Numerical Simulation and Mathematical Modeling of Electro-Osmotic Couette–Poiseuille Flow of MHD Power-Law Nanofluid with Entropy Generation

Rahmat Ellahi; Sadiq M. Sait; Nasir Shehzad; N. Mobin

doi:https://doi.org/10.3390/sym11081038

doi.org/10.3390/sym11081038

Numerical Simulation and Mathematical Modeling of Electro-Osmotic Couette–Poiseuille Flow of MHD Power-Law Nanofluid with Entropy Generation

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..., N. Mobin

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Symmetry

Volume: 11, Issue: 8, Pages: 1038 - 1038

Published: Aug 12, 2019

Abstract

The basic motivation of this investigation is to develop an innovative mathematical model for electro-osmotic flow of Couette–Poiseuille nanofluids. The power-law model is treated as the base fluid suspended with nano-sized particles of aluminum oxide (Al2O3). The uniform speed of the upper wall in the axial path generates flow, whereas the lower wall is kept fixed. An analytic solution for nonlinear flow dynamics is obtained. The ramifications...

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Paper Details

Title

Numerical Simulation and Mathematical Modeling of Electro-Osmotic Couette–Poiseuille Flow of MHD Power-Law Nanofluid with Entropy Generation

DOI

doi.org/10.3390/sym11081038

Published Date

Aug 12, 2019

Journal

Symmetry

Volume

11

Issue

8

Pages

1038 - 1038

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