Open AccessExact Solution for Peristaltic Flow of Jeffrey Fluid Model in a Three Dimensional Rectangular Duct having Slip at the Walls
Author(s) -
Arshad Riaz,
S. Nadeem,
R. Ellahi,
A. Zeeshan
Publication year - 2014
Publication title -
applied bionics and biomechanics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.397
H-Index - 23
eISSN - 1754-2103
pISSN - 1176-2322
DOI - 10.1155/2014/901313
Subject(s) - mechanics , reynolds number , slip (aerodynamics) , peristalsis , pressure gradient , boundary value problem , dimensionless quantity , duct (anatomy) , exact solutions in general relativity , stream function , fluid dynamics , flow (mathematics) , physics , mathematics , classical mechanics , mathematical analysis , chemistry , thermodynamics , medicine , vortex , turbulence , vorticity , biochemistry , pathology
In the present article, we tried to develop the exact solutions for the peristaltic flow of Jeffrey fluid model in a cross section of three dimensional rectangular channel having slip at the peristaltic boundaries. Equation of motion and boundary conditions are made dimensionless by introducing some suitable nondimensional parameters. The flow is considered under the approximations of low Reynolds number and long wavelength. Exact solution of the obtained linear boundary value problem is evaluated. However, the expression for pressure rise is calculated numerically with the help of numerical integration. All pertinent parameters are discussed through graphs of pressure rise, pressure gradient, velocity and stream functions. It is found that presence of slip at the walls reduces the flow velocity but increases the peristaltic pumping characteristics.
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