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The Influence of Yaw Misalignment on Turbine Power Output Fluctuations and Unsteady Aerodynamic Loads within Wind Farms

2022; RELX Group (Netherlands); Linguagem: Inglês

10.2139/ssrn.4194363

1556-5068

Emmanuvel Joseph Aju, Devesh Kumar, Melissa Leffingwell, Mario A. Rotea, Yaqing Jin,

Icing and De-icing Technologies

Systematic wind tunnel experiments were performed to quantify the power output fluctuations and unsteady aerodynamic loads of modeled wind farms with 3 rows and 3 columns across various yaw angles. Time-resolved particle image velocimetry was applied to characterize the flow statistics, while the power output and aerodynamic loads on turbine tower were measured by a datalogger and force cell at high temporal resolution. Results showed that the growth of yaw misalignment angle mitigates the turbine power output fluctuation. However, this can increase the power fluctuations of downstream turbines. Measurements on the aerodynamic loads on turbine tower revealed that the growth of yaw angle significantly increased the fatigue loading in the side-force direction across all frequency components, while such impact was less distinctive for the thrust force. The dominating unsteady aerodynamic loads are always in the direction perpendicular to rotor surface. Flow statistics demonstrated that yaw misalignment can effectively increase mean wake velocity, integral time scale and reduce the turbulence intensity. Finally, theoretical models based on the coupling between turbine properties and local incoming flow statistics were derived to reveal the evolution of turbine power fluctuations and unsteady aerodynamic loads in the wake flow across various yaw misalignment.