Instability of three dimensional electrically conducting fluid of magnetohydrodynamics Couette flow

Hussain, Zakir; Elazab, Ahmed; Hussain, Sultan; Zhang, Huisheng

doi:10.1063/1.5096455

Cited by 4 publications

(1 citation statement)

References 25 publications

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“…Many research papers have been published on the instability of MHD flow in recent years. Z. Hussain * mehboob_maths@hu.edu.pk [2] worked on the instability of 3D electrical conducting of MHD Couette flow. It is concluded from his research that there is stabilizing effect on Hartmann flow due to the magnetic field with exact magnitude.…”

Section: Introductionmentioning

confidence: 99%

Instability of Hydromagnetic Hybrid Flow Fe2O3-Fe3O4 /H2O of Thermocapillary Layers of Shear-Thinning Nanofluids

Ali

2020

Preprint

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Nanofluids have inordinate uses in industries due to their high rate of heat transformation. The enhancement of heat transfer rates, an advanced type of nanofluids called “Hybrid nanofluid” is discovered. Hybrid nanofluids are created by the suspension of two or more type of nano sized atoms in base fluid such as water, oil etc. In current work, the instability of Hydromagnetic Poiseuille flow of thermocapillary layers of liquid of shear thinning hybrid nanofluid of Fe2O3-Fe3O4 in water based fluid is investigated. The transverse magnetic field is imposed on the flow. The solution of obtained ODEs for current problem is found using a numerical method called “cheybeshev collocation method”. The eigenvalue problem from generalized Orr-sommerfeld equations is solved using the algorithm of “QZ” abbreviated as (Qualitat and Zuverlassigkeit). The instability of water based hybrid nanofluids for variation of different parameters are analyzed and discussed through graphs. It has been found that Reynolds number and prandtl number has destabilizing effect on the flow while wave number and magnetic parameter has stabilizing impact on the fluid flow

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Section: Introductionmentioning

confidence: 99%

Instability of Hydromagnetic Hybrid Flow Fe2O3-Fe3O4 /H2O of Thermocapillary Layers of Shear-Thinning Nanofluids

Ali

2020

Preprint

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Chebyshev collocation simulations for instability of Hartmann flow due to porous medium: A neutral stability and growth rate assessment

Hussain

Khan

et al. 2023

Ain Shams Engineering Journal

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Instability of hydromagnetic Couette flow for hybrid nanofluid through porous media with small suction and injection effects

Kapen

Ketchate

Tchuen

2021

HFF

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Purpose This paper aims to investigate a linear and temporal stability analysis of hybrid nanofluid flow between two parallel plates filled with a porous medium and whose lower plate is fixed and the upper plate animated by a uniform rectilinear motion. Design/methodology/approach The nanofluid is composed of water as a regular fluid, silver (Ag) and alumina (Al2O3) as nanoparticles. The mathematical model takes into account other effects such as the magnetic field and the aspiration (injection/suction). Under the assumption of a low magnetic Reynolds number, a modified Orr–Sommerfeld-type eigenvalue differential equation governing flow stability was derived and solved numerically by Chebyshev’s spectral collocation method. The effects of parameters such as volume fraction, Darcy number, injection/suction Reynolds number, Hartmann number were analyzed. Findings It was found the following: the Darcy number affects the stability of the flow, the injection/suction Reynolds number has a negligible effect, the volume fraction damped disturbances and the magnetic field plays a very important role in enlarging the area of flow stability. Originality/value The originality of this work resides in the linear and temporal stability analysis of hydromagnetic Couette flow for hybrid nanofluid through porous media with small suction and injection effects.

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Instability of three dimensional electrically conducting fluid of magnetohydrodynamics Couette flow

Cited by 4 publications

References 25 publications

Instability of Hydromagnetic Hybrid Flow Fe2O3-Fe3O4 /H2O of Thermocapillary Layers of Shear-Thinning Nanofluids

Instability of Hydromagnetic Hybrid Flow Fe2O3-Fe3O4 /H2O of Thermocapillary Layers of Shear-Thinning Nanofluids

Chebyshev collocation simulations for instability of Hartmann flow due to porous medium: A neutral stability and growth rate assessment

Instability of hydromagnetic Couette flow for hybrid nanofluid through porous media with small suction and injection effects

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