Characteristic of PM2.5 concentration and source apportionment during winter in Seosan, Korea

IF 1.1 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES Asian Journal of Atmospheric Environment Pub Date : 2024-11-05 DOI:10.1007/s44273-024-00044-x

Soo Ran Won, Kwangyul Lee, Mijung Song, Changhyuk Kim, Kyoung-Soon Jang, Ji Yi Lee

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Abstract

Seosan is a concentrated industrial complex in the midwestern region of Korea. A study was conducted from December 2020 to January 2021, measuring PM2.5 and chemical components in Seosan using online instruments every hour. The concentration of PM2.5 during the winter season was 31.4±17.8 μg/m³, exceeding the national ambient air quality standard of Korea. The mass fraction of organic matter, elemental carbon, three major ions, five minor ions, crustal elements, and trace elements in PM2.5 accounted for 24.5%, 4.36%, 32.0%, 2.82%, 4.11%, and 5.17% of the total PM2.5 mass concentration, respectively. Source identification was conducted using positive matrix factorization modeling, revealing eight sources of PM2.5: Secondary inorganic aerosol (SIA), vehicle exhaust, industry, coal combustion, biomass burning/incinerator, oil combustion, soil, and aged sea salt. Source contributions varied during high pollution episodes (HPE), with SIA dominating in HPE1 and soil and aged sea salt in HPE2. The potential source contribution function and conditional probability function were utilized to estimate the potential local and regional emission areas for the identified sources. In Seosan, vehicle exhaust and biomass burning/incinerator were primarily influenced by local sources. SIA, industry, and oil combustion sources were significantly affected by short-range transport from eastern China. Soil and aged sea salt, which exhibited high contributions during HPE2, were associated with long-range transport from Inner Mongolia. Coal combustion was attributed to both local sources, particularly large industrial complexes near Seosan, and long-range transport from Northeast China and Inner Mongolia.

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韩国瑞山冬季 PM2.5 浓度特征和来源分配

瑞山是韩国中西部地区的一个工业集中区。2020 年 12 月至 2021 年 1 月期间进行了一项研究，使用在线仪器每小时测量瑞山的 PM2.5 和化学成分。冬季的 PM2.5 浓度为 31.4±17.8 μg/m3，超过了韩国国家环境空气质量标准。PM2.5中有机物、碳元素、三种主要离子、五种次要离子、地壳元素和微量元素的质量分数分别占PM2.5总质量浓度的24.5%、4.36%、32.0%、2.82%、4.11%和5.17%。利用正矩阵因式分解模型进行了来源识别，发现了 PM2.5 的八个来源：二次无机气溶胶（SIA）、汽车尾气、工业、燃煤、生物质燃烧/焚化炉、石油燃烧、土壤和老化海盐。在高污染事件 (HPE) 期间，污染源贡献各不相同，HPE1 以二次无机气溶胶为主，HPE2 以土壤和老化海盐为主。利用潜在污染源贡献函数和条件概率函数估算了已识别污染源的潜在本地和区域排放区域。在瑞山，汽车尾气和生物质燃烧/焚化炉主要受本地污染源的影响。SIA、工业和石油燃烧源则主要受到来自中国东部的短程传输的影响。土壤和老化海盐在 HPE2 期间的贡献率较高，与来自内蒙古的长程飘移有关。燃煤既有本地来源，特别是瑞山附近的大型工业综合体，也有来自中国东北和内蒙古的长程飘移。

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