Two-phase flow in microfluidic-chip design of hydrodynamic filtration for cell particle sorting

Authors
Yoon, KyuJung, Hyun WookChun, Myung-Suk
Issue Date
2020-06
Publisher
WILEY
Citation
ELECTROPHORESIS, v.41, no.10-11, pp.1002 - 1010
Abstract
As one of the flow-based passive sorting, the hydrodynamic filtration using a microfluidic-chip has shown to effectively separate into different sizes of subpopulations from cell or particle suspensions. Its model framework involving two-phase Newtonian or generalized Newtonian fluid (GNF) was developed, by performing the complete analysis of laminar flow and complicated networks of main and multiple branch channels. To predict rigorously what occurs in flow fields, we estimated pressure drop, velocity profile, and the ratio of the flow fraction at each branch point, in which the analytical model was validated with numerical flow simulations. As a model fluid of the GNF, polysaccharide solution based on Carreau type was examined. The objective parameters aiming practical channel design include the number of the branches and the length of narrow section of each branch for arbitrary conditions. The flow fraction and the number of branches are distinctly affected by the viscosity ratio between feed and side flows. As the side flow becomes more viscous, the flow fraction increases but the number of branches decreases, which enables a compact chip designed with fewer branches being operated under the same throughput. Hence, our rational design analysis indicates the significance of constitutive properties of each stream.
Keywords
NON-NEWTONIAN FLUIDS; INERTIAL MIGRATION; SEPARATION; MODEL; NON-NEWTONIAN FLUIDS; INERTIAL MIGRATION; SEPARATION; MODEL; Cell sorting; Channel design; Hydrodynamic filtration; Microfluidic-chip; Two-phase flow
ISSN
0173-0835
URI
https://pubs.kist.re.kr/handle/201004/118586
DOI
10.1002/elps.201900394
Appears in Collections:
KIST Article > 2020
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