Comparison of Submicron Particles at a Rural and an Urban Site in the North China Plain during the December 2016 Heavy Pollution Episodes

北京 质量浓度(化学) 硫酸盐 污染 环境科学 中国 微粒 煤燃烧产物 大气科学 气溶胶 粒子(生态学) 地理 燃烧 环境化学 化学 气象学 物理 地质学 物理化学 考古 有机化学 海洋学 生物 生态学
作者
Xiaojing Shen,Junying Sun,Xiaoye Zhang,Yangmei Zhang,Yaqiang Wang,Kaiyan Tan,Peng Wang,Lu Zhang,Xuefei Qi,Haochi Che,Zhouxiang Zhang,Junting Zhong,Huarong Zhao,Sanxue Ren
出处
期刊:Journal of Meteorological Research [Springer Science+Business Media]
卷期号:32 (1): 26-37 被引量:30
标识
DOI:10.1007/s13351-018-7060-7
摘要

An extensive field experiment for measurement of physical and chemical properties of aerosols was conducted at an urban site in the Chinese Academy of Meteorological Sciences (CAMS) in Beijing and at a rural site in Gucheng (GC), Hebei Province in December 2016. This paper compares the number size distribution of submicron particle matter (PM1, diameter < 1 μm) between the two sites. The results show that the mean PM1 number concentration at GC was twice that at CAMS, and the mass concentration was three times the amount at CAMS. It is found that the accumulation mode (100–850 nm) particles constituted the largest fraction of PM1 at GC, which was significantly correlated with the local coal combustion, as confirmed by a significant relationship between the accumulation mode and the absorption coefficient of soot particles. The high PM1 concentration at GC prevented the occurrence of new particle formation (NPF) events, while eight such events were observed at CAMS. During the NPF events, the mass fraction of sulfate increased significantly, indicating that sulfate played an important role in NPF. The contribution of regional transport to PM1 mass concentration was approximately 50% at both sites, same as that of the local emission. However, during the red-alert period when emission control took place, the contribution of regional transport was notably higher.
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