Rezaei, AshkanAshkanRezaeiSchleich, FlorianFlorianSchleichMenck, OliverOliverMenckGraßmann, MatthisMatthisGraßmannBartschat, ArneArneBartschatNejad, Amir R.Amir R.Nejad2024-12-022024-12-022024-05-31https://publica.fraunhofer.de/handle/publica/47947310.1088/1742-6596/2767/5/052036The load calculation for wind turbines usually does not take pitch bearings into account, and the pitch-bearing internal load distribution is calculated in a decoupled process. In the current study, a coupled wind turbine load simulation considering the pitch bearings is proposed. Internal pitch-bearing load distribution and roller contact fatigue life are compared to a decoupled approach using a high-fidelity finite-element model. Internal pitch-bearing load distribution can be an essential variable in almost all major pitch-bearing failures. Furthermore, rolling contact fatigue is one of the major types of pitch-bearing failure that can represent the bearing service life. The results show that the flexibility of the surroundings has an effect on the contact forces. As a result, the finite element model-based life calculation of the NREL 5 MW turbine predicts a longer rolling contact fatigue life for the bearing than the multi-body system-based one. For the IWT7.5, sample load cases indicate that this behavior is different, leading to the conclusion that the life of the bearing is significantly affected by the stiffness of the bearing and its surrounding components.en600 Technik, Medizin, angewandte Wissenschaftenjournal article