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N. N. Biliaiev,H. K. Nagornaya
Pág. 35 - 39
The 2D-numerical model was developed and used to simulate the pollutant transfer in the vertical settler. The model is based on the numerical integration of the K-gradient transport model and the model of the potential flow. The results of numerical expe...
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N. N. Belyaev,V. M. Lisnyak
Pág. 151 - 155
The 2D numerical model was used to simulate the toxic gas neutralization when this gas flows from the opening in the cellar of the building. The helicopter is used to supply the neutralizer. The model is based on the K-gradient transport model and equati...
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M. M. Belyaev,P. S. Kirichenko
Pág. 147 - 151
The 3D numerical model was developed and used to simulate the sea pollution after mine waters discharge. The model is based on the numerical integration of the K-gradient transport model and the model of potential flow. The results of numerical experimen...
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N. N. Belyaev,E. Yu. Gunko,T. P. Reshetnyak
Pág. 141 - 146
The 3D numerical model to simulate the toxic gas dispersion at an industrial site and inflow of toxic gas into the industrial room after an accident ejection was developed. The model is based on the K-gradient transport model and equation of potential fl...
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M. M. Biliaiev,L. F. Dolina,O. Yu. Gunko
Pág. 170 - 176
The 3D-numerical model to simulate the toxic gas dispersion on industrial sites and inflow of toxic gas into the industrial room after accident ejections was developed. The model is based on the K-gradient transport model and equation of potential flow. ...
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O. M. Pshinko,L. V. Amelina,M. M. Bilyaev
Pág. 181 - 186
The 2D numerical model was developed and used to simulate river pollution after accident on the ammonia pipe over Dnipro River. The model is based on the numerical integration of the K-gradient transport model and potential flow. The results of numerical...
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M. M. Biliaiev,P. B. Mashihina
Pág. 165 - 169
The 3D numerical model was used to simulate the toxic gas dispersion over a complex terrain after an accident spillage. The model is based on the K-gradient transport model and the model of potential flow. The results of numerical experiment are presente...
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P. B. Mashykhina
Pág. 135 - 139
The 3D numerical model was used to simulate the toxic gas dispersion over complex terrain. The model is based on the K-gradient transport model and the model of potential flow. The results of numerical experiment are presented.
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M. M. Biliaiev
Pág. 159 - 164
The basic principles of development of the software AIR-3 aimed at simulation of the atmosphere chemical pollution after accidents are under consideration. The modeling is based on the numerical integration of the K-gradient transport model. The results ...
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V. V. Belyaeva
Pág. 82 - 85
The mathematical model to simulate the toxic gas dispersion inside an industrial room after accident ejections was developed. The model is based on the K-gradient transport model and equation of potential flow. The model permits to calculate the time of ...
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