Stream spreading in multilayer microfluidic flows of suspensions

The goal of this experimental study is to quantify the spreading of parallel streams with viscosity contrast in multilayer microfluidic flows. Three streams converge into one channel where a test fluid is sheathed between two layers of a Newtonian reference fluid. The test fluids are Newtonian fluids with viscosities ranging from 1.1 to 48.2 cP and suspensions of 10-μm-diameter PMMA particles with particle volume fractions φ = 0.16−0.30. The fluid interface locations are identified through fluorescence microscopy. The steady-state width of the center stream is strongly dependent on the viscosity ratio between the adjacent fluids and exhibits a near power-law relationship. This dependence occurs for both the Newtonian fluids and the suspensions, although the slopes differ. The high-concentration suspension (φ = 0.30) diverges from Newtonian behavior, while the low-concentration suspensions (φ = 0.16, 0.22) closely approximate that of the Newtonian fluids. The observed suspension behavior can be attributed ...