Abstract
Various types of support structures for offshore wind turbine have been developed, and concrete structures have attracted attention due to many advantages. Although many studies have been conducted on the design of the existing steel structures, information and research on the design of concrete support structures are insufficient. Therefore, in this paper, a structural analysis model of conical concrete support structure (CCSS) is established and design optimization is presented. A detailed performance evaluation and the design of prestressed concrete were performed under the marine conditions of Phase 1 test site of southwest offshore wind project in Korea. The fluid–soil–structure interaction (FSI) was applied using the added mass method and soil spring model to represent the effects of water and soil. With the result of quasi-static analysis, a post-tensioning design was implemented by applying prestressing steel, and CCSS showed sufficient rigidity. From the natural frequency analysis, CCSS has a dynamic structural stability, and, in response spectrum and time-history analyses, the CCSS was safe enough under the earthquake loads. The methods and conclusions of this study can provide a theoretical reference for the structural analysis and design of concrete support structures for offshore wind turbines.
Highlights
Many fixed types of support structures for offshore wind turbines have been developed
Deflections and stresses occur in the piles due to the loads acting on the concrete support structure (CCSS)
This paper presents an analysis model and design optimization for a CCSS
Summary
Many fixed types of support structures for offshore wind turbines have been developed. Steel monopiles and jackets are most commonly used due to their advantages associated with manufacturing and installation, but they have several problems, such as corrosion and high costs. To overcome these problems, concrete has been used in support structures. Cost is a critical consideration when selecting the type of support structure for a given site. Referring to tender results of two projects named Middelgrunden and Nysted [1], market response in both cases very clearly showed that a concrete solution could be manufactured and installed at a lower price
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