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고농도 오염기간 잠재적 오염원에 따른 초미세먼지 농도와 화학성분 및 산성도의 공간적 분포 특성: 2018~2019년 국가대기측정망과 대기환경연구소 관측 결과를 중심으로
글쓴이	관리자 (IP: *.223.176.122)	작성일	2022-09-02 10:25	조회수	211
고농도 오염기간 잠재적 오염원에 따른 초미세먼지 농도와 화학성분 및 산성도의 공간적 분포 특성: 2018~2019년 국가대기측정망과 대기환경연구소 관측 결과를 중심으로 Spatial Distributions of PM2.5 Concentrations, Chemical Constituents, and Acidity for PM2.5 Pollution Events and Their Potential Source Contribution: Based on Observations from a Nationwide Air Quality Monitoring Network for 2018-2019 Abstract In this study, nationwide air quality monitoring stations were classified into three groups by the hierarchical clustering method with PM2.5 time-series for high PM2.5 pollution periods of 2018~2019. In this way, we grouped the regions with similar PM2.5 variations. Then, we allocated the locations of 6 supersites for PM2.5 chemical composition measurements (operated by the National Institute of Environmental Research) into three clustered groups to investigate the differences in chemical compositions, potential source contribution regions, and aerosol acidity. For three high PM2.5 pollution periods, potential source regions contributing to each supersite (and supersite groups) did not differ significantly. However, chemical compositions and acidity of PM2.5 varied significantly among supersites (even among supersites grouped as the same cluster with similar PM2.5 time-series). Our findings suggest that local emissions of precursors play an important role in regional secondary PM2.5 formation, although PM2.5 mass concentration variations were controlled by synoptic weather conditions. Particularly, aerosol acidity seems to be affected by regional ammonia emissions, which has important implications because acidity affects aerosol hygroscopicity and thus the formation of secondary organic/inorganic aerosols. Key words PM2.5, Acidity, PSCF, Clustering, Chemical composition ▶출처 : 한국대기환경학회지 제 38권 제 4호, 2022.08 pp. 508-523
파일	고농도 오염기간 잠재적 오염원에 따른 초미세먼지 농도와 화학성분 및 산성도의 공간적 분포 특성_2018~2019년 국가대기축정망과 대기환경연구소 관측 결과를 중심으로.pdf(1.5M)

고농도 오염기간 잠재적 오염원에 따른 초미세먼지 농도와 화학성분 및 산성도의 공간적 분포 특성: 2018~2019년 국가대기측정망과 대기환경연구소 관측 결과를 중심으로

글쓴이

관리자 (IP: *.223.176.122)

작성일

2022-09-02 10:25

조회수

211

Spatial Distributions of PM2.5 Concentrations, Chemical Constituents, and Acidity for PM2.5 Pollution Events and Their Potential Source Contribution: Based on Observations from a Nationwide Air Quality Monitoring Network for 2018-2019

Abstract

In this study, nationwide air quality monitoring stations were classified into three groups by the hierarchical clustering

method with PM2.5 time-series for high PM2.5 pollution periods of 2018~2019. In this way, we grouped the regions with

similar PM2.5 variations. Then, we allocated the locations of 6 supersites for PM2.5 chemical composition

measurements (operated by the National Institute of Environmental Research) into three clustered groups to investigate

the differences in chemical compositions, potential source contribution regions, and aerosol acidity. For three high

PM2.5 pollution periods, potential source regions contributing to each supersite (and supersite groups) did not differ

significantly. However, chemical compositions and acidity of PM2.5 varied significantly among supersites (even among

supersites grouped as the same cluster with similar PM2.5 time-series). Our findings suggest that local emissions of

precursors play an important role in regional secondary PM2.5 formation, although PM2.5 mass concentration variations

were controlled by synoptic weather conditions. Particularly, aerosol acidity seems to be affected by regional ammonia

emissions, which has important implications because acidity affects aerosol hygroscopicity and thus the formation of

secondary organic/inorganic aerosols.

Key words

PM2.5, Acidity, PSCF, Clustering, Chemical composition

▶출처 : 한국대기환경학회지 제 38권 제 4호, 2022.08 pp. 508-523

파일

고농도 오염기간 잠재적 오염원에 따른 초미세먼지 농도와 화학성분 및 산성도의 공간적 분포 특성_2018~2019년 국가대기축정망과 대기환경연구소 관측 결과를 중심으로.pdf(1.5M)