Power law and log law velocity profiles in fully developed turbulent pipe flow: Equivalent relations at large Reynolds numbers
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Publication:5956694
DOI10.1007/BF01246916zbMath1009.76029OpenAlexW2046521435MaRDI QIDQ5956694
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Publication date: 27 April 2003
Published in: Acta Mechanica (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/bf01246916
developed turbulent pipe flowlog law velocity profilemean turbulent motionMillikan-Kolmogorov hypothesisopen functional equationpower law velocity profile
Related Items (4)
Turbulent energy production peak and its location from inner most log law or power law velocity in a turbulent channel/pipe and Couette flows ⋮ Friction factor power law with equivalent log law, of a turbulent fully developed flow, in a fully smooth pipe ⋮ Analysis of power law and log law velocity profiles in the overlap region of a turbulent wall jet ⋮ Wall friction relations in wall-bounded shear flows
Cites Work
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- Scaling laws for turbulent wall-bounded shear flows at very large Reynolds numbers
- Scaling laws for fully developed turbulent flow in pipes: Discussion of experimental data
- Mean-flow scaling of turbulent pipe flow
- Scaling laws for fully developed turbulent shear flows. Part 1. Basic hypotheses and analysis
- Log laws or power laws: The scaling in the overlap region
- Power law and log law velocity profiles in turbulent boundary-layer flow: Equivalent relations at large Reynolds numbers
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