Taylor-vortex flow in shear-thinning fluids

S. Topayev, C. Nouar, D. Bernardin, A. Neveu, and S. A. Bahrani
Phys. Rev. E 100, 023117 – Published 28 August 2019

Abstract

This paper deals with the Taylor-Couette flow of shear-thinning fluids. It focuses on the first principles understanding of the influence of the viscosity stratification and the nonlinear variation of the effective viscosity μ with the shear rate γ̇ on the flow structure in the Taylor-vortex flow regime. A wide gap configuration (η=0.4) is mainly considered. A weakly nonlinear analysis, using the amplitude expansion method at high order, is adopted as a first approach to study nonlinear effects. For the numerical computation, the shear-thinning behavior is described by the Carreau model. The rheological parameters are varied in a wide range. The results indicate that the flow field undergoes a significant change as shear-thinning effects increase. First, vortices are squeezed against the inner wall and the center of the patterns is shifted axially toward the radial outflow boundaries (z=0,z/λz=1). This axial shift leads to increasing concentration of vorticity at these positions. The outflow becomes stronger than the inflow and the extent of the inflow zone where the vorticity is low increases acoordingly. Nevertheless, the strength of the vortices relative to the velocity of the inner cylinder is weaker. Second, the pseudo-Nusselt number, ratio of the torque to that obtained in the laminar flow, decreases. Third, higher harmonics become more relevant and grow faster with Reynolds number. Finally, the modification of the viscosity field is described.

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  • Received 25 January 2019
  • Revised 7 July 2019

DOI:https://doi.org/10.1103/PhysRevE.100.023117

©2019 American Physical Society

Physics Subject Headings (PhySH)

Fluid Dynamics

Authors & Affiliations

S. Topayev, C. Nouar*, D. Bernardin, A. Neveu, and S. A. Bahrani

  • Université de Lorraine, LEMTA, UMR 7563, Vandœuvre-lès-Nancy F-54500, France and CNRS, LEMTA, UMR 7563, Vandœuvre-lès-Nancy F-54500, France

  • *Corresponding author: cherif.nouar@univ-lorraine.fr

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Issue

Vol. 100, Iss. 2 — August 2019

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