Results in Physics (Jan 2016)

Peristalsis of nonconstant viscosity Jeffrey fluid with nanoparticles

  • N. Alvi,
  • T. Latif,
  • Q. Hussain,
  • S. Asghar

Journal volume & issue
Vol. 6
pp. 1109 – 1125

Abstract

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Mixed convective peristaltic activity of variable viscosity nanofluids is addressed. Unlike the conventional consideration of constant viscosity; the viscosity is taken as temperature dependent. Constitutive relations for linear viscoelastic Jeffrey fluid are employed and uniform magnetic field is applied in the transverse direction. For nanofluids, the formulation is completed in presence of Brownian motion, thermophoresis, viscous dissipation and Joule heating. Consideration of temperature dependence of viscosity is not a choice but the realistic requirement of the wall temperature and the heat generated due to the viscous dissipation. Well established large wavelength and small Reynolds number approximations are invoked. Non-linear coupled system is analytically solved for the convergent series solutions identifying the interval of convergence explicitly. A comparative study between analytical and numerical solution is made for certainty. Influence of the parameters undertaken for the description of the problem is pointed out and its physics explained. Keywords: Nanoparticles, Non-Newtonian fluid, Variable viscosity, Viscous dissipation, Mixed convection, Heat transfer, Peristalsis