Steady flow of power-law fluids in a 1:3 planar sudden expansion

Dhinakaran, S.; Oliveira, Mónica; Pinho, F.T.; Alves, M.A.

doi:10.1016/j.jnnfm.2013.01.006

Cited by 35 publications

(41 citation statements)

References 21 publications

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“…Vortex formation, even at Reynolds numbers approaching zero, has been reported in several investigations [7], [8]. To investigate vortex formation induced by the aggregate in our investigation, we performed a series of experiments to visualize flow streamlines traced by diameter fluorescent microparticles of () dispersed in whole blood.…”

Section: Resultsmentioning

confidence: 93%

“…The geometries were discretized with hexahedral elements using ICEM (Ansys). A mesh independence analysis was performed using a two dimensional model to investigate the mesh density needed across the channel [8]. In order to analyze the relations and the relative importance of the phenomena affecting the microfluidic devices presented, several dimensionless parameters were considered.…”

Section: Methodsmentioning

confidence: 99%

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An Investigation on Platelet Transport during Thrombus Formation at Micro-Scale Stenosis

et al. 2013

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This paper reports on an investigation of mass transport of blood cells at micro-scale stenosis where local strain-rate micro-gradients trigger platelet aggregation. Using a microfluidic flow focusing platform we investigate the blood flow streams that principally contribute to platelet aggregation under shear micro-gradient conditions. We demonstrate that relatively thin surface streams located at the channel wall are the primary contributor of platelets to the developing aggregate under shear gradient conditions. Furthermore we delineate a role for red blood cell hydrodynamic lift forces in driving enhanced advection of platelets to the stenosis wall and surface of developing aggregates. We show that this novel microfluidic platform can be effectively used to study the role of mass transport phenomena driving platelet recruitment and aggregate formation and believe that this approach will lead to a greater understanding of the mechanisms underlying shear-gradient dependent discoid platelet aggregation in the context of cardiovascular diseases such as acute coronary syndromes and ischemic stroke.

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Section: Resultsmentioning

confidence: 93%

Section: Methodsmentioning

confidence: 99%

An Investigation on Platelet Transport during Thrombus Formation at Micro-Scale Stenosis

et al. 2013

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“…Given the ubiquity of non-Newtonian characteristics in both natural and synthetic fluids in the chemical and biological fields [13], where these micro-mixers are expected to be used, knowledge of the effects of shear-thinning and elasticity on the critical conditions for this instability would seem important. It is well known that purely viscous shear-thinning effects can alter the critical conditions for the bifurcation which occurs in plane sudden expansions for example [14][15][16] and also that elasticity can influence the flow stability in geometries such as plane sudden expansions [17], cross-channel mixers [18][19][20], flow-focusing devices [21] and mixing-separating devices [22]. For example, Rocha et al [17] used the FENE-CR model to show that elasticity stabilizes the inertial symmetry-breaking bifurcation which occurs in a two-dimensional 1:4 plane sudden expansion.…”

Section: Introductionmentioning

confidence: 99%

Symmetry-breaking Bifurcations in T-channel Flows: Effects of Fluid Viscoelasticity

Poole

Haward

Alves

2014

Procedia Engineering

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It is well known that, beyond a critical aspect-ratio-dependent Reynolds number, the flow in a three-dimensional T-channel junction, i.e. two-opposing planar channel streams joining and turning through 90 degrees, can break symmetry. For the case of two square cross-section inlets and an outlet arm of equal area (i.e. aspect ratio of two) this bifurcation is to a steady asymmetric flow. This flow bifurcation has been proposed as a method of enhancing mixing in microfluidic channels where significant increases in mixing quality are observed beyond the bifurcation. In the current work we investigate numerically the effects of viscoelasticity on this supercritical pitchfork bifurcation using a numerical finite-volume method. Results from both the upperconvected Maxwell and Oldroyd-B models show that the instability occurs at lower Reynolds numbers for viscoelastic fluids in comparison to the Newtonian base case. At higher Deborah numbers the transition leads directly to an unsteady flow.

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“…These findings were confirmed for laminar flow by Ternik (2009). Conversely, shear thickening fluids have an opposite effect by elongating the recirculation zone (Dhinakarana et al, 2013). When the fluid in a sudden expansion has elastic properties however, the recirculation zones are smaller -thus elasticity has a damping effect (Oliviera, 2003).…”

Section: Transition Effectsmentioning

confidence: 69%