Numerical modelling of multi-component mass transfer regimes in four-component gas systems
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Акад. Е.А. Бөкетов ат. Қарағанды ун-ті КЕАҚ баспасы
Abstract
For argon and carbon dioxide, which are part of the tetra-component gas mixture He + Ar + CO2 – N2 and
are the heaviest compared to other components, graphs of the behavior of the concentration of these components
at different points of the diffusion channel and time intervals are presented. To simulate convective
flows in the four-component mixture under consideration, the Flow Simulation computer package included in
the SolidWorks engineering design system was used. The equations are solved by the finite volume method
using the standard k – ε turbulence model and with initial and boundary conditions. Indicated, that obtained
distributions change nonlinearly both in time and along the length of the diffusion channel. In this case, there
is a change in the diffusion process to a convective one, which is due to the nonlinearity in the distribution of
the components concentration, which is connected with the imbalance of mechanical equilibrium. It was
found that the most significant change in the behavior of the concentrations of heavy-weight components occurs
within 120 s. This time interval coincides with the appearance of two contrasting areas on the graphs,
namely, the formation of a developed convective flow. An enhancement in the time of the numerical experiment
showed that the concentration of the component with the maximal molar mass remains practically unchanged.
This behavior of the concentration of heavy-weight components is characteristic of the effect when
the mixture is enriched in the heavy-weight component. An analysis of the streamlines on the plots of concentration
distributions showed that vortices of various scales interacting with each other and leading to a pulsating
mixing regime are formed along the length of the channel. It has been established that the presence of
large-scale vortices determines the preferential migration of the components with the maximal molar mass.
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Fedorenko O.V. Numerical modelling of multi-component mass transfer regimes in four-component gas systems/O.V. Fedorenko [et al]//Қарағанды университетінің хабаршысы. Физика сериясы.= Вестник Карагандинского университета. Серия Физика. = Bulletin of the Karaganda University. Physics Series. -2023. №4. 38-49.