The unsteady Navier-Stokes analysis is shown to be capable of analyzing the massively separated, persistently unsteady flow in the post-stall regime of a Joukowski airfoil for an angle of attack as high as 53 degrees. The analysis has provided the detailed flow structure, showing the complex vortex interaction for this configuration. The aerodynamic coefficients for lift, drag, and moment were calculated. So far only the spatial structure of the vortex interaction was computed. It is now important to potentially use the large-scale vortex interactions, an additional energy source, to improve the aerodynamic performance
We investigate the unsteady aerodynamic forces and energy transfer associated with harmonic surging ...
A series of wind tunnel experiments were conducted on an NACA 0012 airfoil undergoing a linear pitch...
Low momentum fluid erupts at the unsteady separation region and forms a local shear layer at the vis...
Most unsteady viscous flows may be grouped into two categories, i.e., forced and self-sustained osci...
The effect of the unsteady motion of an airfoil on its stall behavior is of considerable interest to...
Unsteady flowfields of a two-dimensional oscillating airfoil are calculated using an implicit, finit...
A discrete vortex model coupled with a vortex dissipation and vortex core criteria is used to study ...
The initial phases of a study of the large-amplitude unsteady aerodynamics of wings in severe maneuv...
An experimental, computational and theoretical investigation was carried out to study the aerodynami...
This thesis aims at analysing the predictive capabilities of statistical URANS and hybrid RANS-LES m...
Although studies have been done to understand the dependence of parameters for the occurrence of dee...
Unsteady aerodynamics emerges in several applications in mechanical and aerospace engineering such a...
Unsteady flow separation represents a highly complex and important area of study within fluid mechan...
Two-dimensional flows over harmonically oscillating symmetrical aerofoil at reduced frequency of 0.1...
We investigate superfluid flow around an airfoil accelerated to a finite velocity from rest. Using s...
We investigate the unsteady aerodynamic forces and energy transfer associated with harmonic surging ...
A series of wind tunnel experiments were conducted on an NACA 0012 airfoil undergoing a linear pitch...
Low momentum fluid erupts at the unsteady separation region and forms a local shear layer at the vis...
Most unsteady viscous flows may be grouped into two categories, i.e., forced and self-sustained osci...
The effect of the unsteady motion of an airfoil on its stall behavior is of considerable interest to...
Unsteady flowfields of a two-dimensional oscillating airfoil are calculated using an implicit, finit...
A discrete vortex model coupled with a vortex dissipation and vortex core criteria is used to study ...
The initial phases of a study of the large-amplitude unsteady aerodynamics of wings in severe maneuv...
An experimental, computational and theoretical investigation was carried out to study the aerodynami...
This thesis aims at analysing the predictive capabilities of statistical URANS and hybrid RANS-LES m...
Although studies have been done to understand the dependence of parameters for the occurrence of dee...
Unsteady aerodynamics emerges in several applications in mechanical and aerospace engineering such a...
Unsteady flow separation represents a highly complex and important area of study within fluid mechan...
Two-dimensional flows over harmonically oscillating symmetrical aerofoil at reduced frequency of 0.1...
We investigate superfluid flow around an airfoil accelerated to a finite velocity from rest. Using s...
We investigate the unsteady aerodynamic forces and energy transfer associated with harmonic surging ...
A series of wind tunnel experiments were conducted on an NACA 0012 airfoil undergoing a linear pitch...
Low momentum fluid erupts at the unsteady separation region and forms a local shear layer at the vis...