[1] National environmental protectionagency. Integrated emission standards for atmospheric pollutants: GB 16297-1996[S]. Beijing: China Environmental Science Press, 1997.
[2] National environmental protection agency, Compilation of air, waste gas monitoring, analysis methods[M]. Air and waste gas monitoring and analysis method(2003).
[3] Che F, Zhang G N, Gu Y Y et al. Study on domestic and foreign fugitive emission standards of particulate matters for industrial sources[J]. Chinese Journal of Environmental Management, 9, 34-40(2017).
[4] National environmental protectionagency. Technical guidelines for fugitive emissions monitoring of air pollutants: HJ/T 55-2000[S]. Beijing: China Environmental Science Press, 2001.
[5] Xue Y F, Zhou Z, Huang Y H et al. Fugitive dust emission characteristics from building construction sites of Beijing[J]. Environmental Science, 38, 2231-2237(2017).
[6] Fan S B, Yang T, Wang K et al. Methods and application of road fugitive dust emission factor localization[J]. Environmental Science, 40, 1664-1669(2019).
[7] Varma R M, Hashmonay R A, Du K et al. A novel method to quantify fugitive dust emissions using optical remote sensing[M]. ∥Kim Y J, Platt U. Advanced environmental monitoring. Dordrecht: Springer, 143-154(2008).
[8] Shi P. -07-03[P]. Du K. Laser measuring method, device for opacity of particulate matter plume: 201110442838.2.(2013).
[9] Hu M, Xie J L, Wu D F et al. Measurement of PM 2.5 concentration based on the charge-coupled device backward scattering lidar[J]. Acta Optica Sinica, 35, 0201002(2015).
[10] Zhang H, Tao Z M, Ma X M et al. Fitting of hygroscopic factor between PM2.5 mass concentration and aerosol backscattering coefficient in Hefei area[J]. Chinese Journal of Lasers, 45, 0704006(2018).
[11] Yu L Y, Cao N W, Shen J. Detection of tropospheric aerosol optical properties by Rayleigh-Raman-Mie lidar in the northern suburb of Nanjing[J]. Laser & Optoelectronics Progress, 55, 110102(2018).
[12] Wang N N[M]. Measurement techniques for optical particle sizing and its applications, 145-148(2000).
[13] Wang J H, Xu G D, Wang N N. Mathematical model of calculating the flux of laser scattering by single particle in arbitrary directions[J]. Applied Laser, 15, 79-80, 78(1995).
[14] Pike E R. The theory of light scattering[M]. ∥Cummins H Z, Pike E R. Photon correlation and light beating spectroscopy. NATO advanced study institutes series (series B: physics). Boston, MA: Springer, 3, 9-39(1974).
[15] Kerker M[M]. The scattering of light and other electromagnetic radiation, 20-53(1969).
[16] Li L F. The study of atmospheric aerosol particles scattering impact on laser propagation in the atmosphere[D]. Taiyuan: North University of China, 46-53(2013).
[17] Shi P, Du K, Mu C et al. Measure mental method of fugitive dust mass emissions from construction activities using vertical-scanning lidar system[J]. Acta Optica Sinica, 33, 0301005(2013).
[18] Fernald F G. Analysis of atmospheric lidar observations: some comments[J]. Applied Optics, 23, 652-653(1984). http://www.ncbi.nlm.nih.gov/pubmed/18204618
[19] Wang Z, Hua L, Hu Y Q et al. Diameter distribution of particles from fugitive emission sources in Beijing[J]. Environmental Monitoring in China, 23, 75-78(2007).
[20] Huang Y M, Shu J, Gu Y[J]. Comparison of two analysis methods of fugitive road dust size in Shanghai city Journal of East China Normal University(Natural Science), 2007, 37-43.