Impact of a forward-facing step on the development of crossflow instability
DOI10.1017/JFM.2021.497zbMath1480.76059OpenAlexW3195490516MaRDI QIDQ5152431
Marios Kotsonis, Alberto F. Rius-Vidales
Publication date: 24 September 2021
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1017/jfm.2021.497
boundary layer stabilityexperimental validationtransition to turbulenceboundary layer controlswept wing model
Experimental work for problems pertaining to fluid mechanics (76-05) Turbulent boundary layers (76F40) Parallel shear flows in hydrodynamic stability (76E05) Control of turbulent flows (76F70) Transition to turbulence (76F06)
Related Items (1)
Cites Work
- The lift-up effect: the linear mechanism behind transition and turbulence in shear flows
- Free-stream turbulence and the development of cross-flow disturbances
- Investigation of suction for laminar flow control of three-dimensional boundary layers
- Passive control of transition in three-dimensional boundary layers, with emphasis on discrete roughness elements
- Mechanisms for spatial steady three-dimensional disturbance growth in a non-parallel and separating boundary layer
- Secondary instability of crossflow vortices: validation of the stability theory by direct numerical simulation
- A note on an algebraic instability of inviscid parallel shear flows
- Transition mechanisms induced by travelling crossflow vortices in a three-dimensional boundary layer
- S<scp>TABILITY AND</scp> T<scp>RANSITION OF</scp> T<scp>HREE</scp>-D<scp>IMENSIONAL</scp> B<scp>OUNDARY</scp> L<scp>AYERS</scp>
- Simulation of swept-wing vortices using nonlinear parabolized stability equations
- Mechanisms and passive control of crossflow-vortex-induced transition in a three-dimensional boundary layer
- Experimental control of swept-wing transition through base-flow modification by plasma actuators
- Secondary instability of crossflow vortices
- Secondary instability of crossflow vortices and swept-wing boundary-layer transition
- Mechanisms of stationary cross-flow instability growth and breakdown induced by forward-facing steps
- Conditioning of cross-flow instability modes using dielectric barrier discharge plasma actuators
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