International audienceThe paper presents a numerical investigation of the leading-edge vortices generated by rotating triangular wings at Reynolds number Re=250. A series of three-dimensional numerical simulations have been carried out using a Fourier pseudo-spectral method with volume penalization. The transition from stable attachment of the leading-edge vortex to periodic vortex shedding is explored, as a function of the wing aspect ratio and the angle of attack. It is found that, in a stable configuration, the spanwise flow in the recirculation bubble past the wing is due to the centrifugal force, incompressibility and viscous stresses. For the flow outside of the bubble, an inviscid model of spanwise flow is presented
Stable attachment of a leading-edge vortex (LEV) plays a key role in generating the high lift on rot...
The present work is investigating the vortex dominated flow physics as well as the aerodynamic behav...
For a significant portion of the wingbeat cycle in insect-like flapping, the wing sweeps at more or ...
International audienceThe paper presents a numerical investigation of the leading-edge vortices gene...
AbstractThe flow field over an accelerating rotating wing model at Reynolds numbers Re ranging from ...
In this study the flow around a winged-seed in auto-rotation is characterized using direct numerical...
The flow structure that is largely responsible for the good performance of insect wings has recently...
We investigated the three-dimensional vorticity dynamics of the flows generated by revolving wings u...
The vortex dynamics of leading-edge vortices on plunging high-Aspect-ratio (ARÂ =Â 10) wings and air...
A Computational method is presented for the calculation of the incompressible flow about wings with ...
AbstractThe use of wavy leading edges is presented in the literature as a possible way of delaying s...
Like large insects, micro air vehicles operate at low Reynolds numbers O(1; 000 - 10; 000) in a regi...
Wings swept by 30 to 40 degrees with sharp leading edges are today very common on flghter aircraft. ...
The goal of this research was to investigate preliminary test data obtained by Professor Robert E. B...
In summary the tilting mechanism helps to explain the overall flow structure and the stability of th...
Stable attachment of a leading-edge vortex (LEV) plays a key role in generating the high lift on rot...
The present work is investigating the vortex dominated flow physics as well as the aerodynamic behav...
For a significant portion of the wingbeat cycle in insect-like flapping, the wing sweeps at more or ...
International audienceThe paper presents a numerical investigation of the leading-edge vortices gene...
AbstractThe flow field over an accelerating rotating wing model at Reynolds numbers Re ranging from ...
In this study the flow around a winged-seed in auto-rotation is characterized using direct numerical...
The flow structure that is largely responsible for the good performance of insect wings has recently...
We investigated the three-dimensional vorticity dynamics of the flows generated by revolving wings u...
The vortex dynamics of leading-edge vortices on plunging high-Aspect-ratio (ARÂ =Â 10) wings and air...
A Computational method is presented for the calculation of the incompressible flow about wings with ...
AbstractThe use of wavy leading edges is presented in the literature as a possible way of delaying s...
Like large insects, micro air vehicles operate at low Reynolds numbers O(1; 000 - 10; 000) in a regi...
Wings swept by 30 to 40 degrees with sharp leading edges are today very common on flghter aircraft. ...
The goal of this research was to investigate preliminary test data obtained by Professor Robert E. B...
In summary the tilting mechanism helps to explain the overall flow structure and the stability of th...
Stable attachment of a leading-edge vortex (LEV) plays a key role in generating the high lift on rot...
The present work is investigating the vortex dominated flow physics as well as the aerodynamic behav...
For a significant portion of the wingbeat cycle in insect-like flapping, the wing sweeps at more or ...