Health Risk of Increased O3 Concentration Based on Regional Emission Characteristics under the Unusual State of the COVID-19 Pandemic

Abstract: Photochemical oxidant concentration increases with the decrease in nitrogen oxide (NOx) concentration in volatile organic compound (VOC)-sensitive areas with several automobiles and factories. We aimed to quantify the changes in health risks from ozone (O3) and nitrogen dioxide (NO2) using disability-adjusted life years (DALY) in Osaka City, which is one of the major cities in Japan. ADMER-PRO version 1.0, an atmospheric model for secondary products, was used to estimate the concentration distribution of NO2, … Show more

“…The atmospheric dispersion model for exposure and risk assessment version 1.0 (ADMER-PRO) was used in the simulation. The ADMER-PRO was developed by the National Institute of Advanced Industrial Science and Technology of Japan [24] and has been widely used in air quality research [28][29][30]. The development of ADMER-Pro was based on the regional atmospheric modeling system (RAMS).…”

Modeling Ground Ozone Concentration Changes after Variations in Precursor Emissions and Assessing Their Benefits in the Kanto Region of Japan

“…The atmospheric dispersion model for exposure and risk assessment version 1.0 (ADMER-PRO) was used in the simulation. The ADMER-PRO was developed by the National Institute of Advanced Industrial Science and Technology of Japan [24] and has been widely used in air quality research [28][29][30]. The development of ADMER-Pro was based on the regional atmospheric modeling system (RAMS).…”

Modeling Ground Ozone Concentration Changes after Variations in Precursor Emissions and Assessing Their Benefits in the Kanto Region of Japan