Open AccessPeristaltic Transport of Carreau-Yasuda Fluid in a Curved Channel with Slip Effects
Author(s) -
Tasawar Hayat,
F. M. Abbasi,
Bashir Ahmad,
Ahmed Alsaedi
Publication year - 2014
Publication title -
plos one
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.99
H-Index - 332
ISSN - 1932-6203
DOI - 10.1371/journal.pone.0095070
Subject(s) - peristalsis , mechanics , carreau fluid , reynolds number , rheology , nonlinear system , physics , boundary value problem , slip (aerodynamics) , fluid dynamics , newtonian fluid , classical mechanics , mathematics , chemistry , mathematical analysis , turbulence , thermodynamics , biochemistry , quantum mechanics
The wide occurrence of peristaltic pumping should not be surprising at all since it results physiologically from neuro-muscular properties of any tubular smooth muscle. Of special concern here is to predict the rheological effects on the peristaltic motion in a curved channel. Attention is focused to develop and simulate a nonlinear mathematical model for Carreau-Yasuda fluid. The progressive wave front of peristaltic flow is taken sinusoidal (expansion/contraction type). The governing problem is challenge since it has nonlinear differential equation and nonlinear boundary conditions even in the long wavelength and low Reynolds number regime. Numerical solutions for various flow quantities of interest are presented. Comparison for different flow situations is also made. Results of physical quantities are interpreted with particular emphasis to rheological characteristics.
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