7 Artículos

The mathematic simulation process of toxic gas wicking into the room through the ventilation system on the territory of chemically hazardous object during the emergency

Acceso

en línea

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. ... ver más

Revista: Nauka ta Progres Transportu Formato: Electrónico

Tabla de contenido: Vol: 0 Num: 38 Par: 0 Año: 2011

Numerical simulation of wicking toxic gas into the room on the territory of chemically hazardous object during the emergency

Acceso

en línea

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... ver más

Revista: Nauka ta Progres Transportu Formato: Electrónico

Tabla de contenido: Vol: 0 Num: 36 Par: 0 Año: 2011

LOCALIZATION OF THE AIR POLLUTION ZONE IN CASE OF LIQUIDATION OF AN ACCIDENT WITH CHEMICALLY HAZARDOUS CARGO

Acceso

en línea

O. M. Pshinko,M. M. Biliaiev,O. Yu. Gunko Pág. 143 - 148

The 3D CFD model to simulate the pollutant transfer and the process of neutralization of toxic gas after accidents was developed. The model is based on the transport gradient model and the model of inviscid incompressible fluid. The results of numerical ... ver más

Revista: Nauka ta Progres Transportu Formato: Electrónico

Tabla de contenido: Vol: 0 Num: 27 Par: 0 Año: 2009

Mathematical modeling of non-standard processes of air pollution on industrial sites

Acceso

en línea

M. M. Biliaiev,O. Yu. Gunko,S. O. Sachuk Pág. 90 - 93

The 3D model to simulate the pollutant transfer near building after accidents was developed. The model is based on the transport gradient model and the model of inviscid imcompressible fluid. The results of numerical experiments are presented.

Revista: Nauka ta Progres Transportu Formato: Electrónico

Tabla de contenido: Vol: 0 Num: 21 Par: 0 Año: 2008

THE RISK ASSESSMENT OF TOXIC DEFEAT OF THE PEOPLE IN THE ACCIDENTAL EMISSION OF HAZARDOUS CHEMICAL SUBSTANCES

Acceso

en línea

O. Yu. Gunko Pág. 87 - 90

The 3D numerical model to simulate the toxicant propagation at an industrial site after the emergency blow-out was developed. The model is based on the transport gradient model and the model of inviscous incompressible fluid. The results of numerical exp... ver más

Revista: Nauka ta Progres Transportu Formato: Electrónico

Tabla de contenido: Vol: 0 Num: 20 Par: 0 Año: 2008

THE MODELING OF AIR POLLUTION WHEN THE LIQUID EVAPORATES FROM THE SOIL

Acceso

en línea

Ye. Yu. Gunko Pág. 35 - 39

The 3D model to simulate the pollutant transfer near building after accidents was developed. The model is based on the transport gradient model and the model of invisid imcompressible fluid. The results of numerical experiments are presented.

Revista: Nauka ta Progres Transportu Formato: Electrónico

Tabla de contenido: Vol: 0 Num: 19 Par: 0 Año: 2007

THE CALCULATION OF THE DISTRIBUTION OF POLLUTANTS IN BUILT-UP AREAS

Acceso

en línea

M. M. Biliaiev,Ye. Yu. Gunko Pág. 21 - 24

The 3D numerical model to simulate the toxic gas dispersion on industrial sites after accident ejections was developed. The model is based on the K-gradient transport model and equation of potential flow. The results of numerical experiment of atmosphere... ver más

Revista: Nauka ta Progres Transportu Formato: Electrónico

Tabla de contenido: Vol: 0 Num: 18 Par: 0 Año: 2007

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