Numerical research of characteristic mixing times of isothermal three-component steam-gas systems
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Karagandy University of the name of acad. E.A. Buketov
Abstract
Multicomponent diffusion in gases is characterized by a number of effects that are not observed in binary diffusion.
Analysis of existing works shows that convective instability may occur in some systems with significantly
different diffusion coefficients with certain geometric and thermophysical characteristics. Stability
analysis allows determining the spectrum of parameters at which a transition from a diffusive state to a convective
is possible. However, this approach does not allow the researchers to investigate the dynamics of the
process. Therefore, this work aims to describe emergence and evolution of convective flows in threecomponent
systems and assess the influence of the initial composition on the occurrence of concentration
gravitational convection. The main part of the work presents a mathematical model describing the occurrence
of convective flows based on the splitting scheme according to physical parameters. Numerical data on the
concentration fields of the gas with the highest molecular weight at various time points is obtained. It is established
that curvature of the isoconcentration lines of the diffusing components can be associated with instability
of the mechanical equilibrium of the system. Degree of curvature is determined by the initial concentration
of components of the mixture. The obtained data can be used to determine the main characteristics of mass
transfer used in calculations related to combined heat and mass transfer in a wide range of thermophysical parameters.
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Numerical research of characteristic mixing times of isothermal three-component steam-gas systems/Zhussanbayeva A.K. [et al.] // Bulletin of the Karaganda University.“Physics” Series. – 2022-№ 2(106). – pp.133-140.