Simulation of turbulent flow of viscous liquids with dispersed inclusions of close density
Abstract
The authors consider the methods and algorithms for calculating the characteristics of hydro-mechanical processes in the flow of viscous liquid (water) with dispersed inclusions of close density. In particular, the dependences of the dimensionless intensity of the pulsation energy dissipation on the inertness of inclusions at different loads are investigated. The paper presents the results of the solution by the boundary numerical method in Mathcad. It is found that the intensity of the pulsation energy dissipation of the carrier medium is directly proportional to the ratio of the distributed density of the dispersed phase and the carrier phase depends on the inertia of the inclusions, characterized by a dimensionless value.