1. Development of a short–term ozone prediction tool in Tirana area based on meteorological variables
- Author
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Manjola Banja, Anastasia Poupkou, D. K. Papanastasiou, and Dimitris Melas
- Subjects
Pollution ,Atmospheric Science ,Percentile ,Ozone ,Correlation coefficient ,Regression model ,media_common.quotation_subject ,Air pollution ,Regression analysis ,Tirana ,Seasonality ,medicine.disease_cause ,medicine.disease ,chemistry.chemical_compound ,Meteorology ,chemistry ,Climatology ,medicine ,Ozone prediction ,Environmental science ,Relative humidity ,Waste Management and Disposal ,media_common - Abstract
The short–term prediction of near surface ozone levels is very important due to the negative impacts of ozone on human health, climate and vegetation. The objective of this paper is to develop and test an analytical model that could be applied to predict next day's maximum ozone concentration for the first time in Tirana, Albania, where ozone's monitoring has been recently started. The relationship of the daily maximum hourly ozone values with meteorological variables, including near surface air temperature and relative humidity and with air pollution variables like the persistency of ozone levels and its seasonal variation is examined. The data analysis reveals that the pollution persistency and the near surface air temperature are the factors that mainly affect the peak ozone levels. Multiple linear regression analysis has been performed to establish the relationship between the above mentioned parameters and peak ozone concentration. The agreement between observed and predicted daily maximum hourly ozone values is very good, with a correlation coefficient (R) of 0.87. The model slightly under–predicts the ozone concentration while no significant mispredictions are observed. Additionally, the model’s ability to predict the exceedances of a specific ozone limit value is examined. The model successfully predicts the exceedances of 105 μg m −3 , a value that corresponds to the 75 th percentile, in the 86% of the cases applied.
- Published
- 2012
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