Evaluation of Soil–Foundation–Structure Interaction for Large Diameter Monopile Foundation Focusing on Lateral Cyclic Loading-Reference-Cited by-同舟云学术

Evaluation of Soil–Foundation–Structure Interaction for Large Diameter Monopile Foundation Focusing on Lateral Cyclic Loading

Published:2023-06-27 Issue:7 Volume:11 Page:1303
ISSN:2077-1312
Container-title:Journal of Marine Science and Engineering
language:en
Short-container-title:JMSE

Author:

Kim Jae-Hyun¹^ORCID,Jeong Yeong-Hoon²,Ha Jeong-Gon³^ORCID,Park Heon-Joon⁴^ORCID

Affiliation:

1. Department of Civil Engineering, Kangwon National University, Chuncheon-si 24341, Republic of Korea

2. Civil R&D Team, Daewoo E&C, Suwon-si 16297, Republic of Korea

3. Structural and Seismic Safety Research Division, Korea Atomic Energy Research Institute, Daejeon 34057, Republic of Korea

4. Department of Civil Engineering, Seoul National University of Science and Technology (SeoulTech), Seoul 01811, Republic of Korea

Abstract

In this study, the monotonic and cyclic behavior of an offshore wind turbine with a monopile foundation installed in a sand layer were evaluated in the centrifuge. A simplified offshore wind turbine was modeled, and the lateral load was applied to the tower under displacement control. The monotonic loading test evaluated ultimate lateral load capacity and bending moment profiles under different loading levels. During cyclic loading, variations of moment-rotation responses, cyclic stiffness, and bending moments along the pile were observed. The initial rotational stiffness of the monopile decreased as the loading level increased. In the fatigue limit state (FLS) and service limit state (SLS) loading conditions, no noticeable variation in stiffness was observed with the number of cycles. However, in the ultimate limit state (ULS), the stiffness of the monopile increased during the first few cycles, followed by a decreasing rate of increase, and reached a certain value. The loading rate had a weakening effect on the monopile–soil interaction, which was supported by the bending moments induced in the monopile.

Funder

Seoul National University of Science and Technology

Publisher

MDPI AG

Subject

Ocean Engineering,Water Science and Technology,Civil and Structural Engineering

Link

https://www.mdpi.com/2077-1312/11/7/1303/pdf

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