Flow and heat transfer over a shrinking sheet in a nanofluid with suction at the boundary

Zaimi, Khairy; Ishak, Anuar Mohd

doi:10.1063/1.4858778

Cited by 2 publications

(1 citation statement)

References 14 publications

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“…Bachok et al [2] employed a numerical, Keller-Box technique for steady Nano fluid flow over a porous rotating disk. Khairy Zaimi et al [3] inspected the Flow and Heat Transfer over a Shrinking Sheet in a Nano fluid with Suction at the Boundary. Prasad et al [4] working a fourth order Runge-Kutta integration system to explore the consequence of variable fluid viscosity, magnetic parameter, Prandtl number, variable thermal conductivity, thermal radiation parameter and heat source/sink parameter, on MHD fluid flow over a stretching sheet.…”

Section: Introductionmentioning

confidence: 99%

Numerical Analysis of Three-Dimensional Squeezing Nanofluid Flow in a Rotating Channel on a Lower Stretching Porous Wall

Anuradha¹

2017

IJRASET

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Unsteady 3D rotating Nano fluid flow of an Incompressible electronically conducting viscous fluid between two infinite horizontal plane walls investigated Numerically, The governing Navier stokes equations are converted into ordinary differential equations by using similarity transformation. Runge kutta method sixth order by using mathematical software is used to solve the complete system of nonlinear ODE. The non dimensional parameters characteristic parameter of the flow, rotation parameter, the magnetic parameter, nano particle volume fraction, the suction parameter analyzed numerically and graphically with comparison of analytical result. I.INTRODUCTION Nano fluid is a liquid covering nanometer-sized elements (having diameter less than 100nm), named nanoparticles. The nanoparticles are classically made up of metals, oxides and carbides or carbon nanotubes. Owing to the vast number of submissions in chemical as well as motorized engineering procedures such as the production of thin plastic sheets, insulating materials, paper fabrication, and other various procedures, this paper pays specific care to the study of rotating flow over stretching surfaces [1]. Bachok et al. working a fourth order Runge-Kutta integration system to explore the consequence of variable fluid viscosity, magnetic parameter, Prandtl number, variable thermal conductivity, thermal radiation parameter and heat source/sink parameter, on MHD fluid flow over a stretching sheet. Three-dimensional flow in a channel with a stretching wall was investigated by Borkakoti and Bharali [5]. Domairry and Aziz [6] found an analytic solution for unsteady MHD squeezing flow with suction and injection properties by the use of homotopy perturbation technique. El-Mistikawy and Attia [7] was investigated the influence of an external uniform magnetic field on the flow due to a rotating disk. Syahira Mansur and AnuarIshak [8] studying the heat transfer characteristic of an unsteady boundary layer flow of a nanofluid over a stretching sheet. Mehmood and Ali [9] analyzed a three-dimensional flow in a channel bounded through the lower stretching plate and upper permeable plate and experimental that the viscous drag at lower wall rises due to the incidence of injection at the higher plate. To the best of authors' knowledge, Choi and Eastman [10] stood probably the first investigators who employed a mixture of nanoparticles and base fluid and called this mixture a "Nano fluid." A varied choice of evaluation documents have been issued on Nano fluids in recent years. NavidFreidoonimehr [11] derives a coupled system of nonlinear ordinary differential equations to model the three-dimensional flow rotating channel of a nanofluid on a lower permeable stretching wall. The three-dimensional problem of steady fluid deposition on an inclined rotating disk is studied by Sheikholeslami et al. [12] and M. Sheikholeslami [13] at al study is to apply HPM to find approximate solutions of nonlinear differential equations governing the problem of heat transfer in the unstead...

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Section: Introductionmentioning

confidence: 99%

Numerical Analysis of Three-Dimensional Squeezing Nanofluid Flow in a Rotating Channel on a Lower Stretching Porous Wall

Anuradha¹

2017

IJRASET

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Analysis of heat transfer and thin film flow of Au−Np over an unsteady radial stretching sheet

Hayat

Shahzad

2023

Numerical Heat Transfer, Part A: Applications

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Flow and heat transfer over a shrinking sheet in a nanofluid with suction at the boundary

Cited by 2 publications

References 14 publications

Numerical Analysis of Three-Dimensional Squeezing Nanofluid Flow in a Rotating Channel on a Lower Stretching Porous Wall

Numerical Analysis of Three-Dimensional Squeezing Nanofluid Flow in a Rotating Channel on a Lower Stretching Porous Wall

Analysis of heat transfer and thin film flow of Au−Np over an unsteady radial stretching sheet

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