Efficient ultimate load estimation for offshore wind turbines using interpolating surrogate models

During the design phase of an offshore wind turbine, it is required to assess the impact of loads on the turbine life time. Due to the varying environmental conditions, the effect of various uncertain parameters has to be studied to provide meaningful conclusions. Incorporating such uncertain parame...

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Bibliographic Details
Published in:Journal of physics. Conference series 2018-06, Vol.1037 (6), p.62017
Main Authors: van den Bos, L M M, Sanderse, B, Blonk, L, Bierbooms, W A A M, van Bussel, G J W
Format: Article
Language:English
Subjects:
Interpolation
Load
Mathematical models
Offshore
Offshore energy sources
Parameter uncertainty
Physics
Polynomials
Probability density functions
Ultimate loads
Wind turbines
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Summary:During the design phase of an offshore wind turbine, it is required to assess the impact of loads on the turbine life time. Due to the varying environmental conditions, the effect of various uncertain parameters has to be studied to provide meaningful conclusions. Incorporating such uncertain parameters in this regard is often done by applying binning, where the probability density function under consideration is binned and in each bin random simulations are run to estimate the loads. A different methodology for quantifying uncertainties proposed in this work is polynomial interpolation, a more efficient technique that allows to more accurately predict the loads on the turbine for specific load cases. This efficiency is demonstrated by applying the technique to a power production test problem and to IEC Design Load Case 1.1, where the ultimate loads are determined using BLADED. The results show that the interpolating polynomial is capable of representing the load model. Our proposed surrogate modeling approach therefore has the potential to significantly speed up the design and analysis of offshore wind turbines by reducing the time required for load case assessment.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/1037/6/062017