Analysis of Unsteady Squeezing Fluid Flow through Porous Medium Channel with Slip and No-Slip Boundaries Using DTM
IOSR Jour nal of Mathematics (IOSR-JM) • 2017
Publication Information
Authors
A.A. Hemada¹, F.A. Abd Elslam², F.E. Abd Elbary
Keywords
Nonlinear ordinary differential equation, Porous medium channel, Squeezing fluid flow, The
differential transformation method
Journal
IOSR Jour nal of Mathematics (IOSR-JM)
Publisher
Not Available
Volume
Volume 13, Issue 5 Ver. I1
Issue
Volume 13, Issue 5 Ver. I1
Pages
94-100
publication.type
International
Paper Link
Open Link
Supplementary Materials
Not Available
Abstract
Abstract:The aim of this paper is to analyze an unsteady axisymmetric flow of no conducting, Newtonian fluid
squeezed flow between two circular plates passing through the porous medium channel with slip and no-slip
boundary conditions. We have obtained a single fourth order nonlinear ordinary differential equation using
similarity transformation. This differential equation can solve by using the differential transformation method
(DTM) and evaluate the residual errors for approximate solutions for various M(constant containing
permeability).
squeezed flow between two circular plates passing through the porous medium channel with slip and no-slip
boundary conditions. We have obtained a single fourth order nonlinear ordinary differential equation using
similarity transformation. This differential equation can solve by using the differential transformation method
(DTM) and evaluate the residual errors for approximate solutions for various M(constant containing
permeability).
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