Author:
Sharipov Daler,Abdullaev Zafar,Khafizov Otabek
Abstract
The paper considers a mathematical model for research, forecasting, and management decisions on the process of spreading harmful aerosol substances in the atmosphere. When deriving a mathematical model of the object, the main weather and climatic factors affecting the process of transport and diffusion of harmful substances and the terrain of the region under consideration are taken into account. Changes in wind direction and speed are calculated using the Navier-Stokes equation of stream function and vortex velocity variables. The proposed software was implemented as a software tool in the Borland C ++ Builder environment to carry out computational experiments. The results of the performed numerical calculations are shown in the form of graphical objects.
Reference22 articles.
1. Aloyan A. Ye., Rossiyskaya akademiya nauk Institut vychislitel’noy matematiki Kafedra matematicheskogo modelirovaniya fizicheskikh protsessov MFTI, (2002)
2. Ch I. A., “Matematicheskaya model’ optimizatsionnoy zadachi razmeshcheniya pozharoopasnykh ob”yektov s uchetom rel’yefa oblasti razmeshcheniya,” Zaporozhskiy natsional’nyy tekhnicheskiy universitet, (2021)
3. Kordzadze A., Mathematical modelling of dynamical and ecological processes in the system sea-land-atmosphere, NATO Secur. through Sci. Ser. C Environ. Secur., DOI: 10.1007/978-1-4020-5877-6_17. pp. 181–193, (2007).
4. Mathematical Modeling of Diffusion and Transport of Pollutants in the Atmospheric Boundary Layer
5. Khan Y., Shekhu M., and Sulochana C., Mathematical model for dispersion and diffusion of chemically reactive pollutants from various sources into a boundary layer with dry deposition, Eng. Comput. (Swansea, Wales), DOI: 10.1108/EC-08-2013-0098. 30, (5), pp. 707–727, (2013).
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