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M. M. Biliaiev,P. B. Mashyhina
Pág. 65 - 68
The 2D numerical model to simulate the pollutant dispersion and evaporation, when the air jet is used, was proposed. The results of numerical experiment are presented.
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P. B. Mashyhina
Pág. 138 - 142
The 2D numerical model to simulate the pollutant dispersion over complex terrain was proposed. The model is based on the equation of potential flow and the equation of admixture transfer. Results of the numerical experiment are presented.
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O. M. Pshinko,M. M. Biliaiev,P. B. Mashyhina
Pág. 86 - 89
The 2D numerical model to simulate the pollutant dispersion over complex terrain is proposed. Results of numerical experiment are presented.
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O. M. Pshinko,M. M. Biliaiev,P. B. Mashyhina
Pág. 81 - 83
A numerical model to simulate the process of heavy gas transfer was developed. The numerical simulation is carried out using 3D models of pollutant transfer and potential air flow. The implicit finite difference schemes are used. The results of numerical...
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P. B. Mashyhina
Pág. 88 - 90
The method to calculate the thermopollution when the fire ball was burning was developed. The method is based on numerical integration of 3D equation of energy. Velocity field is calculated using 3D model of potential flow. The results of numerical exper...
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M. M. Biliaiev,P. B. Mashyhina,M. K. Tretiak
Pág. 27 - 29
The method to calculate the thermo pollution and damage of people when the fire ball was burning was developed. The method is based on numerical integration of 3D equation of energy. The results of numerical experiments are presented.
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