Your search keyword '"Lee, Sang-Deok"' showing total 2 results

1. The Controlling Factors of Photochemical Ozone Production in Seoul, South Korea

Author

Kim, Saewung, Jeong, Daun, Sanchez, Dianne, Wang, Mark, Seco, Roger, Blake, Donald, Meinardi, Simone, Barletta, Barbara, Hughes, Stacey, Jung, Jinsang, Kim, Deugsoo, Lee, Gangwoong, Lee, Meehye, Ahn, Joonyoung, Lee, Sang-Deok, Cho, Gangnam, Sung, Min-Young, Lee, Yong-Hwan, and Park, Rokjin

Subjects

Ozone, Leighton Constant, OH reactivity, Ozone production regime, Chemical Sciences, Environmental Sciences, Biological Sciences, Meteorology & Atmospheric Sciences

Abstract

We present the ambient ozone and relevant observed trace gas dataset in Seoul, South Korea, during the Megacity Air Pollution Studies (MAPS)-Seoul field campaign from May to June of 2015 (MAPS-Seoul 2015). We observed two distinctive periods, one with higher and the other with lower daytime ozone levels despite mostly clear conditions for both periods. The importance of peroxy radical contributions to excess ozone production is illustrated by the substantial differences in the Leighton constant (Φ) for the two periods. Moreover, higher levels of hydroxyl radical (OH) reactivity (s–1) were observed during the high ozone episode compared to the low ozone episode by as much as ~5 s–1. The contributions of nitrogen oxides (NOx) to OH reactivity become less important than those of volatile organic compounds (VOCs) during the high ozone episode, which suggests the NOx saturated ozone production regime. It was also notable that the biogenic VOC isoprene consistently contributed the most to OH reactivity from among the observed VOCs during the afternoon throughout the whole field campaign. Finally, we ran multiple box model scenarios to evaluate the ozone production rates of three different air mixtures: a high ozone mixture, a low ozone mixture, and a simulation of the regional air quality. The results indicate that the total OH reactivity levels and the relative contributions of VOCs to NOx play critical roles in ozone production rates. The simulated air quality mixture results in lower OH reactivity, causing lower ozone production rates than those calculated for the high ozone mixture, which clearly indicates the need for further improvements in the regional model to accurately simulate ozone precursors in the region. The results of this study suggest that a comprehensive trace gas dataset combined with observations of the OH reactivity enables us to properly diagnose the photochemistry behind ozone pollution, leading to effective ozone abatement policies.

Published

2018

2. Meteorological and Chemical Factors Controlling Ozone Formation in Seoul during MAPS-Seoul 2015

Author

Kim, Heejeong, Choi, Woo-Chul, Rhee, Ho-Jun, Suh, Inseon, Lee, Meehye, Blake, Donald R, Kim, Saewung, Jung, Jinsang, Lee, Gangwoong, Kim, Deug-Soo, Park, Seung-Myung, Ahn, Junyoung, and Lee, Sang Deok

Subjects

O-3 formation, NOx, VOCs, Meteorological condition, MAPS-Seoul, Chemical Sciences, Environmental Sciences, Biological Sciences, Meteorology & Atmospheric Sciences

Abstract

To understand the chemical mechanisms of controlling factors in ozone (O3) formation in early summer in Seoul, a comprehensive study encompassing measurement and modeling was conducted under the Megacity Air Pollution Study-Seoul (MAPS-Seoul) campaign. From May 18 to June 12, 2015, O3 and peroxyacetyl nitrate (PAN) were measured, along with their precursors, including NOx and volatile organic compounds (VOCs), at the Korea Institute of Science and Technology, located in northeast Seoul. VOCs were sampled in a canister twice a day (at 09:30 and 15:00) and analyzed via gas chromatography. The meteorological conditions and chemical regimes of the air masses were clearly distinguished during the study period. In May, NOx concentrations were higher with more pronounced diurnal cycles of precursors and O3 under constant westerly winds. By contrast, stagnant conditions developed in June, which reduced the inflow of primary emissions from the downtown area but increased the influence from the neighboring forest under high temperatures. As a result, the ratio of O3 to odd oxygen was higher in June, indicating a less efficient removal of O3 by NOx. In the same context, the air mass was chemically more aged with a higher NO2/NOx ratio and enhanced OH reactivity of oxygenated and biogenic VOCs in June. The overall measurement results suggest that O3 formation is slightly more sensitive to VOCs than to NOx in Seoul during this season, when O3 concentrations are the highest of the year.

Published

2018