Abstract
The work models filtration of a biological fluid as a cylindrical layer in a stationary regime. The model takes into account the compressibility and concentration expansion of the fluid. Dimensionless complexes containing the relations between various physical parameters were distinguished. The specific effects flow regimes are numerically studied. Numerical calculations were made for convective and diffusion flow regimes. The qualitative regularities in concentration and velocity distribution were detected. The study distinguishes dimensionless complexes with bonds between various physical parameters. The effects specific to convective and diffusion flow regimes are numerically studied. It was established that the compressibility of the fluid is significant for the distributions of concentration and velocity only in the coupled model.
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