-96.

17.  Xu, J., Li, M., Shi, G.L. ^*, Wang, H.T., Ma, X., Wu, J.H., Shi, X.R., Feng, Y.C. ^*,Mass spectra features of biomass burning boiler and coal burning boiler emitted particles by single particle aerosol mass spectrometer.Science of the Total Environment, 2017, 598:341-352.

18.  Liu, BS ; Yang, JM; Yuan, J  ; Wang, J ; Dai, QL; Li, TK ; Bi, XH^* ; Feng, YC^*; Xiao, ZM ; Zhang, YF, Source apportionment of atmospheric pollutants based on the online data by using PMF and ME2 models at a megacity, China.     Atmospheric Research, 2017,185:22-31.

19.  Wang, J; Zhang, YF^*; Feng, YC^*; Zheng, XJ; Jiao, L; Hong, SM; Shen, JD; Zhu, T; Ding, J; Zhang, Q, Characterization and source apportionment of aerosol light extinction with a coupled model of CMB-IMPROVE in Hangzhou, Yangtze River Delta of China. Atmospheric Research, 2016,178：570-579.

20.  Shi, G.L., Chen, G., Liu, G.R. ^*, Wang, H.T., Tian, Y.Z., Feng, Y.C. ^*, Source insights into the 11-h daytime and nighttime fine ambient particulate matter in China as well as the synthetic studies using the new Multilinear Engine 2-species ratios (ME2-SR) method.  Journal of Environmental Management, 2016, 181:304-311.

21.  S. Han, Y. Zhang^*, J. Wu, X. Zhang, Y. Tian, Y. Wang, J. Ding, W. Yan1, X. Bi, G. Shi1, Z. Cai, Q. Yao, H. Huang, and Y. Feng^*,Evaluation of regional background particulate matter concentrationbased on vertical distribution characteristics    . Atmospheric Chemistry and Physics, 2015,15:11165–11177.

22.  Shi, G.L., Liu, G.R., Tian, Y.Z., Zhou, X.Y., Peng, X., Feng, Y.C. ^*, Chemical characteristic and toxicity assessment of particle associated PAHs for the short-term anthropogenic activity event: During the Chinese New Year's Festival in 2013.      Science of the Total Environment, 2014, 482:8–14.

23.  Shi, G.L., Tian, Y.Z. ^*, Ye, S., Peng, X., Xu, J., Wang, W., Han, B., Feng,Y.C. ^*,Source apportionment of synchronous size segregated fine and coarse particulate matters, using an improved three-way factor analysis model.     Science of The Total Environment, 2015, 505: 1182-1190.

24.  Shi, G.L., Zhou, X.Y., Feng,Y.C. ^* Tian, Y.Z., Liu, G.R., Zheng, M. ^*, Zhou Y., Zhang, Y.H., Technical Note: An improved estimate of uncertainty for source contribution from Effective Variance Chemical Mass Balance (EV-CMB) analysis.      Atmospheric Environment, 2015, 100:154-158.

25.  Shi, G.L., Zhou, X.Y., Jiang, S.Y., Tian, Y.Z. ^*, Liu, G.R., Feng, Y.C. ^*, Chen, G., Liang, Y.K.X., Further insights into the composition, source, and toxicity of PAHs in size-resolved particulate matter in a megacity in China, Environmental Toxicology and Chemistry, 2015, 34:480-487.

26.  张彩艳，吴建会，张普，张裕芬^*，吴虹，史国良，冯银厂^*.成都市冬季大气颗粒物组成特征及来源变化趋势.环境科学研究, 2014, 27(7),782-789.  

27.  Tian, Y.Z., Shi, G.L. ^*, Han, S.Q., Zhang, Y.F., Feng, Y.C. ^*, Liu, G.R., Gao, L.J., Wu, J.H., Zhu, T., Vertical characteristics of levels and potential sources of water-soluble ions in PM10 in a Chinese megacity.   Science of the Total Environment, 2013, 447,:1-9.

28.  Shi, G.L., Tian, Y.Z., Han, S.Q., Zhang, Y.F., Li, X., Feng, Y.C. ^* Wu, J.H., Zhu, T., Vertical characteristics of carbonaceous species and their source contributions in a Chinese mega city.   Atmospheric Environment, 2012, 45:358–365.

29.  Yuan Zhang, Changsheng Guo, Jian Xu, Yingze Tian, Guoliang Shi^*, Yinchang Feng^*.Potential source contributions and risk assessment of PAHs in sediments from Taihu Lake, China: Comparison of three receptor models.      Water Research, 2012, 46:3065-3073.

30.  Weihong Li, Yingze Tian, Guoliang Shi^*, Changsheng Guo, Xiang Li, Yinchang Feng^*, Concentrations and sources of PAHs in surface sediments of the Fenhe reservoir and watershed, China,    Ecotoxicology and Environmental Safety, 2012, 75 (1):198-206.

31.  Guoliang Shi, Yingze Tian, Yufen Zhang, Wenyuan Ye, Xiang Li,Xuexi TieYinchang Feng^*,Tan Zhu ,Estimation of concentrations of primary and secondary organic carbon in anbient particulate matter: Application of the CMB-Iteration method, Atmospheric Environment, 2011, 45:5692-5698.

32.  Yufen Zhang, Hong Xu, Yingze Tian, Guoliang Shi^*, Fang Zeng, Jianhui Wu,Xiaoyong Zhang,Xiang Li,Tan Zhu,Yinchang Feng^*,The study on vertical variability of PM₁₀ and the possible sources on a 220m tower, in Tianjin,China,   Atmospheric Environment, 2011, 45:6133-6140.

33.  Guo-Liang Shi，Fang Zeng，Xiang Li, Yin-Chang Feng^*,Yu-QiuWang, Guang-Xun Liu，Tan Zhu, Estimated contributions and uncertainties of PCA/MLReCMB results: Source apportionment for synthetic and ambient data sets.     Atmospheric Environment, 2011,45: 2811-2819.

34.  Xiao-Hui Bi, Yin-Chang Feng^*, Tan Zhu, Yu-Fen Zhang, Jian-Hui Wu, and Xiang Li . Determination of Buffering Capacity of Total Suspended Particle and Its Source Apportionment Using the Chemical Mass Balance Approach.J. Air & Waste Manage. Assoc. 2011, 61:7–13.

35.  Guo-Liang Shi, Yin-Chang Feng^*, Fang Zeng, Xiang Li, Yu-Fen  Zhang, Yu-Qiu Wang, Tan Zhu, Use of a Nonnegative Constrained Principal Component Regression Chemical Mass Balance Model to Study the Contributions of Nearly Collinear Sources. Environ. Sci. Technol. 2009, 43:8867-8873.

36.  赵普生,冯银厂^*,金晶,韩博,毕晓辉,朱坦,张小玲,建筑施工扬尘特征与监控指标, 环境科学学报,2009, 29 (8) : 1618 – 1623.

37.  Guo-Liang Shi, Xiang Li, Yin-Chang Feng^*, Yu-Qiu Wang, Jian-Hui Wu, Jun Li, Tan Zhu, Combined source apportionment, using positive matrix factorization–chemical mass balance and principal component analysis/multiple linear regression–chemical mass balance models. Atmospheric Environment, 2009, 43(18):2929-2937.

38.  毕晓辉,冯银厂^*,朱坦,陈魁. 大气颗粒物酸缓冲能力来源解析技术与应用.中国环境科学,2007,27(5):579-583.

39.  Xiaohui Bi,Yinchang Feng^*,Jianhui Wu,Yuqiu Wang,Tan Zhu .Source apportionment of PM10 in six cities of northern China.. Atmospheric Environment.2007,41: 903–912.

40.  Pusheng Zhao,Yinchang Feng^*, Tan Zhu, Jianhui Wu. Characterizations of resuspended dust in six cities of North China. Atmospheric Environment. 2006,40: 5807-5814.