KMID : 1156220200460020192
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Journal of Environmental Health Sciences 2020 Volume.46 No. 2 p.192 ~ p.203
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Distribution of Persistent Organic Pollutants (POPs) in Different Sizes of Particles in the Ambient Air of the Pyeongteak Area
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Kim Dong-Gi
Woo Jung-Sik Kim Yong-Jun Jung Hye-Eun Park Ju-Eun Cho Duck-Hee Moon Hee-Chun Oh Jo-Gyo
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Abstract
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Objectives: The concentration distributions of polychlorinated dibenzo-p-dioxins and dibenzofurans (PCDD/Fs), dioxin-like polychlorinated biphenlys (dl-PCBs), and polycyclic aromatic hydrocarbons (PAHs) in fine particles were investigated to provide basic data on POP behavior and composition analysis.
Methods: The concentrations of PCDD/Fs, dl-PCBs, and PAHs by particle size were evaluated for TSP, PM10, and PM2.5. Also, fine dust component analysis and factor analysis were performed to identify the source of PCDD/Fs.
Results: The particle size distribution was found to account for 24.3% of >10 ¥ìm, 14.5% of 2.5-10 ¥ìm, and 61.2% of <2.5 ¥ìm. The average contributions of coarse particles (>2.5 ¥ìm) and fine particles (<2.5 ¥ìm) were PCDD/Fs 67%, dl-PCBs 66%, benzo (a) pyrene 83% and PAHs 84%, and the contributions of fine particles (<2.5 ¥ìm) were higher than coarse particles (>2.5 ¥ìm). However, the contributions of coarse particles increased in April to September with higher temperatures, while those of fine particles increased in February to March with lower temperatures.
Conclusions: Low chlorinated (4Cl-5Cl) PCDD/Fs were more adsorbed compared to coarse particles due to the influence of pollutant migration from particulate to gas phase according to temperature rise, whereas high chlorinated (6Cl-8Cl) PCDD/Fs were more adsorbed compared to fine particles. PCDD/Fs sources were assessed to be major sources of emissions, such as incineration facilities and/or open burning.
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KEYWORD
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PCDD/Fs, dl-PCBs, PAHs, particle size, fine particle
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