Physicochemical characteristics and seasonal variations of PM2.5 in urban, industrial, and suburban areas in South Korea

IF 1.1 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES
Kyucheol Hwang, Jeongho Kim, Jae Young Lee, Jong-Sung Park, Sechan Park, Gahye Lee, Chang Hyeok Kim, Pilho Kim, Su Hyun Shin, Kwang Yul Lee, Joon-Young An, Jungmin Park, Jong Bum Kim
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Abstract

Among countries that are a part of the Organization for Economic Co-operation and Development, South Korea is the most exposed to PM2.5. Despite the country having implemented various strategies to limit PM2.5 emissions, its concentrations are still high enough to pose serious environmental and health concerns. Herein, we monitored various physiochemical properties of PM2.5 across different regions in South Korea from January 1 to December 31, 2021. Specifically, the study area consisted of the city center, industrial complexes, and suburban areas. Before analyzing dynamics of emissions specific to each site, the Clean Air Policy Support System data for the three areas were compared to elucidate their respective primary emission sources. The particle concentrations for the three areas were 21.8–26.44 µg/m3, with the highest concentrations being observed in March. All the three areas exhibited high ratios of NO3 across all seasons. The particle number concentrations in the three sites were 1.3–1.5 × 107, and the peak points of the concentrations were different in every site: city center (40 nm), industrial complexes (60 nm), and suburban areas (80 nm). We also conducted potential source contribution function and conditional bivariate probability function analyses. These analyses were conducted to determine the inflow direction of the pollution sources for high PM2.5 episodes. For the episodes that occurred in spring and winter, there were no differences in the PM2.5 concentrations between the three sites. Overall, the insights gained from this study offer a framework for developing air-quality management policies in South Korea, specifically in the context of PM2.5 emissions.

韩国城市、工业区和郊区 PM2.5 的物理化学特征和季节性变化
在经济合作与发展组织成员国中,韩国是受 PM2.5 影响最严重的国家。尽管韩国实施了各种战略来限制 PM2.5 的排放,但其浓度仍然很高,足以造成严重的环境和健康问题。在此,我们监测了 2021 年 1 月 1 日至 12 月 31 日韩国不同地区 PM2.5 的各种理化特性。具体来说,研究区域包括市中心、工业区和郊区。在分析每个地点的具体排放动态之前,对三个地区的清洁空气政策支持系统数据进行了比较,以阐明其各自的主要排放源。三个地区的颗粒物浓度为 21.8-26.44 微克/立方米,其中三月份的浓度最高。三个地区在所有季节都表现出较高的 NO3- 比率。三个地点的粒子数浓度均为 1.3-1.5 × 107,且每个地点的浓度峰值点均不同:市中心(40 nm)、工业区(60 nm)和郊区(80 nm)。我们还进行了潜在污染源贡献函数和条件双变量概率函数分析。进行这些分析是为了确定 PM2.5 高发时污染源的流入方向。在春季和冬季发生的事件中,三个地点之间的 PM2.5 浓度没有差异。总之,这项研究为韩国制定空气质量管理政策提供了一个框架,特别是在 PM2.5 排放方面。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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
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