Abstract
Foundations for Offshore Wind Turbines (OWTs) are designed following the limit state philosophy. One of the considered states is the Serviceability Limit State (SLS), which verifies that the permanent rotation of the foundation generated from accumulated strains in the soil is below a project specific criterion. Despite design codes requiring an estimation of the permanent rotation, there is not clear guidance on how to implement this. This paper describes a methodology to estimate the monopile permanent rotation for SLS and discusses its advantages and limitations. The methodology combines an accumulation method with results from 3D Finite Element Analyses (FEA) and a soil model that accounts for strain accumulation as a function of the number of cycles, relative density and load characteristics. The performance of the proposed methodology is compared against experimental centrifuge tests and results from advanced 3D FEA, indicating that it can predict the permanent rotation with satisfactory accuracy, and with a considerable reduction in computational effort. This is important for the design of OWTs, where different load histories might be required to be checked – often under tight time constraints – to find which load history leads to the largest permanent rotation, and therefore is more critical to SLS design.
Highlights
Offshore wind energy is experiencing one of the fastest growth rates of all renewable energy sources [1]
The comparison between the proposed methodology and 3D Finite Element Ana lyses (FEA) of the monopile foundation embedded in a soil volume modelled with the High Cycle Accumulation (HCA) is displayed in Table 6 for the load history representative for a ULS storm, and in Table 7 for the load history repre sentative for long-term FLS analyses
At the end of the multiamplitude test, the permanent rotation predicted with the proposed procedure matches the permanent rotation computed by more advanced 3D FEA, and deviates from the permanent rotation measured in the experimental centrifuge by 10%
Summary
Offshore wind energy is experiencing one of the fastest growth rates of all renewable energy sources [1]. The cost of offshore wind energy has decreased dramatically in recent years [2], further cost reduction can be achieved. Offshore Wind Turbines (OWTs) are designed following the limit state philosophy. One of the considered states is the Serviceability Limit State (SLS), which deals with the appropriate operation and appearance of the structure. The SLS requires verification that the permanent rotation of the foundation at the end of lifetime is below a project specific criterion. Despite codes and design guidelines indicating how to estimate loads on OWTs, there is no guidance nor consensus on an accepted methodology to estimate the accumulated or the permanent rotation
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