Related resources
Search for item elsewhere
University researcher(s)
A general approach for modeling complex fluids: its application to concentrated emulsions under shear
Colloids Surf., A FIELD Full Journal Title:Colloids and Surfaces, A: Physicochemical and Engineering Aspects. 1998;144(1-3):305-318.
Access to files
Full-text and supplementary files are not available from Manchester eScholar. Use our list of Related resources to find this item elsewhere. Alternatively, request a copy from the Library's Document supply service.
Abstract
We present a general Lagrangian-Eulerian approach for modeling complex fluid flows. Our method can track the microstructure evolution of complex fluids under flow in a natural phys. way. It is esp. useful for mesoscopic modeling of complex fluids in which the characteristic time and length scales are usually several orders of magnitude higher than those for simple fluids. The method is illustrated by studying hydrodynamically interacting two-dimensional concd. emulsions under Couette flow. We have carried out the simulations of concd. emulsions under shear over a range of capillary no. (0.1???????Ca???????0.6) with a fixed area fraction ?????=0.4 and viscosity ratio ????=1. The results show that concd. emulsions exhibit the characteristics of viscoelastic fluids: strong shear thinning of shear stress and non-zero of first normal stress difference. Deformable drops can glide past each other with less resistance than in the case of hard suspensions and hence reduce shear stress. We have found that the dependence of the first normal stress difference on shear rate changes from quadratic to linear as the shear rate increases. In the regime of larger capillary nos., highly inhomogeneous behavior of drops and the dumbbell shape of drops can be clearly obsd. [on SciFinder(R)]
Keyword(s)
Emulsions; Flow; Flow (shear; Hydrodynamics; Microstructure; Shear stress; Simulation and Modeling (modeling complex fluids and its application to concd. emulsions under shear) ; emulsion concd shear flow; modeling complex fluids and its application to concd. emulsions under shear)
Bibliographic metadata
- CAN 130:144494 66-2 Surface Chemistry and Colloids Journal 0927-7757 written in English