An extensive parametric study of turbulent boundary-layer control on airfoils via uniform blowing or suction is presented. The control is applied on either the suction or pressure side of several four-digit NACA-series airfoils. The considered parameter variations include angle of attack, Reynolds number, control intensity, airfoil camber, and airfoil thickness. Two comprehensive metrics, designed to account for the additional energy required by the control, are introduced to evaluate the net aerodynamic performance enhancements. The study confirms previous findings for suction-side boundary-layer control and demonstrates the interesting potential of blowing on the pressure side under various conditions, which achieves a maximum total net d...
The tests described in this report constitute a preliminary investigation of airfoil boundary layer ...
Designing an aircraft without conventional control surfaces is of interest to aerospace community. I...
We examine the effects of three basic but effective control strategies, namely uniform blowing, unif...
An extensive parametric study of turbulent boundary-layer control on airfoils via uniform blowing or...
We present a comprehensive parametric study on the flow-control scheme denoted as wall-normal ...
With the increasing interest for renewable energy resources in the last couple of decades, the possi...
We carried out high-fielity large-eddy simulations (LES) to investigate the effects of uniform blowi...
A detailed analysis of the effects of uniform blowing, uniform suction, and body-force damping on th...
The application of drag-control strategies on canonical wall-bounded turbulence, such as periodic ch...
The effects of jet width on blowing and suction flow control were evaluated for a NACA 0012 airfoil....
The final goal of this research project is to highlight the practical feasibility, advantages and li...
Take-off and landing are the critical phases of an aircraft flight where there is a high demand of l...
A Computational method was developed for investigating boundary layer control. Solutions of the Reyn...
Control of flow over a NACA2415 aerofoil which experiences a laminar separation bubble for a transit...
The tests described in this report constitute a preliminary investigation of airfoil boundary layer ...
Designing an aircraft without conventional control surfaces is of interest to aerospace community. I...
We examine the effects of three basic but effective control strategies, namely uniform blowing, unif...
An extensive parametric study of turbulent boundary-layer control on airfoils via uniform blowing or...
We present a comprehensive parametric study on the flow-control scheme denoted as wall-normal ...
With the increasing interest for renewable energy resources in the last couple of decades, the possi...
We carried out high-fielity large-eddy simulations (LES) to investigate the effects of uniform blowi...
A detailed analysis of the effects of uniform blowing, uniform suction, and body-force damping on th...
The application of drag-control strategies on canonical wall-bounded turbulence, such as periodic ch...
The effects of jet width on blowing and suction flow control were evaluated for a NACA 0012 airfoil....
The final goal of this research project is to highlight the practical feasibility, advantages and li...
Take-off and landing are the critical phases of an aircraft flight where there is a high demand of l...
A Computational method was developed for investigating boundary layer control. Solutions of the Reyn...
Control of flow over a NACA2415 aerofoil which experiences a laminar separation bubble for a transit...
The tests described in this report constitute a preliminary investigation of airfoil boundary layer ...
Designing an aircraft without conventional control surfaces is of interest to aerospace community. I...
We examine the effects of three basic but effective control strategies, namely uniform blowing, unif...