A parametric study of droplet deformation through a microfluidic contraction: Shear thinning liquids |
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Authors: | DJE Harvie MR Davidson JJ Cooper-White M Rudman |
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Institution: | 1. Department of Chemical and Biomolecular Engineering, University of Melbourne, Victoria 3010, Australia;2. Division of Chemical Engineering, University of Queensland, Queensland 4072, Australia;3. CSIRO Manufacturing and Infrastructure Technology, P.O. Box 56, Highett, Victoria 3190, Australia |
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Abstract: | Numerical simulations of a droplet passing through an axisymmetric microfluidic contraction are presented, focusing on systems where one of the two liquids present is shear thinning. The simulations are performed using a transient Volume of Fluid (VOF) algorithm. When the droplet is shear thinning and the surrounding phase Newtonian, droplets deform in a similar way to Newtonian droplets that have a viscosity equal to the average viscosity of the shear thinning fluid while it is within the contraction. When the surrounding phase is shear thinning and the droplet Newtonian, droplets deform in a similar way to droplets contained within a Newtonian liquid that has a viscosity that is lower than that of the droplet. In both cases the behaviour of the shear thinning fluid can be broadly described in terms of a ‘characteristic’ Newtonian viscosity: However, determining the exact value of this viscosity without performing a full shear thinning simulation is not possible. |
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Keywords: | Volume of Fluid Shear thinning Contraction Microfluidics Non-Newtonian Droplet Carreau |
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