Print Email Facebook Twitter Iterative tuning of feedforward IPC for two-bladed wind turbines Title Iterative tuning of feedforward IPC for two-bladed wind turbines Author Mulders, S.P. (TU Delft Team Raf Van de Plas) van Solingen, E. (TU Delft Team Raf Van de Plas) van Wingerden, J.W. (TU Delft Team Raf Van de Plas) Beerens, J (2-B Energy) Contributor Bossanyi, E. (editor) Chaviaropoulos, T. (editor) Cheng, P.W. (editor) Date 2016 Abstract At present, the cost of offshore wind energy does not meet the level of onshore wind and fossil-based energy sources. One way to extend the turbine lifetime, and thus reduce cost, is by reduction of the fatigue loads of blades and other turbine parts using Individual Pitch Control (IPC). This type of control, which is generally implemented by feedback control using the MultiBlade Coordinate transformation on blade load measurement signals, is capable of mitigating the most dominant periodic loads. The main goal of this article is to develop a self-optimizing feedforward IPC strategy for a two-bladed wind turbine to reduce actuator duty cycle and reduce the dependency on blade load measurement signals. The approach uses blade load measurement data only initially for tuning of the feedforward controller, which is scheduled on the rotor azimuth angle and wind speed. The feedforward strategy will be compared to the feedback implementation in terms of load alleviation capabilities and actuator duty cycle. Results show that the implementation is capable of learning the optimal feedforward IPC controller in constant and turbulent wind conditions, to alleviate the pitch actuator duty cycle, and to considerably reduce harmonic fatigue loads without the need for blade load measurement signals after tuning. To reference this document use: http://resolver.tudelft.nl/uuid:1e321a36-5bfd-471b-8cdc-033dca577033 DOI https://doi.org/10.1088/1742-6596/753/5/052027 Publisher IOP Publishing, Bristol, UK Source Journal of Physics: Conference Series: TORQUE 2016: The Science of Making Torque from Wind, 753 Event TORQUE 2016: 6th International Conference "The Science of Making Torque from Wind", 2016-10-05 → 2016-10-07, Technische Universität München (TUM), Campus Garching, Munich, Germany Series Journal of Physics - Conference Series, 1742-6588, 753 (D. Control and supporting technologies) Part of collection Institutional Repository Document type conference paper Rights © 2016 S.P. Mulders, E. van Solingen, J.W. van Wingerden, J Beerens Files PDF Mulders_2016_J._Phys._Con ... 052027.pdf 938.88 KB Close viewer /islandora/object/uuid:1e321a36-5bfd-471b-8cdc-033dca577033/datastream/OBJ/view