Observed and predicted particle dynamics driven by inertial flows within high aspect ratio microfluidic channels

Inertial focusing in microfluidic channels has been shown to be an effective and versatile method of passively arranging particles into specific streamlines and regulating interparticle spacing. As a result of the high precision and fidelity of particle ordering, there has been significant interest...

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Published inMicrofluidics and nanofluidics Vol. 20; no. 1; p. 1
Main Authors McConnell, Josh, Oakey, John
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 01.01.2016
Springer Nature B.V
Subjects
Analytical Chemistry
Biomedical Engineering and Bioengineering
Engineering
Engineering Fluid Dynamics
Flow rates
Nanotechnology and Microengineering
Research Paper
Microfluidic Device
Particle Trajectory
Inertial Flow
Aspect Ratio
Small Aspect Ratio
Online AccessGet full text
ISSN1613-4982
1613-4990
DOI10.1007/s10404-015-1674-1

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Abstract Inertial focusing in microfluidic channels has been shown to be an effective and versatile method of passively arranging particles into specific streamlines and regulating interparticle spacing. As a result of the high precision and fidelity of particle ordering, there has been significant interest in using microfluidic devices for applications in cell encapsulation, particle–fluid separation, size-selective cell sorting, and flow cytometry. When predicting application-specific design parameters, such as channel dimensions and flow rates, it is necessary to rely upon relations connecting the inertial forces acting upon particles with geometric dimensions. In this study, we develop an empirical technique to measure transverse-flow particle velocities and provide a semiempirical model describing the lateral forces experienced by a particle subject to non-turbulent, finite Reynolds number flow in a rectangular channel.
AbstractList Inertial focusing in microfluidic channels has been shown to be an effective and versatile method of passively arranging particles into specific streamlines and regulating interparticle spacing. As a result of the high precision and fidelity of particle ordering, there has been significant interest in using microfluidic devices for applications in cell encapsulation, particle-fluid separation, size-selective cell sorting, and flow cytometry. When predicting application-specific design parameters, such as channel dimensions and flow rates, it is necessary to rely upon relations connecting the inertial forces acting upon particles with geometric dimensions. In this study, we develop an empirical technique to measure transverse-flow particle velocities and provide a semiempirical model describing the lateral forces experienced by a particle subject to non-turbulent, finite Reynolds number flow in a rectangular channel.
ArticleNumber 22
Author Oakey, John
McConnell, Josh
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  email: joakey@uwyo.edu
  organization: Department of Chemical Engineering, University of Wyoming
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CitedBy_id crossref_primary_10_1016_j_optlastec_2020_106067
crossref_primary_10_1002_adhm_202304386
crossref_primary_10_1063_1_4946829
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Keywords Microfluidic Device
Particle Trajectory
Inertial Flow
Aspect Ratio
Small Aspect Ratio
Language English
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Snippet Inertial focusing in microfluidic channels has been shown to be an effective and versatile method of passively arranging particles into specific streamlines...
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SubjectTerms Analytical Chemistry
Biomedical Engineering and Bioengineering
Engineering
Engineering Fluid Dynamics
Flow rates
Nanotechnology and Microengineering
Research Paper
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Title Observed and predicted particle dynamics driven by inertial flows within high aspect ratio microfluidic channels
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