In this paper, 3D numerical simulations have been carried out to enhance the understanding of a flow over a passive control device composed of micro cylinder with, d/c = 1.34% placed in the vicinity of NACA0012 aerofoil wing, by means of γ–Reθt transition sensitive turbulence model meant to predict the separation induced by transition achieved for aerofoils operating at moderate Reynolds number (Re = 4.45×105). Results show that the separation of the boundary layer has been eliminated by the passive static vortex generator at stall regime due to the injection of free-stream momentum to the boundary layer. The early transition to turbulent state overcomes the local flow deceleration of an adverse pressure gradient and remains sticked to the ...
Leading-edge protuberances on airfoils or hydrofoils have been considered as a viable passive method...
This study involves numerical simulation of the flow around a NACA2415 airfoil, with a 18°angle of a...
The project completed at the Wichita State University Department of Aerospace Engineering. Presented...
In this paper, 3D numerical simulations have been carried out to enhance the understanding of a flow...
International audienceThe aim of this study is to investigate the influence of disturbed freestream ...
International audienceA passive flow control strategy for four different aerofoils (NACA0012, NACA64...
A parametric investigation of the influence of a small cylinder on the laminar separated boundary la...
International audienceThe present paper provides an experimental optimization of a NACA 4415 airfoil...
In the on-going search for improvements in high lift device performance, the field of flow separatio...
Passive flow control by vortex generators (VGs) is the simplest solution to delay or eliminate the ...
With the significant interest in the development of micro air vehicles with gust resistant capabilit...
Improving the aerodynamic performance of an airfoil is one of the primary interests of the Aerodynam...
An OA209 airfoil equipped with an innovative deployable vortex generator device is investigated thro...
Leading-edge protuberances on airfoils or hydrofoils have been considered as a viable passive method...
This study involves numerical simulation of the flow around a NACA2415 airfoil, with a 18°angle of a...
The project completed at the Wichita State University Department of Aerospace Engineering. Presented...
In this paper, 3D numerical simulations have been carried out to enhance the understanding of a flow...
International audienceThe aim of this study is to investigate the influence of disturbed freestream ...
International audienceA passive flow control strategy for four different aerofoils (NACA0012, NACA64...
A parametric investigation of the influence of a small cylinder on the laminar separated boundary la...
International audienceThe present paper provides an experimental optimization of a NACA 4415 airfoil...
In the on-going search for improvements in high lift device performance, the field of flow separatio...
Passive flow control by vortex generators (VGs) is the simplest solution to delay or eliminate the ...
With the significant interest in the development of micro air vehicles with gust resistant capabilit...
Improving the aerodynamic performance of an airfoil is one of the primary interests of the Aerodynam...
An OA209 airfoil equipped with an innovative deployable vortex generator device is investigated thro...
Leading-edge protuberances on airfoils or hydrofoils have been considered as a viable passive method...
This study involves numerical simulation of the flow around a NACA2415 airfoil, with a 18°angle of a...
The project completed at the Wichita State University Department of Aerospace Engineering. Presented...