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Examples are discussed and application to modeling complex fluids is presented.
Dissipative particle dynamics (DPD) is a relatively new mesoscopic simulation approach, which has been successfully applied in modeling complex fluids in periodic domains.
Dissipative particle dynamics (DPD) is an effective Lagrangian method for modeling complex fluids in the mesoscale regime but so far it has been limited to relatively simple geometries.
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In this review article, we describe how the diffusive interface method can be used for the modeling of complex fluids and point to some main results in the field.
Applications are presented for models of complex fluids, contact line dynamics, and a simple model of non-trivial fluid solid interactions.
Although the method demonstrated here obtains only a local viscosity from the polymer dynamics, it can be extended to other multiscale models of complex fluids whose macro-rheology is unknown.
In many cases, e.g., in modeling the rheology of complex fluids, it has been found that the memory kernels can be avoided by including additional, microstructural dynamic variables in the description (Bird et al. 1987a, b).
It is based on a finite-difference solver and nonlinear minimization and is designed to develop realistic geoelectric models of complex fluid-saturated formations.
The method of dissipative particle dynamics (DPD) is an effective, coarse grained model of the hydrodynamics of complex fluids.
Diffuse interface models are well-known tools to describe dynamics of complex fluids ([1, 2]).
Although not as complex as real petroleum fluids, the studied system is of interest for the evaluation of viscosity models for their potential application to the simulation of complex fluids with an asymmetrical molecular distribution.
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