Experimental analysis of the wake behind a small wind-turbine model in yaw

Abstract: In this work we study the wake of a yawed wind-turbine model immersed in an atmospheric boundary layer (ABL). The ABL is replicated in the wind tunnel by means of a barrier-spires and distributed roughness configuration and is representative of a rural terrain. We quantify the properties of the wake in the horizontal plane at hub height and compare the predictions of available wake models to our data for different yaw angles. It is found that the model based on lifting-line theory performs best in predicting t… Show more

“…This is visible in both the stream-wise and radial velocity components, with the latter increasing significantly when the yaw angle was increased. A more detailed analysis of the steady-state wake of the turbine model used in this work was presented by Micheletto et al [32].…”

Experimental Study of the Transient Behavior of a Wind Turbine Wake Following Yaw Actuation

“…This is visible in both the stream-wise and radial velocity components, with the latter increasing significantly when the yaw angle was increased. A more detailed analysis of the steady-state wake of the turbine model used in this work was presented by Micheletto et al [32].…”

Experimental Study of the Transient Behavior of a Wind Turbine Wake Following Yaw Actuation