Receptivity mechanisms in three-dimensional boundary-layer flows
From MaRDI portal
Publication:3616185
DOI10.1017/S0022112008004345zbMath1156.76378OpenAlexW2144330378MaRDI QIDQ3616185
Lars-Uve Schrader, Luca Brandt, Dan S. Henningson
Publication date: 24 March 2009
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1017/s0022112008004345
Boundary-layer theory, separation and reattachment, higher-order effects (76D10) Spectral methods applied to problems in fluid mechanics (76M22)
Related Items
Receptivity, instability and breakdown of Görtler flow ⋮ Swept-wing boundary-layer receptivity ⋮ Spatial optimal growth in three-dimensional compressible boundary layers ⋮ Absolute stability mechanism of a swept cylinder laminar boundary layer with imposed spanwise periodic conditions ⋮ Effects of distributed roughness on crossflow instability through generalized resonance mechanisms ⋮ Cross-flow vortices and their secondary instabilities in hypersonic and high-enthalpy boundary layers ⋮ Transient growth in the near wake region of the flow past a finite span wing ⋮ An adjoint approach for computing the receptivity of the rotating disc boundary layer to surface roughness ⋮ Effect of Leading-Edge Curvature on Receptivity of Stationary Cross-Flow Modes in Swept-Plate Boundary Layers ⋮ Stabilization of a swept-wing boundary layer by distributed roughness elements ⋮ Spatial optimal growth in three-dimensional boundary layers ⋮ Transition to turbulence in the boundary layer over a smooth and rough swept plate exposed to free-stream turbulence ⋮ Receptivity of the boundary layer to vibrations of the wing surface ⋮ Receptivity to free-stream vorticity of flow past a flat plate with elliptic leading edge ⋮ Modal and non-modal stability of boundary layers forced by spanwise wall oscillations ⋮ The continuous spectrum of time-harmonic shear layers ⋮ Swept wing boundary-layer receptivity to localized surface roughness ⋮ Global receptivity analysis: physically realizable input–output analysis ⋮ Free-stream turbulence and the development of cross-flow disturbances
Uses Software
Cites Work
- On the generation of Tollmien-Schlichting waves by sound
- A spectral collocation method for the Navier-Stokes equations
- Roughness-induced generation of crossflow vortices in three-dimensional boundary layers
- Stability and transition in shear flows
- Simulations of bypass transition
- The evolution of Tollmien–Sclichting waves near a leading edge
- Roughness-induced receptivity to crossflow vortices on a swept wing
- A nonlinear mechanism for receptivity of free-stream disturbances
- Receptivity of three-dimensional boundary-layers to localized wall roughness and suction
- The continuous spectrum for a boundary layer in a streamwise pressure gradient
- Weakly nonlinear analysis of boundary layer receptivity to free-stream disturbances
- Scattering of acoustic waves into Tollmien-Schlichting waves by small streamwise variations in surface geometry
- Localized receptivity of boundary layers
- A finite Reynolds-number approach for the prediction of boundary-layer receptivity in localized regions
- The continuous spectrum of the Orr-Sommerfeld equation. Part 1. The spectrum and the eigenfunctions
- Secondary instability of cross-flow vortices in Falkner–Skan–Cooke boundary layers
- The Fringe Region Technique and the Fourier Method Used in the Direct Numerical Simulation of Spatially Evolving Viscous Flows
- Receptivity to surface roughness near a swept leading edge
- 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>
- Transition in boundary layers subject to free-stream turbulence
- Transition induced by free-stream turbulence
- Boundary layer receptivity to free-stream vorticity
- A study of non-parallel and nonlinear effects on the localized receptivity of boundary layers
- Continuous mode transition and the effects of pressure gradient
- Mode interaction and the bypass route to transition
- Shear sheltering and the continuous spectrum of the Orr–Sommerfeld equation
