Add to ORKGThe friction drag reduction in a turbulent channel flow generated by surface-mounted rotating disc actuators is investigated numerically. The wall arrangement of the discs has a complex and unexpected effect on the flow. For low disc-tip velocities, the drag reduction scales linearly with the percentage of the actuated area, whereas for higher disc-tip velocity the drag reduction can be larger than the prediction found through the linear scaling with actuated area. For medium disc-tip velocities, all the cases which display this additional drag reduction exhibit stationary-wall regions between discs along the streamwise direction. This effect is caused by the viscous boundary layer which develops over the portions of stationary wall due to ...
In this study, the limiting maximum drag reduction asymptote for the moment coefficient of an enclos...
This thesis presents a numerical model for predicting the flow phenomena, power requirements and bub...
The present work aims at contributing to the development of active flow control via spanwise wall os...
This article is an extension to a previous paper of ours. It summarizes the main findings and comple...
Abstract The turbulent drag reduction technique proposed by Keefe[4, 5] is studied for the first tim...
The reduction of turbulent skin-friction drag has the potential to generate numerous societal benefi...
A turbulent channel flow modified by the motion of discs that are free to rotate under the action of...
In the aviation, maritime and oil&gas sector, the potential benefit in yearly savings deriving f...
The reduction of frictional drag generated by turbulent fluid flow on solid surfaces is an important...
The changes in a turbulent channel flow subjected to sinusoidal oscillations of wall flush-mounted r...
Rotating discs, flush-mounted within the wall beneath a turbulent boundary layer, affect the large-s...
The modification to a turbulent channel flow subjected to sinusoidal oscillations of flush-mounted d...
This article has been accepted for publication in Journal of Fluid Mechan-ics, published by Cambridg...
An active method for turbulent drag reduction in a pressure-driven channel flow is investigated by d...
The turbulent flow between shrouded contra-rotating disks was numerically studied with a two-layer t...
In this study, the limiting maximum drag reduction asymptote for the moment coefficient of an enclos...
This thesis presents a numerical model for predicting the flow phenomena, power requirements and bub...
The present work aims at contributing to the development of active flow control via spanwise wall os...
This article is an extension to a previous paper of ours. It summarizes the main findings and comple...
Abstract The turbulent drag reduction technique proposed by Keefe[4, 5] is studied for the first tim...
The reduction of turbulent skin-friction drag has the potential to generate numerous societal benefi...
A turbulent channel flow modified by the motion of discs that are free to rotate under the action of...
In the aviation, maritime and oil&gas sector, the potential benefit in yearly savings deriving f...
The reduction of frictional drag generated by turbulent fluid flow on solid surfaces is an important...
The changes in a turbulent channel flow subjected to sinusoidal oscillations of wall flush-mounted r...
Rotating discs, flush-mounted within the wall beneath a turbulent boundary layer, affect the large-s...
The modification to a turbulent channel flow subjected to sinusoidal oscillations of flush-mounted d...
This article has been accepted for publication in Journal of Fluid Mechan-ics, published by Cambridg...
An active method for turbulent drag reduction in a pressure-driven channel flow is investigated by d...
The turbulent flow between shrouded contra-rotating disks was numerically studied with a two-layer t...
In this study, the limiting maximum drag reduction asymptote for the moment coefficient of an enclos...
This thesis presents a numerical model for predicting the flow phenomena, power requirements and bub...
The present work aims at contributing to the development of active flow control via spanwise wall os...