Characterization of Water-Soluble Ions in PM2.5 in Chongqing, a Megacity in Eastern Sichuan Basin, China

Journal of Environmental Science and Engineering Technology Pub Date : 2020-06-06 DOI:10.12974/2311-8741.2020.08.2

Tianli Song, Xuyao Cao, Huanbo Wang, Yang Qiu, Yang Chen, Mi Tian, Jianyan Yu, C. Zhai, Fumo Yang

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Abstract

Samples of PM2.5 were collected at three urban sites and one rural site simultaneously in Chongqing, the only megacity in eastern Sichuan Basin, Southwest China, from October 15 to November 13, 2015. Water-soluble ions (WSIs, i.e., F–, Cl–, NO3–, SO42–, K+, Na+, NH4+, Mg2+ and Ca2+) in PM2.5 were measured to investigate their characteristics and formation pathways. The average concentrations of PM2.5 at the urban sites were 55.5–59.0 µg m–3, which was 62.8–73.0% higher than that at rural site. SO42–, NO3–, NH4+ were the dominant ions, contributing to more than 90% of total WSIs. The coefficients of divergence for SO42– between the urban and rural sites were 0.15–0.17, indicating its relatively uniform distribution across Chongqing. Analysis of the formation mechanisms of SO42– and NO3– in PM2.5 suggested that the heterogeneous reaction was responsible for the high concentrations of sulfate among the four sites, whereas nitrate was formed mainly through homogeneous reactions at the urban sites. Furthermore, the results of trajectory clustering showed that the air pollution were mainly from local sources within the basin. Our findings on PM2.5 composition in Chongqing help to advance the knowledge on PM2.5 pollution in Chinese megacities, and to provide more evidence for further pollution mitigation.

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川东特大城市重庆PM2.5中水溶性离子的特征

2015年10月15日至11月13日，在中国西南地区四川盆地东部唯一的特大城市重庆，同时采集了3个城市和1个农村的PM2.5样本。测定PM2.5中水溶性离子(wsi，即F -、Cl -、NO3 -、SO42 -、K+、Na+、NH4+、Mg2+和Ca2+)的特征及其形成途径。城市站点的PM2.5平均浓度为55.5 ~ 59.0µg - 3，比农村站点高62.8 ~ 73.0%。SO42 -、NO3 -、NH4+为优势离子，占总wsi的90%以上。城乡SO42 -的散度系数为0.15 ~ 0.17，表明其在重庆市的分布较为均匀。对PM2.5中SO42 -和NO3 -形成机理的分析表明，4个站点中硫酸盐浓度较高的原因是非均相反应，而硝酸盐主要是在城市站点通过均相反应形成的。轨迹聚类结果表明，流域内大气污染主要来源于局地污染源。我们对重庆PM2.5组成的研究结果有助于提高对中国特大城市PM2.5污染的认识，并为进一步缓解污染提供更多证据。

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Journal of Environmental Science and Engineering Technology

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