6533b7dbfe1ef96bd127156e
RESEARCH PRODUCT
An alternative conception of PM10 concentration changes after short-term precipitation in urban environment
Tomasz OlszowskiZbigniew Ziembiksubject
ANCOVAFluid Flow and Transfer ProcessesAtmospheric ScienceEnvironmental EngineeringCoefficient of determination010504 meteorology & atmospheric sciencesTroposphereRainLinear modelMechanical EngineeringLinear modelHumidity010501 environmental sciencesParticulatesAtmospheric sciences01 natural sciencesPollutionSnowHomoscedasticityEnvironmental scienceMass concentration (chemistry)PrecipitationAerosolWater vapor0105 earth and related environmental sciencesdescription
Abstract In the article, a linear model is presented which describes a reduction of PM10 mass concentration in relation to the type of precipitation and water vapour content in the air. The model was built using covariance analysis. In studies of PM10 concentration changes, the results of 247 observations were used, which were carried out in the urban area. Concentration changes were archived during short-term (30 min) convection and large-scale rainfalls. For the determination of PM10 mass concentration, the reference method was used. To describe changes in PM10 concentration in the air after precipitation, a series of linear models were created, in which the explanatory variables were: the level of PM10 before precipitation, absolute humidity of the air and the precipitation type. The criteria for the best model selection were its linearity, zero mean residual value and high coefficient of determination. Additionally, normality and homoscedasticity of the model residuals were tested. The formulated linear model is a useful tool for predicting changes in the concentration of particulate matter following short-term precipitation in urban areas. There is a need to check the utility of models for other fractions of suspended particles.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2018-07-01 | Journal of Aerosol Science |