Drag and Lift Forces Acting on a Sphere in Shear Flow of Power-Law Fluid


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Abstract

Laminar flow of a power-law fluid over a sphere is considered for unbounded shear flow. The Navier–Stokes equations with power-law viscosity are solved numerically using an in-house developed CFD package. Vorticities structures downstream of particle are suppressed for powerlaw fluid. The shear rate influence on drag force is negligible for power index close to unit, and the drag force appreciably decreases with falling power index. For small Reynolds numbers, the lift force coefficient monotonically decreases against the power index and exhibits an opposite behavior for moderate values of Reynolds numbers. The results of the parametric studies are used to derive correlations for the drag force and to detect the hydrodynamic differences from uniform flow. The investigation parameters varied within the following ranges: power-law index 0.3 ≤ n ≤ 1, Reynolds number 0 < Re ≤ 150, and dimensionless shear rate 0.05 ≤ s ≤ 0.4.

About the authors

A. A. Gavrilov

Institute of Thermophysics, Siberian Branch

Email: yaroslav.ignatenko@gmail.com
Russian Federation, 50/44 Akademgorodok, ICM SB RAS, Krasnoyarsk, 660036

K. A. Finnikov

Institute of Thermophysics, Siberian Branch

Email: yaroslav.ignatenko@gmail.com
Russian Federation, 50/44 Akademgorodok, ICM SB RAS, Krasnoyarsk, 660036

Ya. S. Ignatenko

Baker Hughes Inc.

Author for correspondence.
Email: yaroslav.ignatenko@gmail.com
Russian Federation, ul. Kutateladze 4a, Novosibirsk, 630090

O. B. Bocharov

Baker Hughes Inc.

Email: yaroslav.ignatenko@gmail.com
Russian Federation, ul. Kutateladze 4a, Novosibirsk, 630090

R. May

Baker Hughes, a GE company

Email: yaroslav.ignatenko@gmail.com
Germany, Baker-Hughes-Straβe 1, Celle, 29221

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