AbstractNumerical simulations and experimental research are both carried out to investigate the controlled effect of spanwise oscillating Lorentz force on a turbulent channel flow. The variations of the streaks and the skin friction drag are obtained through the PIV system and the drag measurement system, respectively. The flow field in the near-wall region is shown through direct numerical simulations utilizing spectral method. The experimental results are consistent with the numerical simulation results qualitatively, and both the results indicate that the streaks are tilted into the spanwise direction and the drag reduction utilizing spanwise oscillating Lorentz forces can be realized. The numerical simulation results reveal more detail ...
Direct numerical simulations of the incompressible Navier–Stokes equations are employed to study the...
textLow-Reynolds-number, fully developed turbulent channel flow with wall motion has been simulated...
A direct-numerical-simulation-based study is presented, which focuses on the response of near-wall t...
Lorentz-forcing spanwise travelling wave actuation in the turbulent boundary layer has been studied ...
Direct numerical simulations of a turbulent channel flow at low Reynolds number ($Re_{\tau} = 180$, ...
The streamwise and spanwise travelling waves induced by spanwise Lorentz force are studied for skin-...
Turbulent control and drag reduction in a channel flow via a bidirectional traveling wave induced by...
Direct numerical simulations (DNS) of a turbulent channel flow at low Reynolds number (Reτ = 180, ba...
The drag reduction properties of a turbulent channel flow modified by spanwise sinusoidal oscillatio...
The response of turbulent enstrophy to a sudden implementation of spanwise wall oscillation (SWO) is...
Steady forcing at the wall of a channel flow is studied via direct numerical simulation to assess its...
Turbulence control in the form of a streamwise travelling wave of transverse wall motion was studied...
Spanwise wall-oscillation is a promising drag reduction technique in turbulent flows. A major facto...
Turbulent drag reduction through streamwise travelling waves of spanwise wall oscillation is investi...
We present an experimental realisation of spatial spanwise forcing in a turbulent boundary layer flo...
Direct numerical simulations of the incompressible Navier–Stokes equations are employed to study the...
textLow-Reynolds-number, fully developed turbulent channel flow with wall motion has been simulated...
A direct-numerical-simulation-based study is presented, which focuses on the response of near-wall t...
Lorentz-forcing spanwise travelling wave actuation in the turbulent boundary layer has been studied ...
Direct numerical simulations of a turbulent channel flow at low Reynolds number ($Re_{\tau} = 180$, ...
The streamwise and spanwise travelling waves induced by spanwise Lorentz force are studied for skin-...
Turbulent control and drag reduction in a channel flow via a bidirectional traveling wave induced by...
Direct numerical simulations (DNS) of a turbulent channel flow at low Reynolds number (Reτ = 180, ba...
The drag reduction properties of a turbulent channel flow modified by spanwise sinusoidal oscillatio...
The response of turbulent enstrophy to a sudden implementation of spanwise wall oscillation (SWO) is...
Steady forcing at the wall of a channel flow is studied via direct numerical simulation to assess its...
Turbulence control in the form of a streamwise travelling wave of transverse wall motion was studied...
Spanwise wall-oscillation is a promising drag reduction technique in turbulent flows. A major facto...
Turbulent drag reduction through streamwise travelling waves of spanwise wall oscillation is investi...
We present an experimental realisation of spatial spanwise forcing in a turbulent boundary layer flo...
Direct numerical simulations of the incompressible Navier–Stokes equations are employed to study the...
textLow-Reynolds-number, fully developed turbulent channel flow with wall motion has been simulated...
A direct-numerical-simulation-based study is presented, which focuses on the response of near-wall t...