Add to ORKGThe dawn of research on shock and boundary layer interaction control dates back to the 1970s, when humped transonic aerofoils were first studied as a means to improve the performance of supercritical aerofoil technology at off-design conditions. Since then, shock control bumps (SCBs) have been found to be promising devices for such kind of flow control. They have a smearing effect on the shock wave structure achieved through isentropic pre-compression of the flow upstream of the main shock and can significantly lower wave drag without incurring unacceptable viscous losses. However, their performance is strongly dependent on a set of geometrical parameters which must be adjusted according to the ever-changing flight conditions. A conc...
The overall goal of reducing greenhouse gas emissions in commercial aviation can be approached in ma...
In this paper, the design spaces of the 2D and 3D shock control bumps on an infinite unswept natural...
The chapter investigates Shock Control Bumps (SCB) on a Natural Laminar Flow (NLF) aerofoil; RAE 524...
In the design of a new generation of eco-efficient aircrafts, fuel reduction is the number one objec...
Shock control bumps (SCB) are a transonic flow control device that aim to reduce the overall drag du...
The evolution of Adaptive Shock Control Bumps (SCB) presented in this work is a result of an investi...
Drag reduction plays a major role in future aircraft design in order to lower emissions in aviation....
Improving aircraft aerodynamic efficiency is key to achieve the desired performance enhancements, in...
Adaptive shock control bumps can exploit the on-design drag-reducing potential of 2D bumps, while mi...
Drag reduction technologies in aircraft design are the key enabler for reducing emissions and for su...
To reduce emissions and fuel consumption in aviation the laminar wing technology promises a high pot...
A shock control bump (SCB) on the wing of a transonic airfoil can reduce the drag coefficient. Howev...
This paper presents a Fluid-Structure-Interaction study of a novel passive adaptive shock control bu...
The design of realistic shock control bumps requires multiple disciplines. In this paper, several sh...
The chapter investigates Shock Control Bumps (SCB) on a Natural Laminar Flow (NLF) aerofoil; RAE 524...
The overall goal of reducing greenhouse gas emissions in commercial aviation can be approached in ma...
In this paper, the design spaces of the 2D and 3D shock control bumps on an infinite unswept natural...
The chapter investigates Shock Control Bumps (SCB) on a Natural Laminar Flow (NLF) aerofoil; RAE 524...
In the design of a new generation of eco-efficient aircrafts, fuel reduction is the number one objec...
Shock control bumps (SCB) are a transonic flow control device that aim to reduce the overall drag du...
The evolution of Adaptive Shock Control Bumps (SCB) presented in this work is a result of an investi...
Drag reduction plays a major role in future aircraft design in order to lower emissions in aviation....
Improving aircraft aerodynamic efficiency is key to achieve the desired performance enhancements, in...
Adaptive shock control bumps can exploit the on-design drag-reducing potential of 2D bumps, while mi...
Drag reduction technologies in aircraft design are the key enabler for reducing emissions and for su...
To reduce emissions and fuel consumption in aviation the laminar wing technology promises a high pot...
A shock control bump (SCB) on the wing of a transonic airfoil can reduce the drag coefficient. Howev...
This paper presents a Fluid-Structure-Interaction study of a novel passive adaptive shock control bu...
The design of realistic shock control bumps requires multiple disciplines. In this paper, several sh...
The chapter investigates Shock Control Bumps (SCB) on a Natural Laminar Flow (NLF) aerofoil; RAE 524...
The overall goal of reducing greenhouse gas emissions in commercial aviation can be approached in ma...
In this paper, the design spaces of the 2D and 3D shock control bumps on an infinite unswept natural...
The chapter investigates Shock Control Bumps (SCB) on a Natural Laminar Flow (NLF) aerofoil; RAE 524...