Progress in pipe and channel flow turbulence, 1961–2011
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Publication:2853947
DOI10.1080/14685248.2012.726358zbMath1273.76006OpenAlexW1982778924WikidataQ60153498 ScholiaQ60153498MaRDI QIDQ2853947
Publication date: 17 October 2013
Published in: Journal of Turbulence (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1080/14685248.2012.726358
History of mathematics in the 20th century (01A60) Turbulence (76Fxx) History of fluid mechanics (76-03)
Related Items
The dissipation tensor in wall turbulence ⋮ Pipe flow: a gateway to turbulence ⋮ Implicit large eddy simulation of weakly-compressible turbulent channel flow ⋮ Multiscale analysis of some shear layers in a fully developed turbulent channel flow
Cites Work
- Unnamed Item
- Effect of roughness on wall-bounded turbulence
- Subgrid scale model for finite difference simulations of turbulent flows in plane channels and annuli
- A unified approach for symmetries in plane parallel turbulent shear flows
- Physics and control of wall turbulence for drag reduction
- A direct numerical simulation study on the mean velocity characteristics in turbulent pipe flow
- Very large-scale motion in the outer layer
- Direct numerical simulation of turbulent channel flow up to Reτ=590
- A comparison of turbulent pipe, channel and boundary layer flows
- A linear process in wall-bounded turbulent shear flows
- Streamwise turbulence intensity formulation for flat-plate boundary layers
- Evaluating the law of the wall in two-dimensional fully developed turbulent channel flows
- Experimental support for Townsend’s Reynolds number similarity hypothesis on rough walls
- Scaling of near-wall turbulence in pipe flow
- Wall-bounded turbulent flows at high Reynolds numbers: Recent advances and key issues
- CICLoPE—a response to the need for high Reynolds number experiments
- Numerical investigation of turbulent channel flow
- Mean-flow scaling of turbulent pipe flow
- Mechanisms for generating coherent packets of hairpin vortices in channel flow
- Coherent structure generation in near-wall turbulence
- A theory for turbulent pipe and channel flows
- Scaling laws for fully developed turbulent shear flows. Part 1. Basic hypotheses and analysis
- Scaling laws for fully developed turbulent shear flows. Part 2. Processing of experimental data
- Turbulence statistics in fully developed channel flow at low Reynolds number
- Scaling of the energy spectra of turbulent channels
- Further observations on the mean velocity distribution in fully developed pipe flow
- Regeneration mechanisms of near-wall turbulence structures
- Small viscosity asymptotics for the inertial range of local structure and for the wall region of wall-bounded turbulent shear flow.
- A numerical study of turbulent supersonic isothermal-wall channel flow
- The autonomous cycle of near-wall turbulence
- Large-scale influences in near-wall turbulence
- Composite asymptotic expansions and scaling wall turbulence
- Asymptotic scaling in turbulent pipe flow
- Is there a universal log law for turbulent wall-bounded flows?
- Variations of von Kármán coefficient in canonical flows
- Comparison of large-scale amplitude modulation in turbulent boundary layers, pipes, and channel flows
- High–Reynolds Number Wall Turbulence
- A numerical study of three-dimensional turbulent channel flow at large Reynolds numbers
- T<scp>URBULENT</scp> F<scp>LOWS OVER</scp> R<scp>OUGH</scp> W<scp>ALLS</scp>
- Inclined cross-stream stereo particle image velocimetry measurements in turbulent boundary layers
- The minimal flow unit in near-wall turbulence
- Log laws or power laws: The scaling in the overlap region
- Scaling of the intermediate region in wall-bounded turbulence: The power law
- Response to “Scaling of the intermediate region in wall-bounded turbulence: The power law” [Phys. Fluids 10, 1043 (1998)]
