This paper describes an experimental study of the manipulation of a fully developed turbulent channel flow through large-scale streamwise vortices originated by vortex generator jets distributed along the wall in the spanwise direction. Apart from the interest in flow management itself, an important aim of the research is to observe the response of the flow to external perturbations as a technique for investigating the structure of turbulence. Considerable mean and fluctuating skin friction reductions,locally as high as 30% and 50% respectively, were measured for an optimal forcing flow intensity. Mean and fluctuating velocity profiles are also greatly modifed by the manipulating large-scale vortices; in particular, attenuation of the turb...
Steady forcing at the wall of a channel flow is studied via direct numerical simulation to assess it...
Numerical experiments on modified turbulent channels at moderate Reynolds numbers are used to differ...
Longitudinal vortices and hairpin-like structures are generated in an open loop flow by a row of vor...
The investigation focuses on the forcing of a fully developed turbulent channel flow through a linea...
The effects of the interaction of a spanwise array of inclined circular synthetic jets with a turbul...
In this paper a turbulent plane channel flow modified by a distributed transpiration at the wall, wi...
© 2017, Springer Science+Business Media B.V., part of Springer Nature. Direct numerical simulations ...
The feasibility of control of wall turbulence by high frequency spanwise oscillations is investigate...
It is known that stretching and intensification of a hairpin vortex by mean shear play an important ...
Wall-bounded turbulent flows such as plane Couette flow, channel, pipe flows and boundary layer flow...
Direct numerical simulations of fully developed turbulent channel flows with wavy walls are undertak...
Using direct numerical simulations of turbulent channel flow, we present a new method for skin frict...
While large-scale motions are most energetic in the logarithmic region of a high-Reynolds-number tur...
Steady forcing at the wall of a channel flow is studied via direct numerical simulation to assess it...
We explore the mechanisms behind vortical structural interactions modifying largescale structures in...
Steady forcing at the wall of a channel flow is studied via direct numerical simulation to assess it...
Numerical experiments on modified turbulent channels at moderate Reynolds numbers are used to differ...
Longitudinal vortices and hairpin-like structures are generated in an open loop flow by a row of vor...
The investigation focuses on the forcing of a fully developed turbulent channel flow through a linea...
The effects of the interaction of a spanwise array of inclined circular synthetic jets with a turbul...
In this paper a turbulent plane channel flow modified by a distributed transpiration at the wall, wi...
© 2017, Springer Science+Business Media B.V., part of Springer Nature. Direct numerical simulations ...
The feasibility of control of wall turbulence by high frequency spanwise oscillations is investigate...
It is known that stretching and intensification of a hairpin vortex by mean shear play an important ...
Wall-bounded turbulent flows such as plane Couette flow, channel, pipe flows and boundary layer flow...
Direct numerical simulations of fully developed turbulent channel flows with wavy walls are undertak...
Using direct numerical simulations of turbulent channel flow, we present a new method for skin frict...
While large-scale motions are most energetic in the logarithmic region of a high-Reynolds-number tur...
Steady forcing at the wall of a channel flow is studied via direct numerical simulation to assess it...
We explore the mechanisms behind vortical structural interactions modifying largescale structures in...
Steady forcing at the wall of a channel flow is studied via direct numerical simulation to assess it...
Numerical experiments on modified turbulent channels at moderate Reynolds numbers are used to differ...
Longitudinal vortices and hairpin-like structures are generated in an open loop flow by a row of vor...