Vertical Distribution Characteristics of PM2.5 Observed by a Mobile Vehicle Lidar in Tianjin, China in 2016

We present mobile vehicle lidar observations in Tianjin, China during the spring, summer, and winter of 2016. Mobile observations were carried out along the city border road of Tianjin to obtain the vertical distribution characteristics of PM 2.5 . Hygroscopic growth was not considered since relativ...

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Veröffentlicht in:Journal of Meteorological Research 2018-02, Vol.32 (1), p.60-68
Hauptverfasser: Lyu, Lihui, Dong, Yunsheng, Zhang, Tianshu, Liu, Cheng, Liu, Wenqing, Xie, Zhouqing, Xiang, Yan, Zhang, Yi, Chen, Zhenyi, Fan, Guangqiang, Zhang, Leibo, Liu, Yang, Shi, Yuchen, Shu, Xiaowen
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Sprache:eng
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Zusammenfassung:We present mobile vehicle lidar observations in Tianjin, China during the spring, summer, and winter of 2016. Mobile observations were carried out along the city border road of Tianjin to obtain the vertical distribution characteristics of PM 2.5 . Hygroscopic growth was not considered since relative humidity was less than 60% during the observation experiments. PM 2.5 profile was obtained with the linear regression equation between the particle extinction coefficient and PM 2.5 mass concentration. In spring, the vertical distribution of PM 2.5 exhibited a hierarchical structure. In addition to a layer of particles that gathered near the ground, a portion of particles floated at 0.6–2.5-km height. In summer and winter, the fine particles basically gathered below 1 km near the ground. In spring and summer, the concentration of fine particles in the south was higher than that in the north because of the influence of south wind. In winter, the distribution of fine particles was opposite to that measured during spring and summer. High concentrations of PM 2.5 were observed in the rural areas of North Tianjin with a maximum of 350 μg m –3 on 13 December 2016. It is shown that industrial and ship emissions in spring and summer and coal combustion in winter were the major sources of fine particles that polluted Tianjin. The results provide insights into the mechanisms of haze formation and the effects of meteorological conditions during haze–fog pollution episodes in the Tianjin area.
ISSN:2095-6037
2198-0934
DOI:10.1007/s13351-018-7068-z