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Estimation of Source Contribution by Air Pollutant Type (Point, Area, Line) over Seoul Metropolitan Area  

Park, Il-Soo (Global Environmental Research Center National Institute of Environmental Research)
Lee, Suk-Jo (Global Environmental Research Center National Institute of Environmental Research)
Kim, Jong-Choon (Global Environmental Research Center National Institute of Environmental Research)
Kim, Sang-Kyun (Global Environmental Research Center National Institute of Environmental Research)
Lee, Dong-Won (Global Environmental Research Center National Institute of Environmental Research)
Yoo, Chul (Global Environmental Research Center National Institute of Environmental Research)
Lee, Jae-Bum (Global Environmental Research Center National Institute of Environmental Research)
Song, Hyung-Do (Global Environmental Research Center National Institute of Environmental Research)
Lee, Jung-Young (Global Environmental Research Center National Institute of Environmental Research)
Kim, Ji-Hyun (Global Environmental Research Center National Institute of Environmental Research)
Publication Information
Journal of Korean Society for Atmospheric Environment / v.21, no.5, 2005 , pp. 495-505 More about this Journal
Abstract
This study is to estimate source contribution by air pollutantion types (point, area, line) over Seoul metropolitan area. The Air Pollution Model (TAPM) and the highly resolved anthropogenic and biogenic gridded emissions ($1km{\times}1km$) were applied to simulate $SO_2,\;NO_2,\;O_3\;and\;PM_{10}$ concentrations by seasons and contribution was estimated by their source types (point, area, line). The results showed that the simulated concentrations of secondary pollutant agreed well with observed values with an index of agreement (IOA) over 0.4, whereas IOAs over 0.3 were observed for most primary pollutants. The contributions of each source types by seasons were similar. The point source contribution was the highest for $SO_2$ at medium level ranged from $55.1\%\;to\;61.5\%$. But the contribution from area source during for the spring and summer increased as the concentration level increased. The line source contribution was the highest for $NO_2$ at all levels ranged from $68.3\%\;to\;93.1\%$. The results indicate that $SO_2$ emissions should be mainly controlled from point source, as well as area source at higher level concentration. Also, $NO_2\;and\;PM_{10}$ to from line source should be controlled.
Keywords
Contribution rate; Air pollotion sources; Seoul metropolitan; TAPM; Simulated concentration; Index of agreement;
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