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Autores principales: Liu, Xin, Chen, Jianjun, Lei, Yu, Liu, Ruichao, Zhou, Yiming, Li, Han, Yuan, Jing
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2503.13860
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author Liu, Xin
Chen, Jianjun
Lei, Yu
Liu, Ruichao
Zhou, Yiming
Li, Han
Yuan, Jing
author_facet Liu, Xin
Chen, Jianjun
Lei, Yu
Liu, Ruichao
Zhou, Yiming
Li, Han
Yuan, Jing
contents Artificial reefs (ARs) are man-made structures deployed on the seabed to support benthic marine ecosystems. Their presence significantly damps the local flow and therefore can be used for scour protection of offshore wind monopiles. Although the concept appears feasible, the underlying flow-sediment process is very complex and has yet been systematically investigated. To fill in this gap, a set of fixed-bed flume tests were conducted to reveal the hydrodynamic details of two typical AR shapes (cubic and hemisphere) tightly placed around a monopile in a 3x3 pattern. In parallel, a set of live-bed tests were conducted to demonstrate the AR's efficiency in scour protection. The cubic ARs almost eliminate the downward flow on the upstream side of the monopile and reduces the wake flow by 50-80%. The hemisphere ARs also significantly weaken the wake flow but guide descending flow in front of the monopile. While cubic ARs decrease upstream and downstream scour depth by up to 100%, their edge scour can lead to ARs displacement and hence reduce scour protection. The hemisphere ARs provided less scour reduction, but also less edge scour, making them more adaptive to morphology changes. Based on these findings, an optimized AR layout was proposed.
format Preprint
id arxiv_https___arxiv_org_abs_2503_13860
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle An experimental study of using artificial reefs as scour protection around an offshore wind monopile
Liu, Xin
Chen, Jianjun
Lei, Yu
Liu, Ruichao
Zhou, Yiming
Li, Han
Yuan, Jing
Fluid Dynamics
Artificial reefs (ARs) are man-made structures deployed on the seabed to support benthic marine ecosystems. Their presence significantly damps the local flow and therefore can be used for scour protection of offshore wind monopiles. Although the concept appears feasible, the underlying flow-sediment process is very complex and has yet been systematically investigated. To fill in this gap, a set of fixed-bed flume tests were conducted to reveal the hydrodynamic details of two typical AR shapes (cubic and hemisphere) tightly placed around a monopile in a 3x3 pattern. In parallel, a set of live-bed tests were conducted to demonstrate the AR's efficiency in scour protection. The cubic ARs almost eliminate the downward flow on the upstream side of the monopile and reduces the wake flow by 50-80%. The hemisphere ARs also significantly weaken the wake flow but guide descending flow in front of the monopile. While cubic ARs decrease upstream and downstream scour depth by up to 100%, their edge scour can lead to ARs displacement and hence reduce scour protection. The hemisphere ARs provided less scour reduction, but also less edge scour, making them more adaptive to morphology changes. Based on these findings, an optimized AR layout was proposed.
title An experimental study of using artificial reefs as scour protection around an offshore wind monopile
topic Fluid Dynamics
url https://arxiv.org/abs/2503.13860