Статті КГВ

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    Modeling Coal Dust Dispersion from Pile with Protection Barriers
    (EDP Sciences, 2020) Biliaiev, Mykola M.; Biliaieva, Viktoriia V.; Berlov, Oleksandr V.; Kozachyna, Vitalii A.; Kirichenko, Pavlo S.; Oladipo, Mutiu Olatoye; Poltoratskа, Viktoriia
    EN: Abstract. The results of laboratory studies to evaluate the effectiveness of barriers which are used to reduce dust pollution from the coal pile are presented. The use of the Г-shaped barrier, which is set differently near the coal pile model, has been studied. A numerical model is proposed to compute coal dust concentration in the air near the pile. The Navier–Stokes equations are used to model the wind flow over the coal pile. These equations are written in the variables "vorticity-stream function". To simulate the process of coal dust dispersion from the coal pile, the equation of convective-diffusion transfer of the passive impurity is used. For numerical integration of the modeling equations, difference schemes of splitting are used. Developed numerical model allows to perform numerical experiments taking into account the complex geometric shape of the pile and screens. The results of the computational experiments are presented.
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    Modeling of the Atmosphere Pollution From Coal Trains
    (Dnipro National University of Railway Transport named after Academician V. Lazaryan, 2019) Biliaiev, Mykola M.; Kozachyna, Vitalii A.; Biliaieva, Viktoriia V.; Oladipo, Mutiu Olatoye; Chernyatyeva, Kateryna
    EN: Abstract. Coal trains have an intensive impact on environment pollution. It is very important to predict adequately this impact during coal transportation. In Ukraine to predict atmosphere pollution from coal trains the regulatory model «OND-86» is used. This model does not take into account some important factors and coal train movement. We present numerical models to solve two problems:1) prediction of atmosphere pollution in the case of moving coal train; 2) prediction of atmosphere pollution in the case of additional special boards installation on the coal wagon. To solve these problems equation of coal duct convective- diffusive dispersion (Lagrange model of admixture dispersion) and equation of potential flow were used. Governing equations were numerically integrated using implicit difference schemes. For coding difference equations we used FORTRAN language. We present results of numerical experiments and laboratory experiments which illustrate the efficiency of the special additional boards installation on the coal wagon. These boards have «internal wing» and «external wing». The obtained results illustrate that installation of additional boards allows to minimize the atmosphere pollution near transport corridor.
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    Reducing of Coal Dust Release from Train Wagon with Barrier
    (IOP Publishing, 2020) Biliaiev, Mykola M.; Biliaieva, Viktoriia V.; Kozachyna, Vitalii A.; Berlov, Oleksandr V.; Oladipo, Mutiu Olatoye; Kirichenko, Pavlo S.
    EN: Intensive environment pollution takes place during coal transportation in open wagons. Emission of coal dust from the coal wagons cause contamination of atmosphere and territory adjacent to the railway track. Different ways to reduce coal dust emission from the wagon are used in the world. Unfortunately, in Ukraine, this problem is far from solution and there is no serious research work in this field. The aim of this work was laboratory study of coal dust emission from the wagon model which had different barriers installed on the wagon. Laboratory experiments were carried for coal wagon without barrier and for coal wagon which had barriers of two types. Barrier of the first type had downwind wing. Barrier of the second type had upwind wing. The contamination zones, concentration near the model were studied. The obtained results illustrate that installation of barriers influence intensity of transport corridor contamination. Also a numerical model was developed to estimate wind flow and coal dust dispersion from the coal wagon. Equation of potential flow and equation of coal dust dispersion were used. Implicit difference schemes of splitting were used for numerical simulation of governing equations. Results of numerical experiment, which were performed, are presented.
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    Road with Fan for Reducing Exposure to Traffic Emissions
    (Kaunas University of Technology, Kaunas, Lithuania, 2021) Biliaiev, Mykola M.; Rusakova, Tetiana I.; Biliaieva, Viktoriia V.; Kozachyna, Vitalii A.; Oladipo, Mutiu Olatoye
    ENG:Problem statement. Emissions from cars on highways significantly affect the quality of the air. Therefore, there are two important tasks within this problem. The first task is to predict the level of air pollution near the highway. The second problem is to minimize the level of air pollution near the highway. The effective and quick method to assess a specific means effectiveness to protect air from pollution near highways is mathematical modeling. The purpose of the article. The aim of the paper is development of a numerical model to calculate pollution zones near the road, where axial exhaust fans are locally installed at the height of protective barriers, which ensure the intake of emissions from vehicles. Methodology. The basis of the mathematical model is the equation of convective-diffusion transfer of impurities, which takes into account the intensity of emissions from cars, the unevenness of the air flow, atmospheric diffusion. The calculation of the wind flow velocity field in the presence of cars, an axial fan and a protective screen on the road is carried out on the model of a vortex-free flow of an ideal fluid. For the numerical integration of the mass transfer equation, implicit difference splitting schemes are used. For the numerical solution of the aerodynamic equation, a conditional approximation difference scheme is used. Scientific novelty. Based on the numerical model, the code was created, which was used to solve the problem of assessing the level of pollution near the road in the presence of emission source (vehicles), with the location of screens and axial fan. Practical significance. The results of computational experiments to assess the effectiveness of axial fans to reduce the level of gas pollution near highways are presented. Scenarios considered: axial fan and protective barrier; additional screen on the barrier; axial fan and two protective barriers. Conclusion. A numerical model has been developed to determine the effectiveness of reducing air pollution using protective barriers on which an axial fan is installed. The model is based on the mass transfer equation and the equation for the velocity potential. A feature of the model is the possibility to take into account the complex geometric shape of the barrier.