2014
DOI: 10.1063/1.4863986
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Seismic response of large-scale prestressed concrete bucket foundation for offshore wind turbines

Abstract: Sandy ocean soil is vulnerable to liquefaction under seismic action. This paper describes the structural design of a new large-scale prestressed concrete bucket foundation (LSPCBF) for offshore wind turbines that take the seismic response of the foundation into consideration. Using an integrated finite element model of the soil, bucket foundation, and upper structure that incorporates infinite elements for the soil boundary, the dynamic responses of the upper structure, the bucket foundation, and the soil surr… Show more

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Cited by 45 publications
(18 citation statements)
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“…A similar type of a large concrete bucket foundation was also analyzed in the time domain by Zhang et al . . They developed a detailed FE model, which was excited by three strong ground motions selected on the basis of the Chinese design code.…”
Section: Seismic Evaluation Of Wind Turbines Based On Numerical Simulmentioning
confidence: 99%
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“…A similar type of a large concrete bucket foundation was also analyzed in the time domain by Zhang et al . . They developed a detailed FE model, which was excited by three strong ground motions selected on the basis of the Chinese design code.…”
Section: Seismic Evaluation Of Wind Turbines Based On Numerical Simulmentioning
confidence: 99%
“…The latter was profound for the large pile sizes typical of the offshore wind turbines. The high computational sources required for the dynamic analysis of the entire FE model (i.e., consisting of the wind turbine along with the underneath soil‐foundation system) did not inhibit other researches from applying this time‐costly procedure to elaborate the SSI effects on wind turbines seismic performance (e.g.,). Along these lines, Prowell et al .…”
Section: Seismic Evaluation Of Wind Turbines Based On Numerical Simulmentioning
confidence: 99%
“…However, the anti-liquefaction effect of the composite bucket foundation has an obvious advantage because the high overburden pressure of the large-scale concrete structure and the circle constraints of the bucket on the inner soil can greatly improve the liquefaction resistance of the inner soil. 11 The cyclic liquefaction resistance of the soil inside or directly below the bucket foundation is much larger than that outside the bucket foundation. The bucket applies confining pressure, which greatly improves the liquefaction resistance of the inner soil.…”
Section: Introductionmentioning
confidence: 99%
“…The new foundation innovated by a research group at Tianjin University is based on the conventional bucket foundation and, for the first time, which are proposed as a composite bucket foundation for offshore wind turbines suitable for the marine area offshore of China (high wind speeds and soft ground) Liu et al, 2014;Lian et al, 2012Lian et al, , 2014Zhang et al, 2014Zhang et al, , 2015Zhang et al, ,a, 2015b. The only CBF for a fully operational wind turbine of 2.5 MW was installed at the offshore test facility in Qidong City in the southeast of Jiangsu province in China in 2010.…”
Section: Introductionmentioning
confidence: 99%