Atmosphere (Sep 2024)

Distribution and Characteristics of Ammonia Concentration by Region in Korea

  • In-Ho Song,
  • Hyun-Woong Kim,
  • Jong-Sung Park,
  • Seung-Myung Park,
  • Jae-Yun Lee,
  • Eun-Jung Nam,
  • Yong-Jae Lim,
  • Jung-Min Park,
  • Myung-Soo Yoo,
  • Seog-Yeon Cho,
  • Hye-Jung Shin

DOI
https://doi.org/10.3390/atmos15091120
Journal volume & issue
Vol. 15, no. 9
p. 1120

Abstract

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In this study, the characteristics of ammonia and their effects on secondary particulate matter (PM) formation were analyzed by region in Korea in 2020. The NH3 concentration was high in GJ (11.4 ppb), a neighboring agricultural area, followed by DJ (9.0 ppb) and SE (8.6 ppb), which are located in urban areas. On the other hand, BI (2.6 ppb) and JI (4.5 ppb), which are background regions, demonstrated a lower concentration than other areas. Seasonally, ammonia was high in spring and summer, and it generally increased when human activities are active. Therefore, it is believed that the ammonia in the atmosphere not only changes depending on local emissions, but also based on temperature-dependent phase distribution characteristics. For SE and GJ, regions with relatively high ammonia concentrations, investigations into the effect of ammonia on secondary PM formation were conducted. In both regions, the ammonium-to-sulfate mole ratio tended to increase with increasing ammonia or PM2.5 concentration. It can be assumed that the PM2.5 concentration increases as nitrates are formed under the ammonia-sufficient condition. The adjusted gas ratio is generally greater than 4, indicating that there is a lot of free ammonia. Thus, it is estimated that a reduction in ammonia would not be effective to restrain nitrate formation.

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