Individual Pitch Control for Wind Turbine Load Reduction Including Wake Modeling

Abstract: This paper presents an investigation on improving individual pitch control (IPC) for wind turbine load reduction for Region 3 operation with the wake interaction included under the context of wind farm operation. The Larsen wake model is applied for composing the rotor wind profile for downstream turbines under wake interaction, and the simple Jensen model is also described for comparison. The switched controllers were then designed based on the composite wind profile. The wind profile of the turbine wake was … Show more

“…Uneven loads can be mitigated via IPC, where the control system adjusts the pitch angle of each blade. [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15] IPC reduces maintenance costs and increases efficiency and lifetime of the turbine components through significant contribution to the load reduction.…”

Individual pitch control of wind turbines: Model-based approach

“…Uneven loads can be mitigated via IPC, where the control system adjusts the pitch angle of each blade. [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15] IPC reduces maintenance costs and increases efficiency and lifetime of the turbine components through significant contribution to the load reduction.…”

Individual pitch control of wind turbines: Model-based approach

“…On the other hand, the application of IPC to wake load control is receiving increasing attention. Yang et al (Yang et al, 2011) developed a periodic IPC to deal with the blade loads of the wind turbine in a wind farm where the wake interactions are considered using Jensen and Larsen wake models.…”

Comment on wes-2021-2

Individual Pitch Angle Control of a Variable Speed Wind Turbine Using Adaptive Fractional Order Non-Singular Fast Terminal Sliding Mode Control