Experimental study of local scour around bucket foundation in sand

Laboratory flume experiments were conducted to study scour characteristics around bucket foundation under current only condition and current-wave condition. Scour topography from the experiments shows that the evolution of scour can be divided into three stages, rapid scouring stage, slow scouring s...

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Bibliographic Details
Published in:Ocean engineering 2023-10, Vol.286, p.115482, Article 115482
Main Authors: Zhao, Xueliang, Chen, Xinrui, Sui, Shuhuan, Deng, Wenni, Shen, Kanmin
Format: Article
Language:English
Subjects:
Flume experiment
Mono-bucket
Scour characteristics
Tripod-bucket
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Summary:Laboratory flume experiments were conducted to study scour characteristics around bucket foundation under current only condition and current-wave condition. Scour topography from the experiments shows that the evolution of scour can be divided into three stages, rapid scouring stage, slow scouring stage, and scouring equilibrium stage. Semicircular scour pit occurs in front of the bucket and herringbone siltation appears behind the bucket. Scour depth of the mono-bucket was compared with that of the unsubmerged monopile and submerged monopile. Slope of the scour pit is found to be smaller than the predicted value of the monopile. Maximum scour depth of the tripod-bucket foundation is shown to be affected by the factors including the ratio of exposed height to diameter H/D, the relative bucket spacing G/D, and the incoming flow angle α. The maximum scour depth increases with the increase of H/D. Scour depth of the inner side of the tripod-bucket foundation is shown to be significantly affected by G/D due to the jet effect. The rear bucket may be influenced by shielding effect or vortex shedding. And the incoming angle has influence on the scour development around tripod-bucket foundation. •Scour development can be divided into three stages. The maximum scour depth point occurs between 45° and 90° at front side of the bucket in the early stage.•S/D around mono-bucket increases with increase of KC number, and the maximum scour depth is smaller than that of the monopile.•Scour depth of the inner side of the tripod-bucket foundation is shown to be significantly affected by G/D due to the jet effect. When G/D ≥ 3.5, the jet effect can be ignored.
ISSN:0029-8018
1873-5258
DOI:10.1016/j.oceaneng.2023.115482