Abstract
Most of the reported centrifuge tests available in the existing literature on offshore wind turbine foundations are focused on the behaviour of monopiles in sands, but very few studies on clayey soils can be found, due to the very long saturation and consolidation periods required to properly conduct experiments in such materials. Moreover, most of the reported numerical simulations using finite element analyses have been validated with monotonic centrifuge tests only. In this research, both monotonic and cyclic performance of offshore wind turbines in clay are validated and justified. The relationship between the monopile rotation in clays and the geometry and strength of the soil has been found and quantified. A prediction of the rotation for a high number of cycles of loading, based on the one experienced by the pile during the first cycle, can be obtained using the correlation derived in the paper. For those cases in which the rotation does not reach a steady value after a high number of cycles, the cumulative rate has been found significantly larger than the prediction conducted with standard analytical methods. A new design methodology for the design of offshore monopile foundations in clay is presented.
Highlights
IntroductionPublisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations
As both the plasticity index and the over-consolidation ratio (OCR) are known, the correction factor Kc for each layer can be obtained from Figure 3
Mohr-Coulomb model, are merely focused on the pile rotation in the first cycle and its cumulative rate of rotation. Once both monotonic and cyclic models have been validated, a set of simulations has been conducted to investigate the cyclic behaviour of monopiles with different geometries and types of clay
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. Global warming due to Greenhouse Gas (GHG) emissions is presently threatening the economy and living conditions of the world’s population [1]. The reduction of carbon emissions has become an important issue. The amount of these emissions can be reduced by improving the energy efficiency and developing cleaner alternatives for its production
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