Litcius/Paper detail

Leading-edge vortex dynamics on plunging airfoils and wings

Onur Son, An‐Kang Gao, Ismet Gursul, Chris D. Cantwell, Zhijin Wang, Spencer J. Sherwin

2022Journal of Fluid Mechanics37 citationsDOIOpen Access PDF

Abstract

The vortex dynamics of leading-edge vortices on plunging high-aspect-ratio ( AR = 10) wings and airfoils were investigated by means of volumetric velocity measurements, numerical simulations and stability analysis to understand the deformation of the leading-edge vortex filament and spanwise instabilities. The vortex filaments on both the wing and airfoil exhibit spanwise waves, but with different origins. The presence of a wing-tip causes the leg of the vortex to remain attached to the wing upper surface, while the initial deformation of the filament near the wing tip resembles a helical vortex. The essential features can be modelled as the deformation of an initially L -shaped semi-infinite vortex column. In contrast, the instability of the vortices is well captured by the instability of counter-rotating vortex pairs, which are formed either by the trailing-edge vortices or the secondary vortices rolled-up from the wing surface. The wavelengths observed in the experiments and simulations are in agreement with the stability analysis of counter-rotating vortex pairs of unequal strength.

Topics & Concepts

VortexStarting vortexPhysicsHorseshoe vortexAirfoilMechanicsLeading edgeInstabilityVortex ringWingtip vorticesWingTrailing edgeClassical mechanicsProtein filamentMaterials scienceThermodynamicsComposite materialFluid Dynamics and Turbulent FlowsFluid Dynamics and Vibration AnalysisComputational Fluid Dynamics and Aerodynamics