Aero-structural dynamics of a flexible hub connection for load reduction on two-bladed wind turbines
Autor: | Birger Luhmann, Po Wen Cheng, Homan Seyedin |
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Rok vydání: | 2016 |
Předmět: |
Engineering
Wind power Renewable Energy Sustainability and the Environment Angle of attack business.industry Nacelle Rotor (electric) 020209 energy 02 engineering and technology Structural engineering Aerodynamics Flange 01 natural sciences Turbine 010305 fluids & plasmas law.invention law 0103 physical sciences 0202 electrical engineering electronic engineering information engineering Yaw bearing business |
Zdroj: | Wind Energy. 20:521-535 |
ISSN: | 1095-4244 |
Popis: | In this study, an innovative concept for load reduction on the two-bladed Skywind 3.4 MW prototype is presented. The load reduction system consists of a flexible coupling between the hub mount, carrying the drive train components including the hub assembly, and a nacelle carrier supported by the yaw bearing. This paper intends to assess the impact of introducing a flexible hub connection on the system dynamics and the aero-elastic response to aerodynamic load imbalances. In order to limit the rotational joint motion, a cardanic spring-damper element is introduced between the hub mount and the nacelle carrier flange, which affects the system response and the loads. A parameter variation of the stiffness and damping of the connecting spring-damper element has been performed in the multi-body simulation solver Simpack. A deterministic, vertically sheared wind field is applied to induce a periodic aerodynamic imbalance on the rotor. The aero-structural load reduction mechanisms of the coupled system are thereby identified. It is shown that the fatigue loads on the blades and the turbine support structure are reduced significantly. For a very low structural coupling, however, the corresponding rotational deflections of the hub mount exceed the design limit of operation. The analysis of the interaction between the hub mount motion and the blade aerodynamics in a transient inflow environment indicates a reduction of the angle of attack amplitudes and the corresponding fluctuations of the blade loading. Hence, it can be concluded that load reduction is achieved by a combination of reduced structural coupling and a mitigation of aerodynamic load imbalances. Copyright © 2016 John Wiley & Sons, Ltd. |
Databáze: | OpenAIRE |
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