Optimising design parameters for offshore wind MP-TP wedge connection technology using analytical techniques

Ryan, Helen and Annoni, Alessandro and Winkes, Jasper and Mehmanparast, Ali (2023) Optimising design parameters for offshore wind MP-TP wedge connection technology using analytical techniques. Ocean Engineering, 268. 113562. ISSN 0029-8018 (https://doi.org/10.1016/j.oceaneng.2022.113562)

[thumbnail of Ryan-etal-OE-2023-Optimising-design-parameters-for-offshore-wind-MP-TP-wedge]
Preview
Text. Filename: Ryan_etal_OE_2023_Optimising_design_parameters_for_offshore_wind_MP_TP_wedge.pdf
Final Published Version
License: Creative Commons Attribution 4.0 logo

Download (10MB)| Preview

Abstract

The offshore wind industry is a rapidly growing sector and will likely play a significant role in the future of green energy. Monopile support structures are the dominant foundation type in offshore wind turbines. Existing monopile to transition piece technologies have a number of challenges, and a new design, called wedge connection, presents a promising solution. In the present study analytical techniques, supported with finite element modelling, have been used to optimise the wedge connection design. A spring model was created and solved for both the application of the preload and the combination of the preload and the external force. A lower bound on the preload that would ensure the connection does not become loose was found. The self-locking mechanism was shown to be not a required design feature. The optimum number of wedge connections in one offshore wind turbine has been found as a function of the width of the connection and the monopile diameter. It has been shown that laboratory experiments on a single segment of wedge connection are likely to be conservative due to a higher stress concentration factor than in the full structure.

ORCID iDs

Ryan, Helen, Annoni, Alessandro, Winkes, Jasper and Mehmanparast, Ali ORCID logoORCID: https://orcid.org/0000-0002-7099-7956;