Numerical simulation of suction bucket foundation response located in liquefiable sand under earthquakes

The suction bucket foundation is considered as an effective option for offshore wind turbines because of its advantages in rapid installation and recyclability. However, the depth of the suction bucket inserted into the seabed is shallower compared to the monopile. Earthquakes and liquefaction threa...

Full description

Saved in:
Bibliographic Details
Published in:Ocean engineering 2021-09, Vol.235, p.109394, Article 109394
Main Authors: Gao, Bin, Ye, Guanlin, Zhang, Qi, Xie, Yi, Yan, Bin
Format: Article
Language:English
Subjects:
Earthquake response
Finite element analysis
Liquefaction
Offshore wind turbine
Suction bucket foundation
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The suction bucket foundation is considered as an effective option for offshore wind turbines because of its advantages in rapid installation and recyclability. However, the depth of the suction bucket inserted into the seabed is shallower compared to the monopile. Earthquakes and liquefaction threaten the safety and stability of suction bucket foundations in the North Sea of Europe and the Chinese offshore where earthquakes are active and the seabed is prone to liquefaction. This paper investigated the behavior of the suction bucket foundation located in the liquefiable sand under earthquakes using an advanced liquefaction model. The FE-FD method with the cyclic mobility constitutive model for soil was used to carry out the nonlinear dynamic analyses. Responses of the excess pore water pressure ratio, acceleration, displacement, and rotation were studied under different earthquake magnitudes and sand density. The distribution of excess pore water pressure of the suction bucket foundation from the results show strong space-time characteristics. The failure mechanism of the suction bucket foundation after liquefaction was revealed. The numerical results indicate that offshore wind turbines will be subjected to permanent displacements and tilt to reach 40% of the safety threshold due to earthquakes and liquefaction. Thus, seismic load and liquefaction of the foundation must be considered in the design. •Suction bucket foundation response under earthquakes was investigated using an advanced liquefaction model.•The excess pore water pressure ratio, acceleration, displacement, and rotation were studied.•The failure mechanism of the suction bucket foundation after liquefaction was revealed.•Seismic load and liquefaction of foundation are important items in the design.
ISSN:0029-8018
DOI:10.1016/j.oceaneng.2021.109394