Logarithmic Boundary Layers in Strong Taylor-Couette Turbulence

ORAL

Abstract

We provide direct measurements of boundary layer profiles in highly turbulent Taylor-Couette flow up to $Re = 2 \times 10^6$ using high-resolution particle image velocimetry and particle tracking velocimetry, complemented by DNS data on the same system up to $Re = 10^5$. We find that the mean azimuthal velocity profile at the inner and outer cylinder can be fitted by the von K\'arm\'an log law, but with corrections due to the curvature of the cylinder, which we theoretically account for, based on the Navier-Stokes equation and a closure assumption for the turbulent diffusivity. In particular, we study how these corrections depend on the cylinder radius ratio and show that they are different for the boundary layers at the inner and at the outer cylinder.

Authors

  • Detlef Lohse

    • University of Twente
    • Physics of Fluids, University of Twente
    • U. Twente, Netherlands
    • Physics of Fluids, University of Twente, The Netherlands
    • University of Twente, Physics of Fluids

  • Sander Huisman

    • University of Twente

  • Rodolfo Ostilla

    • Univ of Twente

  • Sven Scharnowski

    • Univ. Bundeswehr Muenchen

  • Christian Cierpka

    • Univ. Bundeswehr Muenchen

  • Christian J. Kaehler

    • Univ. Bundeswehr Muenchen
    • Bundeswehr University Munich
    • Institute for Fluid Mechanics and Aerodynamics, Bundeswehr University Munich

  • Roberto Verzicco

    • Univ of Rome Tor Vergata
    • Universita di Roma ``Tor Vergata''
    • University of Rome, Tor Vergata
    • Universit\`a di Roma Tor Vergata, Dipartimento di Ingegneria Industriale

  • Chao Sun

    • Univ of Twente
    • University of Twente
    • Physics of Fluids, University of Twente

  • Siegfried Grossmann

    • Univ of Marburg