Impact of Variable Viscosity, Chemical Reaction and Electro-Osmotic Mechanism on the Dispersal of solute through a Uniform Channel with Permeable walls

This study addresses the dispersion nature of a solute in the Jeffrey fluid flow along with the combination of electric field, variable viscosity and velocity slip condition in the channel with permeable walls. The present investigation carried out by applying Taylor’s dispersion principle in both t...

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Bibliographic Details
Published in:International journal of applied and computational mathematics 2022-04, Vol.8 (2), Article 55
Main Authors: Ponalagusamy, R., Murugan, D.
Format: Article
Language:English
Subjects:
Applications of Mathematics
Applied mathematics
Chemical reactions
Computational mathematics
Computational Science and Engineering
Dispersion
Electric fields
Fluid dynamics
Fluid flow
Mathematical and Computational Physics
Mathematical Modeling and Industrial Mathematics
Mathematics
Mathematics and Statistics
Nuclear Energy
Operations Research/Decision Theory
Original Paper
Parameters
Permeability
Slip
Theoretical
Viscosity
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Summary:This study addresses the dispersion nature of a solute in the Jeffrey fluid flow along with the combination of electric field, variable viscosity and velocity slip condition in the channel with permeable walls. The present investigation carried out by applying Taylor’s dispersion principle in both the joined homogeneous and heterogeneous as well as homogeneous chemical reactions. The effects of electric field, variable viscosity, Darcy parameter, velocity slip condition and chemical reactions have been analysed in the dispersion mechanism. The present research highlights two major finding firstly, the equivalent dispersion coefficient increasing gradually owing to the increasing electro kinetic width parameter of the electric field. Secondly increasing variable viscosity parameter leads to enhance the dispersion process. The present analysis facilitates useful information to the diagnostics equipment’s improvement in the medical fields.
ISSN:2349-5103
2199-5796
DOI:10.1007/s40819-022-01259-8