A vortex–wave interaction theory describing the effect of boundary forcing on shear flows
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Publication:3385607
DOI10.1017/JFM.2021.1053OpenAlexW4200360281MaRDI QIDQ3385607
Publication date: 20 December 2021
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1017/jfm.2021.1053
instability controlcritical wavelengthinstability criterion: transpiration waveshear-flow instability
Nonlinear effects in hydrodynamic stability (76E30) Parallel shear flows in hydrodynamic stability (76E05) Flow control and optimization for incompressible viscous fluids (76D55)
Related Items (2)
Exact coherent structures in pipe flow in the presence of wall transpiration ⋮ On the near-wall instability of oblique flow over a wavy wall
Cites Work
- Three-dimensional instabilities of laminar flow in a rough channel and the concept of hydraulically smooth wall
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- Flow in a meandering channel
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- Wall-transpiration-induced instabilities in plane Couette flow
- Vortex–wave interaction arrays: a sustaining mechanism for the log layer?
- Exact coherent structures in pipe flow: travelling wave solutions
- Langmuir circulations beneath growing or decaying surface waves
- Streamwise-varying steady transpiration control in turbulent pipe flow
- An instability mechanism for channel flows in the presence of wall roughness
- The emergence of localized vortex–wave interaction states in plane Couette flow
- Lower branch equilibria in Couette flow: the emergence of canonical states for arbitrary shear flows
- Sustained sub-laminar drag in a fully developed channel flow
- On strongly nonlinear vortex/wave interactions in boundary-layer transition
- Poiseuille flow in rough pipes: linear instability induced by vortex–wave interactions
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