Applicability of Taylor’s hypothesis in rough- and smooth-wall boundary layers
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Publication:5364436
DOI10.1017/jfm.2016.832zbMath1383.76247OpenAlexW2566304963MaRDI QIDQ5364436
Nicholas Hutchins, Joseph Klewicki, D. T. Squire, Caleb Morrill-Winter, Michael P. Schultz, Ivan Marusic
Publication date: 28 September 2017
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Full work available at URL: https://semanticscholar.org/paper/5fb8780d5b6e90feb6c8da6f8cff500c1b22070c
Related Items (13)
The spatial structure of the logarithmic region in very-high-Reynolds-number rough wall turbulent boundary layers ⋮ Self-similar geometries within the inertial subrange of scales in boundary layer turbulence ⋮ Revisiting rough-wall turbulent boundary layers over sand-grain roughness ⋮ Experimental study of a turbulent boundary layer with a rough-to-smooth change in surface conditions at high Reynolds numbers ⋮ An input–output based analysis of convective velocity in turbulent channels ⋮ Scale-to-scale anisotropy in homogeneous turbulence ⋮ Reynolds number effect on the response of a rough wall turbulent boundary layer to local wall suction ⋮ Implication of Taylor’s hypothesis on measuring flow modulation ⋮ Recovery of wall-shear stress to equilibrium flow conditions after a rough-to-smooth step change in turbulent boundary layers ⋮ Comprehensive shear stress analysis of turbulent boundary layer profiles ⋮ Prograde vortices, internal shear layers and the Taylor microscale in high-Reynolds-number turbulent boundary layers ⋮ On the applicability of Taylor's hypothesis, including small sampling velocities ⋮ Modelling the downstream development of a turbulent boundary layer following a step change of roughness
Cites Work
- Unnamed Item
- Frequency–wavenumber mapping in turbulent shear flows
- Turbulence spectra in smooth- and rough-wall pipe flow at extreme Reynolds numbers
- Mean force structure and its scaling in rough-wall turbulent boundary layers
- Turbulence structure in boundary layers over periodic two- and three-dimensional roughness
- Comparison of turbulent boundary layers over smooth and rough surfaces up to high Reynolds numbers
- Spatial structure of a turbulent boundary layer with irregular surface roughness
- A critical-layer framework for turbulent pipe flow
- Large-eddy simulation of large-scale structures in long channel flow
- Evidence of very long meandering features in the logarithmic region of turbulent boundary layers
- The rough-wall turbulent boundary layer from the hydraulically smooth to the fully rough regime
- Further support for Townsend’s Reynolds number similarity hypothesis in high Reynolds number rough-wall pipe flow
- Turbulent channel flow: comparison of streamwise velocity data from experiments and direct numerical simulation
- Hot-wire spatial resolution issues in wall-bounded turbulence
- Estimation of turbulent convection velocities and corrections to Taylor's approximation
- On the limitations of Taylor's hypothesis in constructing long structures in a turbulent boundary layer
- A theoretical and experimental study of wall turbulence
- On the displacement height in the logarithmic velocity profile
- Simulation of spatially evolving turbulence and the applicability of Taylor’s hypothesis in compressible flow
- Vortex organization in the outer region of the turbulent boundary layer
- Effects of spanwise spacing on large-scale secondary flows in rough-wall turbulent boundary layers
- Amplitude modulation of all three velocity components in turbulent boundary layers
- Turbulent flow in smooth and rough pipes
- Some predictions of the attached eddy model for a high Reynolds number boundary layer
- Turbulence structure in rough- and smooth-wall boundary layers
- Interpretation of Time Spectra Measured in High-Intensity Shear Flows
- On Taylor’s hypothesis and the acceleration terms in the Navier-Stokes equation
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