This paper presents a Fluid-Structure-Interaction study of a novel passive adaptive shock control bump concept. A flexible plate, clamped on all sides and placed above a sealed cavity, was tested beneath a Mach 1.4 normal shock in the Imperial College London supersonic wind tunnel. The plate was actuated into the shape of a 3D shock control bump by passively controlling the cavity pressure through an array of breather holes. Preliminary experiments were performed with active control of cavity pressure (via a vacuum tank) at Mach 1.4 and 2 to illustrate the potential of this concept. Full-field surface measurement techniques, namely photogrammetry and pressure sensitive paint, were employed in addition to static pressure tappings and schlier...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76765/1/AIAA-1992-2725-533.pd
The paper presents the experimental investigations on a blunt cone-cylinder made in the DLR 1- x 1-m...
Previous studies of transonic shock control bumps have often been either numerical or experimental. ...
The evolution of Adaptive Shock Control Bumps (SCB) presented in this work is a result of an investi...
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...
The dawn of research on shock and boundary layer interaction control dates back to the 1970s, when h...
Flexible panels deforming under pressure loads have been suggested as a passive form of adaptive obl...
Shock control bumps (SCB) are a transonic flow control device that aim to reduce the overall drag du...
An experimental study of open cavity flow has been made in a high Reynolds number, Mach 5 turbulent ...
In the design of a new generation of eco-efficient aircrafts, fuel reduction is the number one objec...
The evolution of adaptive shock control bump (SCB) design has seen the system flexibility increase t...
Supersonic flow over cavities has been of interest since 1960s because cavities represent the bomb b...
To reduce emissions and fuel consumption in aviation the laminar wing technology promises a high pot...
In the present study, a novel concave bump for impinging-shock control in two-dimensional supersonic...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76765/1/AIAA-1992-2725-533.pd
The paper presents the experimental investigations on a blunt cone-cylinder made in the DLR 1- x 1-m...
Previous studies of transonic shock control bumps have often been either numerical or experimental. ...
The evolution of Adaptive Shock Control Bumps (SCB) presented in this work is a result of an investi...
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...
The dawn of research on shock and boundary layer interaction control dates back to the 1970s, when h...
Flexible panels deforming under pressure loads have been suggested as a passive form of adaptive obl...
Shock control bumps (SCB) are a transonic flow control device that aim to reduce the overall drag du...
An experimental study of open cavity flow has been made in a high Reynolds number, Mach 5 turbulent ...
In the design of a new generation of eco-efficient aircrafts, fuel reduction is the number one objec...
The evolution of adaptive shock control bump (SCB) design has seen the system flexibility increase t...
Supersonic flow over cavities has been of interest since 1960s because cavities represent the bomb b...
To reduce emissions and fuel consumption in aviation the laminar wing technology promises a high pot...
In the present study, a novel concave bump for impinging-shock control in two-dimensional supersonic...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76765/1/AIAA-1992-2725-533.pd
The paper presents the experimental investigations on a blunt cone-cylinder made in the DLR 1- x 1-m...
Previous studies of transonic shock control bumps have often been either numerical or experimental. ...