Fatigue design of offshore wind turbine jacket-type structures using a parallel scheme

In this paper a fatigue analysis and design process for offshore wind turbine (OWT) support structures with a parallel computation technology was developed. The joint type support structure was first classified, and the fatigue damage was then calculated using the Miner’s rule. Finally, Broyden’s me...

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Bibliographic Details
Published in:Renewable energy 2019-06, Vol.136, p.69-78
Main Authors: Ju, Shen-Haw, Su, Feng-Chien, Ke, Yi-Pei, Xie, Min-Hsuan
Format: Article
Language:English
Subjects:
Broyden’s method
Fatigue
Finite element analysis
Jacket-type offshore wind turbine
Parallel computation
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Summary:In this paper a fatigue analysis and design process for offshore wind turbine (OWT) support structures with a parallel computation technology was developed. The joint type support structure was first classified, and the fatigue damage was then calculated using the Miner’s rule. Finally, Broyden’s method was used to design the member thickness to meet the design requirements of the OWT fatigue life. The numerical study indicated that this parallel fatigue procedure is highly efficient even when using a personal computer. For the fatigue issue of OWT support structures, this work indicates that the maximum damage is due to the power production plus the occurrence of faults for a hub wind speed that is a little greater than the rated wind speed. However, the major part of the fatigue damage is still generated during the power production. Under high wind conditions, parked wind turbines produce minimum wind forces, so fatigue damage is primarily from wave loads. This type of fatigue damage can control the fatigue design if the wave load is large. •A fatigue analysis and design parallel process for OWT structures was developed.•The joint type and the fatigue damage can be automatically calculated in parallel.•Broyden’s method is used to design the member thickness for a required fatigue life.•Maximum OWT damage is due to power production plus faults near the rated wind speed.•Major damage is generated during power production.
ISSN:0960-1481
1879-0682
DOI:10.1016/j.renene.2018.12.071