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Mass Size Distributions of Water-soluble Organic and Inorganic Species in Ambient Air at an Urban Site in Gwangju during November 2019
Writer	관리자	Date	2021-04-14 11:24	Hit	636
Mass Size Distributions of Water-soluble Organic and Inorganic Species in Ambient Air at an Urban Site in Gwangju during November 2019 Abstract Mass size distributions of water-soluble organic and inorganic species in ambient aerosol particles were examined at an urban site in Gwangju for period from November 2 through 26, 2019. During the study period, particulate matter (PM) and NO₃^- exhibited mostly bi-modal size distributions with particle sizes at 0.32 and 3.1 ㎛, while water-soluble organic carbon, SO₄^2-, NH₄⁺ and K⁺ had typically uni-modal size distribution at a diameter of 0.32 or 0.55 ㎛. Size distributions of NO₃^- observed in PM suggest that NO₃^- particles were formed through homogeneous reactions of NO₂ in condensational mode and through heterogeneous reactions of gaseous nitric acid on surface of CaCO₃ particles in coarse mode, which is clearly associated with increase in coarse mode PM concentration. On day (November 2) when the highest PM_2.5 concentration (35.9 ㎍/㎥) occurred, PM showed strong bi-modal size distribution peaking at 0.32 and 3.1 ㎛ due to stable air conditions, locally produced pollution, and impact of Asian dust occurred on preceding day. On the other hand, on November 18 when Asian dust occurred, PM exhibited also bi-modal size distribution peaking at 0.32 and 3.1 ㎛, but with a predominant coarse mode due to increased concentration of Ca²⁺. Furthermore, Na⁺ and Cl^- showed strong peaks in the coarse mode, due to possibly influx of sea-salt particles during transport of air masses from China. Results from size distributions of PM and its water-soluble chemical species would help to understand their emission sources and formation processes. Keywords Mass size distribution, Water-soluble chemical species, Condensation and coarse modes, Asian dust ▶Sources : Journal of Korean Society for Atmospheric Environment Vol. 37, No. 1, February 2021

Mass Size Distributions of Water-soluble Organic and Inorganic Species in Ambient Air at an Urban Site in Gwangju during November 2019

Writer

관리자

Date

2021-04-14 11:24

Hit

636

Mass Size Distributions of Water-soluble Organic and Inorganic Species in Ambient Air at an Urban Site in Gwangju during November 2019

Abstract

Mass size distributions of water-soluble organic and inorganic species in ambient aerosol particles were examined at an urban site in Gwangju for period from November 2 through 26, 2019. During the study period, particulate matter (PM) and NO₃^- exhibited mostly bi-modal size distributions with particle sizes at 0.32 and 3.1 ㎛, while water-soluble organic carbon, SO₄^2-, NH₄⁺ and K⁺ had typically uni-modal size distribution at a diameter of 0.32 or 0.55 ㎛. Size distributions of NO₃^- observed in PM suggest that NO₃^- particles were formed through homogeneous reactions of NO₂ in condensational mode and through heterogeneous reactions of gaseous nitric acid on surface of CaCO₃ particles in coarse mode, which is clearly associated with increase in coarse mode PM concentration. On day (November 2) when the highest PM_2.5 concentration (35.9 ㎍/㎥) occurred, PM showed strong bi-modal size distribution peaking at 0.32 and 3.1 ㎛ due to stable air conditions, locally produced pollution, and impact of Asian dust occurred on preceding day. On the other hand, on November 18 when Asian dust occurred, PM exhibited also bi-modal size distribution peaking at 0.32 and 3.1 ㎛, but with a predominant coarse mode due to increased concentration of Ca²⁺. Furthermore, Na⁺ and Cl^- showed strong peaks in the coarse mode, due to possibly influx of sea-salt particles during transport of air masses from China. Results from size distributions of PM and its water-soluble chemical species would help to understand their emission sources and formation processes.

Keywords

Mass size distribution, Water-soluble chemical species, Condensation and coarse modes, Asian dust

▶Sources : Journal of Korean Society for Atmospheric Environment Vol. 37, No. 1, February 2021

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