Add to ORKGInstability waves, commonly called T-S waves, can be introduced in a laminar boundary layer by periodic heating of flush-mounted heating elements. Experiments have demonstrated that nearly complete cancellation of a T-S wave excited in this way can be achieved by using a second downstream heating element with a suitable phase shift. As one application of the technique, a single element together with a feedback loop activated by measured wall shear stress has been used to reduce the amplitude of naturally occurring laminar instability waves. A significant increase in the transition Reynolds number has been achieved
Understanding, predicting and controlling laminar to turbulent transition is of great interest due t...
Well-resolved large-eddy simulations of passive control of the laminar-turbulent transition process ...
This study focuses on the suppression of instability growth using an automated active-control techni...
Instability waves, commonly called T-S waves, can be introduced in a laminar boundary layer by perio...
A new technique using surface-film activators has been developed to induce and control laminar-insta...
This paper (the first in a series) focuses on using active-control methods to maintain laminar flow ...
Research into laminar-turbulent transition delay in three-dimensional boundary layers is motivated b...
A general theory of boundary layer control by surface heating is presented. Some analytical results ...
Instability to Tollmien–Schlichting waves is one of the primary routes to transition to turbulence f...
The delay of the laminar-turbulent transition is crucial for the reduction of the skin friction. Man...
The concept of active control of growing disturbances in an unstable compressible flow by using time...
Active flow control in laminar boundary layers can reduce wall friction on a wing, if laminar-turbul...
Since O. Reynolds' experiment revealed the transition from laminar state to turbulence in pipe flow ...
From Springer Nature via Jisc Publications RouterHistory: received 2020-08-28, accepted 2021-02-13, ...
Efficient methods of drag reduction in wall-bounded shear flows remains an important, yet elusive pr...
Understanding, predicting and controlling laminar to turbulent transition is of great interest due t...
Well-resolved large-eddy simulations of passive control of the laminar-turbulent transition process ...
This study focuses on the suppression of instability growth using an automated active-control techni...
Instability waves, commonly called T-S waves, can be introduced in a laminar boundary layer by perio...
A new technique using surface-film activators has been developed to induce and control laminar-insta...
This paper (the first in a series) focuses on using active-control methods to maintain laminar flow ...
Research into laminar-turbulent transition delay in three-dimensional boundary layers is motivated b...
A general theory of boundary layer control by surface heating is presented. Some analytical results ...
Instability to Tollmien–Schlichting waves is one of the primary routes to transition to turbulence f...
The delay of the laminar-turbulent transition is crucial for the reduction of the skin friction. Man...
The concept of active control of growing disturbances in an unstable compressible flow by using time...
Active flow control in laminar boundary layers can reduce wall friction on a wing, if laminar-turbul...
Since O. Reynolds' experiment revealed the transition from laminar state to turbulence in pipe flow ...
From Springer Nature via Jisc Publications RouterHistory: received 2020-08-28, accepted 2021-02-13, ...
Efficient methods of drag reduction in wall-bounded shear flows remains an important, yet elusive pr...
Understanding, predicting and controlling laminar to turbulent transition is of great interest due t...
Well-resolved large-eddy simulations of passive control of the laminar-turbulent transition process ...
This study focuses on the suppression of instability growth using an automated active-control techni...