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Visibility Degradation and Its Contributors at an Urban Site in Korea
Writer	관리자	Date	2021-04-14 11:17	Hit	212
Visibility Degradation and Its Contributors at an Urban Site in Korea Abstract In order to provide a better knowledge of visibility degradation during the PM2.5 event day (episodic high PM2.5 level, hereafter called as “event day”), the relationship between visibility and the chemical species of PM2.5 measured in Gwangju, Korea was estimated. Moreover, a visibility forecasting model was constructed by a statistical approach. The diurnal variation of visibility and PM2.5 concentration on the event day indicated that as the concentration of PM2.5 increased, more light was absorbed and scattered, resulting in visibility deterioration. The averaged visibility during the event day was 7.9 km, which was almost three times lower than that observed during a non-event day. Although the hygroscopic growth of aerosol was not considered in this study, it has been proved that NH4NO3 and organics dominantly contributed to the light scattering during the PM2.5 event day in Gwangju, Korea. The visibility determined in this study had also a negative correlation with PM10, nitrate, relative humidity, EC, OC, and sulfate. Meanwhile, visibility was positively linked with wind speed and temperature. The results of interrelationship and a multiple regression model suggest that among the meteorological variables, temperature was the main variable that influenced visibility. Key words PM2.5, Visibility, Chemical composition, Light scattering, Nephelometer, Regression model ▶Sources : Asian Association for Atmospheric Environment, Vol. 14, No. 4, pp. 335-344, December 2020
File	2. Visibility Degradation and Its Contributors at an Urban Site in Korea.pdf(1.2M)

Visibility Degradation and Its Contributors at an Urban Site in Korea

Writer

관리자

Date

2021-04-14 11:17

Hit

212

Visibility Degradation and Its Contributors at an Urban Site in Korea

Abstract

In order to provide a better knowledge of visibility degradation during the PM2.5 event day (episodic high PM2.5 level, hereafter called as “event day”), the relationship between visibility and the chemical species of PM2.5 measured in Gwangju, Korea was estimated. Moreover, a visibility forecasting model was constructed by a statistical approach. The diurnal variation of visibility and PM2.5 concentration on the event day indicated that as the concentration of PM2.5 increased, more light was absorbed and scattered, resulting in visibility deterioration. The averaged visibility during the event day was 7.9 km, which was almost three times lower than that observed during a non-event day. Although the hygroscopic growth of aerosol was not considered in this study, it has been proved that NH4NO3 and organics dominantly contributed to the light scattering during the PM2.5 event day in Gwangju, Korea. The visibility determined in this study had also a negative correlation with PM10, nitrate, relative humidity, EC, OC, and sulfate.
Meanwhile, visibility was positively linked with wind speed and temperature. The results of interrelationship and a multiple regression model suggest that among the meteorological variables, temperature was the main variable that influenced visibility.

Key words

PM2.5, Visibility, Chemical composition, Light scattering, Nephelometer, Regression model

▶Sources : Asian Association for Atmospheric Environment, Vol. 14, No. 4, pp. 335-344, December 2020

File

2. Visibility Degradation and Its Contributors at an Urban Site in Korea.pdf(1.2M)

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