Abstract
Reliable assessment of the fatigue life of offshore wind monopiles operating in harsh offshore environments relies on quantifying the level of residual stresses locked-in at circumferential weld regions. This study presents, for the first time, residual stress characterisation, using the contour method, on a large structural welded mock-up, typical of the weldment used in offshore wind monopiles. The contour method and neutron diffraction measurements were also conducted on a compact tension specimen extracted from the large mock-up. The extracted compact tension sample, typically used for fracture and fatigue crack growth tests, showed notably significant remnant residual stresses that could impact fracture and fatigue test results. In addition the measured 2D map of transverse residual stresses, acting normal to the crack plane, playing a key role in fatigue crack opening/closure, exhibited variations through the thickness of the compact tension sample. The key conclusion was that the residual stresses in small laboratory samples extracted from large scale weldments should be carefully characterised and taken into account in structural integrity tests. Besides, the measurement results on the welded mock-up showed that the level of damaging tensile residual stress in large-scale mock-ups and hence real size structural welded monopiles is considerably larger than residual stresses in extracted laboratory samples; hence will have more significant influence on structural integrity of offshore wind assets.
Highlights
Renewable energy resources play a key role to mitigate greenhouse gas emissions, global temperature rises and provide energy security
The results obtained from this study have shown that in order to accurately characterise fatigue crack initiation and propagation behaviour in monopile welded structures, realistic values of residual stresses which are much greater than the remaining residual stresses in C(T) specimens must be considered in structural testing and analyses
The design and structural integrity codes and standards for offshore wind structures do not take into account explicitly the effect of residual stresses
Summary
Renewable energy resources play a key role to mitigate greenhouse gas emissions, global temperature rises and provide energy security. There is currently high level of uncertainty and conservatism in the existing codes and standards for the design process or lifetime and structural integrity assessment of monopiles due to the lack of consideration of residual stress effects This is crucial due to the fact that unlike many other industries such as nuclear no post weld heat treatment is performed on monopiles because of the size and cost issues. The following sections explain the details of the test specimens and the residual stress measurement techniques performed in this work The results from these measurements are presented and discussed in terms of the effect of residual stress on fatigue crack growth behaviour of monopile weldments in small-scale laboratory samples and real-size scale structures
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