Abstract
Presents the results of mathematical simulation of the condensation process of sulphur dioxide and water vapor on the condensation nuclei surface under the action of natural factors. Numerical investigations were carried out for the summer at a moderate speed of the wind. The influence of the parameter of condensation on the speed of the process of sulfuric acid drops formation in the air space was analyzed. Time ranges, sufficient for the formation of the acid rain sedimentation in the atmosphere, adjacent to the areas of thermal power station work were established. It is shown that the speed of air masses movement effects on the process of acid anthropogenic admixtures dispersion in the atmosphere. Approbation of the obtained results was carried out by checking the difference scheme conservative and solution of test problems.
Highlights
Presents the results of mathematical simulation of the condensation process of sulphur dioxide and water vapor on the condensation nuclei surface under the action of natural factors
A significant contribution to the formation of sulfuric acid in the boundary layer of the atmosphere is contributed by thermal power plants [1]
In this paper we study the processes of condensation of sulphur trioxide SO3 and water vapor H2O
Summary
Presents the results of mathematical simulation of the condensation process of sulphur dioxide and water vapor on the condensation nuclei surface under the action of natural factors. Further course of the simultaneous condensation process of sulphur dioxide and water vapor promotes the formation of sulfuric acid drops with sizes to 2, 5 · 10−3 m during the analyzed time interval.
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