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Control of viscous fingering through variable injection rates and time-dependent viscosity fluids: Beyond the linear regime

Írio M. Coutinho, José A. Miranda

2020Physical review. E24 citationsDOI

Abstract

During the past few years, researchers have been proposing time-dependent injection strategies for stabilizing or manipulating the development of viscous fingering instabilities in radial Hele-Shaw cells. Most of these studies investigate the displacement of Newtonian fluids and are entirely based on linear stability analyses. In this work, linear stability theory and variational calculus are used to determine closed-form expressions for the proper time-dependent injection rates Q(t) required to either minimize the interface disturbances or to control the number of emerging fingers. However, this is done by considering that the displacing fluid is non-Newtonian and has a time-varying viscosity. Moreover, a perturbative third-order mode-coupling approach is employed to examine the validity and effectiveness of the controlling protocols dictated by these Q(t) beyond the linear regime and at the onset of nonlinearities.

Topics & Concepts

Viscous fingeringViscosityNewtonian fluidMechanicsDisplacement (psychology)Coupling (piping)Stability (learning theory)Work (physics)Linear stabilityVariable (mathematics)Control theory (sociology)MathematicsPhysicsComputer scienceMathematical analysisMaterials scienceInstabilityControl (management)ThermodynamicsGeologyPorous mediumGeotechnical engineeringArtificial intelligencePorosityPsychotherapistMetallurgyMachine learningPsychologyTheoretical and Computational PhysicsCharacterization and Applications of Magnetic NanoparticlesPickering emulsions and particle stabilization
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