| Summary: | An aqueous chemistry module is created and included into a complex 3D cloud-resolving mesoscale ARPS model to examine the characteristics of in-cloud sulfate. The complex orography of Serbia is included in the model. The chemical species included in the module are sulfur dioxide, sulfate ion, ammonium ion, hydrogen peroxide and ozone. Six water categories are considered: water vapor, cloud water, rain, cloud ice, snow and hail. Each chemical species in each microphysical category is represented by a differential equation of mass continuity. This paper gives a detailed description of the chemistry module and demonstrates the utility of an atmospheric model coupled with the chemistry module in forecasting the redistribution of chemical species in all water categories. The main mean microphysical and chemical conversion rates of sulfate averaged over a 2 h simulation period for a base run are for the oxidation of S(IV) in rain water and cloud water, SO4 2− scavenging by Brownian diffusion in cloud droplets and cloud ice as well as the impact scavenging of SO4 2− by rain. The calculated values of sulfates in all water categories and the shape of sulfate profiles depend on radar reflectivity.
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