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Abstract
Turbulent flows of emulsions are associated with the processes of breakage, coalescence and sedimentation of droplets of dispersed liquid. Mechanisms of these physical phenomena that form the equilibrium composition of the droplets of dispersed phase are predetermined by the structure of turbulence. Spectrum of distribution of the dispersed droplets according to the size determines in turn the nature of the interaction with the continuous medium. Therefore, a hydrodynamic model for unstable emulsion (CFD) is completed by discrete population balance model (DPB). It reflects the state of the dispersed phase of the emulsion required to construct an adequate model for CFD. A joint application requires the coordination of the composition and structure of these models for formalizing of the complex interrelationships of physical phenomena in the continuous medium and the dispersed phase of the emulsion. The key advantages of such specification of the overall structure of the partial models of the CFD consist in that model includes only the mechanisms of breakup, coalescence and sedimentation of the droplets of the dispersed phase, which are really work in the given conditions. Using of a priori theoretical information in the form of mechanisms of basic physical phenomena (MBPP) is proposed, which is necessary for obtaining the desired particular solutions of applied problems on the basis of common CFD and DPB models.
Highlights
Emulsion of immiscible liquids is widely used in various technological processes and equipment
A more important aspect is the justification of the mathematical models for real conditions in which complex physical phenomena are formed (Ramkrishna [3], Ramkrishna and Mahoney [4]). It is they that provide the quality results of the model numerical research required for the design and management of the production systems
Theoretical analysis of deformation and breakage of the viscous liquid droplets under the influence of dynamic forces and shear stress in an inhomogeneous turbulent flow still remains quite complicated for a complete formalization task
Summary
Emulsion of immiscible liquids is widely used in various technological processes and equipment. To justify the rheological behavior of such heterogeneous systems it is necessary to link the influence of the size and concentration of droplets on the turbulence characteristics This requires specialized hydrodynamic models and CFD software. The most problematic are the model effects associated with nonlinear nature of the МВРР interaction They are localized inside of the criteria of detail dmax , ddep and l0 , features the model representations of which are described below for turbulent flow of unstable emulsions in pipelines. It is presented for the completeness and specificity of argumentation of instructional techniques, which are formalized by the complex model representations
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