Physicochemical Characteristics of PM2.5 Based on Long-term Hourly Data at National Intensive Monitoring Sites in Korea

IF 1.1 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES Asian Journal of Atmospheric Environment Pub Date : 2022-09-01 DOI:10.5572/ajae.2022.033
Jong-Moon Park, Tae-Jung Lee, Dong-Sool Kim
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Abstract

The objective of this study was to analyze the temporal and spatial characteristics of fine particulate matters by using huge hourly datasets of PM2.5, including chemical information monitored at the 6 national intensive monitoring sites (NIMSs) from 2013 to 2018 in Korea. Hourly PM2.5 raw datasets were obtained from the National Institute of Environmental Research (NIER) in Korea. Monitoring sites included urban, rural/agricultural, industrial, and marine environments. Since the PM2.5 concentration steadily decreased nationwide, each species concentration also decreased in general. One of key reasons for decreasing PM2.5 might be explained by the implementation of domestic fine dust reduction policies and external influences such as PM2.5 concentration reduction in China. It was observed that 45.0% of all datasets for 6 years were classified as good condition. The average sum of 14 elements over all sites in 2018 was calculated to be 501.5 ng/m3, and its mass ratio for PM2.5 (21.9 μg/m3) was 2.30%. The inorganic elements were generally higher in industrial/urban areas than in agricultural areas. In addition, the average TC (total carbon) over all 6 sites was 28.3% of PM2.5 with the range of 23.6% to 31.4%. The TC in small urban areas was much higher than that in marine areas or even that in large, populated urban area/industrial areas. It seemed that the latter areas were better controlled than the former area in terms of combustion activities of fossil fuels. It is suggested that these results could be play an important role as important basic data to manage ambient air quality and establish effective emission reduction strategies in each region.

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基于韩国国家重点监测点每小时长期数据的 PM2.5 理化特征
本研究的目的是利用2013年至2018年韩国6个国家密集监测点(NIMS)监测到的PM2.5(包括化学信息)巨量小时数据集,分析细颗粒物的时空特征。每小时 PM2.5 原始数据集来自韩国国家环境研究院(NIER)。监测点包括城市、农村/农业、工业和海洋环境。由于全国的 PM2.5 浓度稳步下降,各物种的浓度也普遍下降。PM2.5下降的主要原因之一可能是国内微尘减排政策的实施以及中国PM2.5浓度下降等外部影响。据观察,6 年中有 45.0% 的数据集被归类为状况良好。经计算,2018年所有站点14种元素的平均总和为501.5纳克/立方米,与PM2.5(21.9微克/立方米)的质量比为2.30%。工业/城市地区的无机元素含量普遍高于农业地区。此外,所有 6 个地点的 TC(总碳)平均值为 PM2.5 的 28.3%,范围在 23.6%至 31.4%之间。小城市地区的 TC 远高于海洋地区,甚至高于人口稠密的大城市地区/工业区。就化石燃料的燃烧活动而言,后者似乎比前者得到了更好的控制。建议这些结果可以作为重要的基础数据,在各地区管理环境空气质量和制定有效的减排策略方面发挥重要作用。
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来源期刊
Asian Journal of Atmospheric Environment
Asian Journal of Atmospheric Environment METEOROLOGY & ATMOSPHERIC SCIENCES-
CiteScore
2.80
自引率
6.70%
发文量
22
审稿时长
21 weeks
期刊最新文献
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