Inertial focusing in two dimensional flows with sharp viscosity stratification in a microchannel

TL;DR

This study numerically investigates how particles migrate across stratified two-liquid flows in microchannels, revealing conditions that enable passive particle separation based on viscosity differences and flow parameters.

Contribution

It introduces a numerical analysis of particle migration in stratified viscous flows using an immersed boundary method, highlighting new conditions for particle transfer between fluids.

Findings

Particles migrate to lower viscosity fluid in Couette flow with high low-viscosity holdup.

In Poiseuille flow, particles migrate beyond a critical flowrate ratio depending on size.

Migration behavior depends on viscosity ratio, flowrate ratio, and particle size.

Abstract

Recent experimental studies have shown that particle transfer across streamlines can be controlled passively using stratified flows of co-flowing streams at a finite Reynolds number. The stratification modifies the forces acting on particles through the curvature of the undisturbed velocity profile. In this study, we numerically analyze the particle migration in stratified flow of two liquids of different viscosities flowing parallel to each other between two infinite parallel plates. Particle migration in two different flow fields is considered: (i) Couette flow and (ii) Poiseuille flow. A numerical approach using an immersed boundary method is employed to perform two dimensional simulations and determine conditions when particle migration from one fluid to the other can occur. This has implications in separating particles from a fluid without a membrane. The effect of the viscosity ratio, flowrate ratio, Reynolds number and particle size on focusing position are analyzed to identify conditions under which the particle migrates from one fluid to the other. It is shown that the particle migrates to the fluid with a lower viscosity in case of stratified Couette flow when the holdup of the low viscous fluid is sufficiently high. In Poiseuille flow, particle migrates to the less viscous fluid beyond a critical flowrate ratio for a fixed viscosity ratio. This critical flowrate ratio increases with particle size.