The impact of scour on the lateral response of wind turbine monopiles: an experimental study
The impact of scour on the lateral response of wind turbine monopiles: an experimental study
The majority of offshore wind structures are supported on large-diameter, rigid monopile foundations. These piles may be subjected to scour due to the waves and currents that causes a loss of soil support and consequently decreases the pile capacity and system stiffness. The results of numerical models suggest that the shape of the scour hole affects the magnitude of pile capacity loss; however, there is a dearth of experimental test data that quantify this effect. This paper presents a series of centrifuge model tests on an instrumented model pile that investigates the effects of scour-hole geometry on the response of a laterally loaded pile embedded in sand. The pile instrumentation allowed load–displacement and p–y (soil reaction – displacement) curves to be derived. Three scour geometries (global, local wide, and local narrow) and three scour depths (1D, 1.5D, and 2D; where D is pile diameter) were modelled. For all three scour types, pile moment capacity decreased almost linearly with increase of scour depth. Simple empirical relations were proposed to evaluate the detrimental influence of scour on the pile moment capacity. A new method has been developed to allow designers to quantify the effect of scour-hole shape and severity of scour on the pile response.
1770-1782
Li, Qiang
fbe48bd4-925e-40a1-b7cb-36d902955bda
Askarinejad, Amin
dd81dca8-a27a-4049-9cac-8f560b33de63
Gavin, Kenneth
8f8b8677-c3bf-49d9-bd5d-7540ca0ac2a9
7 December 2021
Li, Qiang
fbe48bd4-925e-40a1-b7cb-36d902955bda
Askarinejad, Amin
dd81dca8-a27a-4049-9cac-8f560b33de63
Gavin, Kenneth
8f8b8677-c3bf-49d9-bd5d-7540ca0ac2a9
Li, Qiang, Askarinejad, Amin and Gavin, Kenneth
(2021)
The impact of scour on the lateral response of wind turbine monopiles: an experimental study.
Canadian Geotechnical Journal, 58 (11), .
(doi:10.1139/cgj-2020-0219).
Abstract
The majority of offshore wind structures are supported on large-diameter, rigid monopile foundations. These piles may be subjected to scour due to the waves and currents that causes a loss of soil support and consequently decreases the pile capacity and system stiffness. The results of numerical models suggest that the shape of the scour hole affects the magnitude of pile capacity loss; however, there is a dearth of experimental test data that quantify this effect. This paper presents a series of centrifuge model tests on an instrumented model pile that investigates the effects of scour-hole geometry on the response of a laterally loaded pile embedded in sand. The pile instrumentation allowed load–displacement and p–y (soil reaction – displacement) curves to be derived. Three scour geometries (global, local wide, and local narrow) and three scour depths (1D, 1.5D, and 2D; where D is pile diameter) were modelled. For all three scour types, pile moment capacity decreased almost linearly with increase of scour depth. Simple empirical relations were proposed to evaluate the detrimental influence of scour on the pile moment capacity. A new method has been developed to allow designers to quantify the effect of scour-hole shape and severity of scour on the pile response.
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Accepted/In Press date: 7 December 2020
Published date: 7 December 2021
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Local EPrints ID: 501295
URI: http://eprints.soton.ac.uk/id/eprint/501295
ISSN: 0008-3674
PURE UUID: 8857e164-f0a4-418a-a439-58bc9ad154eb
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Date deposited: 28 May 2025 16:52
Last modified: 29 May 2025 02:17
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Author:
Qiang Li
Author:
Amin Askarinejad
Author:
Kenneth Gavin
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