Litcius/Paper detail

Viscoplastic fingering in rectangular channels

Ali Eslami, Seyed Mohammad Taghavi

2020Physical review. E22 citationsDOI

Abstract

We experimentally study the viscous fingering problem of viscoplastic fluids in channels of rectangular cross section. We find that a yield stress-dependent capillary number (Ca^{*}) and an aspect ratio-dependent Bond number (Bo^{*}) can classify the finger shape into ramified and unified fingering patterns, and the finger flow regime into yield stress, viscosity, and aspect ratio-buoyancy-dominated regimes. For these regimes, we provide the transition boundaries using Ca^{*} and Bo^{*} and propose simple relations to predict the finger width, for a wide range of flow parameters, versus the capillary number, the channel aspect ratio, and the rheology of the viscoplastic fluid.

Topics & Concepts

ViscoplasticityViscous fingeringRheologyBuoyancyMechanicsCapillary actionViscosityAspect ratio (aeronautics)Flow (mathematics)Yield (engineering)Materials scienceCapillary numberThermodynamicsPhysicsComposite materialPorous mediumFinite element methodPorosityConstitutive equationRheology and Fluid Dynamics StudiesBlock Copolymer Self-AssemblyTheoretical and Computational Physics