Axially varying sand grain roughness in turbulent Taylor-Couette flow
ORAL
Abstract
We investigate the effect of axially alternating rough and smooth surfaces in a Taylor-Couette apparatus with Reynolds numbers up to 2×106. We employ realistic roughness by applying industrial, waterproof sandpaper (grit P36 with a measured standard deviation of the roughness height krms = 170 μm) on the inner cylinder of the Twente Turbulent Taylor-Couette facility. We vary s/d from 0.42 to 5.05 where d is the gap width of the Taylor-Couette and s the axial length scale of the rough and smooth patches. By varying s/d we can tune the size of the Taylor rolls and thereby the overall drag (Cf or, equivalently, Nuω) the inner cylinder experiences. We will discuss how the drag as a function of the driving speed depends on s/d and we will connect these results to our local PIV measurements.
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Presenters
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Sander Huisman
University of Twente, Twente Tech Univ
Authors
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Dennis Bakhuis
Univ of Twente, University of Twente
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Pim Adriaan Bullee
University of Twente, Twente Tech Univ
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Rodrigo Ezeta Aparicio
Univ of Twente, University of Twente, Twente Tech Univ
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Dominic Tai
University of Twente
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Sander Huisman
University of Twente, Twente Tech Univ
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Detlef Lohse
University of Twente, Physics of Fluids and Max Planck Center for Complex Fluids Dynamics, University of Twente, Enschede, The Netherlands, Univ of Twente, Univ of Twente, Max Plank Institute for Dynamics and Self-Organization, Twente Tech Univ, University of Twente, Max Planck Center for complex fluid dynamics
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Chao Sun
Physics of Fluids and Max Planck Center for Complex Fluids Dynamics, University of Twente, Enschede, The Netherlands, Center for Combustion Energy and Department of Thermal E, Tsinghua Univ, Tsinghua Univ, Univ of Twente, Tsinghua University