Impedance of Surface Footings on Layered Ground

Lars Andersen; Johan Clausen

doi:10.1016/j.compstruc.2007.05.030

Impedance of Surface Footings on Layered Ground

Lars Andersen, Johan Clausen

Research output: Contribution to journal › Journal article › Research › peer-review

64 Citations (Scopus)

Abstract

Traditionally only the static bearing capacity and stiffness of the ground is considered in the design of wind turbine foundations. However, modern wind turbines are flexible structures with resonance frequencies as low as 0.2 Hz. Unfortunately, environmental loads and the passage of blades past the tower may lead to excitation with frequencies of the same order of magnitude. Therefore, dynamic soilstructure interaction has to be accounted for in order to get an accurate prediction of the structural response. In this paper the particular problem of a rigid foundation on a layered subsoil is discussed. Based on the Green's function for a stratified half-space, the impedance of a surface footing with arbitrary shape is computed. A wind turbine foundation is analysed in the frequency range 0-3 Hz. Analyses show that soil stratification may lead to significant changes in the impedance related to both rocking and translation at frequencies close to the first resonance frequency of an offshore wind turbine.

Original language	English
Journal	Computers & Structures
Volume	86
Issue number	1-2
Pages (from-to)	72–87
ISSN	0045-7949
DOIs	https://doi.org/10.1016/j.compstruc.2007.05.030
Publication status	Published - 2008

Keywords

Domain-transformation method
Boundary elements
Wind turbine
Foundation
Footing
Layered soil
Dynamic stiffness

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title = "Impedance of Surface Footings on Layered Ground",

abstract = "Traditionally only the static bearing capacity and stiffness of the ground is considered in the design of wind turbine foundations. However, modern wind turbines are flexible structures with resonance frequencies as low as 0.2 Hz. Unfortunately, environmental loads and the passage of blades past the tower may lead to excitation with frequencies of the same order of magnitude. Therefore, dynamic soilstructure interaction has to be accounted for in order to get an accurate prediction of the structural response. In this paper the particular problem of a rigid foundation on a layered subsoil is discussed. Based on the Green's function for a stratified half-space, the impedance of a surface footing with arbitrary shape is computed. A wind turbine foundation is analysed in the frequency range 0-3 Hz. Analyses show that soil stratification may lead to significant changes in the impedance related to both rocking and translation at frequencies close to the first resonance frequency of an offshore wind turbine.",

keywords = "Domain-transformation method, Boundary elements, Wind turbine, Foundation, Footing, Layered soil, Dynamic stiffness",

author = "Lars Andersen and Johan Clausen",

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language = "English",

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pages = "72–87",

journal = "Computers & Structures",

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TY - JOUR

T1 - Impedance of Surface Footings on Layered Ground

AU - Andersen, Lars

AU - Clausen, Johan

PY - 2008

Y1 - 2008

N2 - Traditionally only the static bearing capacity and stiffness of the ground is considered in the design of wind turbine foundations. However, modern wind turbines are flexible structures with resonance frequencies as low as 0.2 Hz. Unfortunately, environmental loads and the passage of blades past the tower may lead to excitation with frequencies of the same order of magnitude. Therefore, dynamic soilstructure interaction has to be accounted for in order to get an accurate prediction of the structural response. In this paper the particular problem of a rigid foundation on a layered subsoil is discussed. Based on the Green's function for a stratified half-space, the impedance of a surface footing with arbitrary shape is computed. A wind turbine foundation is analysed in the frequency range 0-3 Hz. Analyses show that soil stratification may lead to significant changes in the impedance related to both rocking and translation at frequencies close to the first resonance frequency of an offshore wind turbine.

AB - Traditionally only the static bearing capacity and stiffness of the ground is considered in the design of wind turbine foundations. However, modern wind turbines are flexible structures with resonance frequencies as low as 0.2 Hz. Unfortunately, environmental loads and the passage of blades past the tower may lead to excitation with frequencies of the same order of magnitude. Therefore, dynamic soilstructure interaction has to be accounted for in order to get an accurate prediction of the structural response. In this paper the particular problem of a rigid foundation on a layered subsoil is discussed. Based on the Green's function for a stratified half-space, the impedance of a surface footing with arbitrary shape is computed. A wind turbine foundation is analysed in the frequency range 0-3 Hz. Analyses show that soil stratification may lead to significant changes in the impedance related to both rocking and translation at frequencies close to the first resonance frequency of an offshore wind turbine.

KW - Domain-transformation method

KW - Boundary elements

KW - Wind turbine

KW - Foundation

KW - Footing

KW - Layered soil

KW - Dynamic stiffness

U2 - 10.1016/j.compstruc.2007.05.030

DO - 10.1016/j.compstruc.2007.05.030

M3 - Journal article

SN - 0045-7949

VL - 86

SP - 72

EP - 87

JO - Computers & Structures

JF - Computers & Structures

IS - 1-2

ER -

Impedance of Surface Footings on Layered Ground

Abstract

Keywords

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