|
KMID : 1156220180440060539
|
|
Journal of Environmental Health Sciences
2018 Volume.44 No. 6 p.539 ~ p.547
|
|
|
Simple Forecasting of Surface Ozone through a Statistical Approach
|
|
Ma Chang-Jin
Kang Gong-Unn
|
|
|
Abstract
|
|
|
Objectives: Ozone (O 3 ) advisories are issued by provincial/prefectural and city governments in Korea and Japan when oxidant concentrations exceed the criteria of the related country. Advisories issued only after exposure to high O 3 concentrations cannot be considered ideal measures. Forecasts of O 3 would be more beneficial to citizens¡¯ health and daily life than real-time advisories. The present study was undertaken to present a simplified forecasting model that can predict surface O 3 concentrations for the afternoon of the day of the forecast.
Methods: For the construction of a simple and practical model, a multivariate regression model was applied. The monitored data on gases and climate variables from Japan¡¯s air quality networks that were recorded over nearly one year starting from April 2016 were applied as the subject for our model.
Results: A well-known inverse correlation between NO 2 and O 3 was confirmed by the monitored data for Iksan, Korea and Fukuoka, Japan. Typical time fluctuations for O 3 and NO x were also found. Our model suggests that insolation is the most influential factor in determining the concentration of O 3 . CH 4 also plays a major role in our model. It was possible to visually check for the fit of a theoretical distribution to the observed data by examining the probability-probability (P-P) scatter plot. The goodness of fit of the model in this study was also successfully validated through a comparison (r=0.8, p<0.05) of the measured and predicted O 3 concentrations.
Conclusions: The advantage of our model is that it is capable of immediate forecasting of surface O 3 for the afternoon of the day from the routinely measured values of the precursor and meteorological parameters. Although a comparison to other approaches for O 3 forecasting was not carried out, the model suggested in this study would be very helpful for the citizens of Korea and Japan, especially during the O 3 season from May to June.
|
|
|
KEYWORD
|
|
|
Ozone, photochemical smog, nitrous oxide, regression model, health effect
|
|
|
FullTexts / Linksout information
|
|
|
|
|
Listed journal information
|
|
|