Taylor dispersion of colloidal particles in narrow channels

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Taylor dispersion of colloidal particles in narrow channels

Journal Article (2015)

Author(s)

Jimaan Sané (University of Cambridge, University of Oxford)

J.T. Padding (Eindhoven University of Technology)

Ard A. Louis (University of Oxford)

Affiliation

External organisation

DOI related publication

https://doi.org/10.1080/00268976.2015.1035768

Diffusion Convection Taylor dispersion Confinement effects Colloidal particles

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Publication Year

2015

Language

English

Affiliation

External organisation

Issue number

17-18

Volume number

113

Pages (from-to)

2538-2545

Abstract

We use a mesoscopic particle-based simulation technique to study the classic convection-diffusion problem of Taylor dispersion for colloidal discs in confined flow. When the disc diameter becomes non-negligible compared to the diameter of the pipe, there are important corrections to the original Taylor picture. For example, the colloids can flow more rapidly than the underlying fluid, and their Taylor dispersion coefficient is decreased. For narrow pipes, there are also further hydrodynamic wall effects. The long-time tails in the velocity autocorrelation functions are altered by the Poiseuille flow.

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