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Effects of Double Diffusive Convection and Inclined Magnetic Field on the Peristaltic Flow of Fourth Grade Nanofluids in a Non-Uniform Channel

Yasir Khan, Safia Akram, Alia Razia, Anwar Hussain, H. A. Alsulaimani

2022Nanomaterials40 citationsDOIOpen Access PDF

Abstract

This study explored the impact of double diffusive convection and inclined magnetic field in nanofluids on the peristaltic pumping of fourth grade fluid in non-uniform channels. Firstly, a brief mathematical model of fourth grade fluid along inclined magnetic fields and thermal and concentration convection in nanofluids was developed. A lubrication approach was used to simplify the highly non-linear partial differential equations. An analytical technique was then used to solve the highly non-linear differential equations. The exact solutions for the temperature, nanoparticle volume fraction and concentration were calculated. Numerical and graphical outcomes were also examined to see the effects of the different physical parameters of the flow quantities. It was noted that as the impact of Brownian motion increased, the density of the nanoparticles also increased, which led to an increase in the nanoparticle fraction. Additionally, it could be observed that as the effects of thermophoresis increased, the fluid viscosity decreased, which lowered the fraction of nanoparticles that was made up of less dense particles.

Topics & Concepts

NanofluidThermophoresisMechanicsCombined forced and natural convectionBrownian motionMaterials scienceHartmann numberViscosityFerrofluidMagnetic fieldDouble diffusive convectionVolume fractionConvectionFlow (mathematics)Heat transferPhysicsNatural convectionReynolds numberNusselt numberRayleigh numberComposite materialTurbulenceQuantum mechanicsNanofluid Flow and Heat TransferHeat Transfer and OptimizationFluid Dynamics and Turbulent Flows
Effects of Double Diffusive Convection and Inclined Magnetic Field on the Peristaltic Flow of Fourth Grade Nanofluids in a Non-Uniform Channel | Litcius