Local Scour around a Monopile Foundation for Offshore Wind Turbines and Scour Effects on Structural Responses

Qi, Wengang; Gao, Fuping

doi:10.5772/intechopen.88591

Cited by 8 publications

(4 citation statements)

References 91 publications

(100 reference statements)

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“…The implications vary with sediment composition; for example, areas underlain by marine clay show limited scour, while those with sandy sediments may experience scour depths up to 1.38 times the monopile diameter [121]. Monopiles with diameters up to 10 m are now feasible as the industry advances into deeper waters [122].…”

Section: Offshore Wind and Energy Strategymentioning

confidence: 99%

Winds of Change: Urgent Challenges and Emerging Opportunities in Submerged Prehistory, a Perspective from the North Sea

Gaffney,

Harding,

Fitch

et al. 2024

Heritage

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Development of the continental shelf has accelerated significantly as nations around the world seek to harness offshore renewable energy. Many areas marked for development align with submerged palaeolandscapes. Poorly understood and difficult to protect, these vulnerable, prehistoric landscapes provide specific challenges for heritage management. Indeed, there now appears to be a schism between what underwater cultural heritage policy intends and what it is achieving in practice. Shortcomings in international and national legislature ensures that large parts of the continental shelf, including areas under development, may have little or no legal protection. Increasingly impacted by extensive development, these unique cultural landscapes are ever more at risk. However, heritage challenges posed by such development also create opportunities. An immense amount of data is being generated by development, and there is an opportunity to establish broader cooperative relationships involving industrial stakeholders, national curators, government bodies, and heritage professionals. As a matter of urgency, the archaeological community must better engage with the offshore sector and development process. If achieved, we may revolutionise our knowledge of submerged prehistoric settlement and land use. Otherwise, our capacity to reconstruct prehistoric settlement patterns, learn from past climate change, or simply manage what are among the best-preserved postglacial landscapes globally may be irreparably undermined.

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Section: Offshore Wind and Energy Strategymentioning

confidence: 99%

Winds of Change: Urgent Challenges and Emerging Opportunities in Submerged Prehistory, a Perspective from the North Sea

Gaffney,

Harding,

Fitch

et al. 2024

Heritage

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“…Low-stress regimes have been explored in the context of traffic loads on granular bases (pavements and railroads) and seismic loads. In this study, we placed emphasis on higher stress regimes such as those created beneath tall buildings and adjacent to monopole foundations for wind turbines (Qi and Gao 2019;Ahmed and Hawlader 2016). All specimens experienced the same loading history (Fig.…”

Section: Test Proceduresmentioning

confidence: 99%

Long-Term Response of Sand Subjected to Repetitive Simple Shear Loading: Shakedown, Ratcheting, and Terminal Void Ratio

Cha

Park

Santamarina

2023

J. Geotech. Geoenviron. Eng.

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Low-amplitude repetitive drained loading may hinder the long-term performance of engineered and natural systems. This study examines the volumetric and shear response of a uniform quarzitic sand subjected to repetitive drained simple shear loading under constant vertical stress while tracking the evolution of the secant stiffness and the small-strain shear modulus. We explore the effects of initial density, initial shear stress and cyclic shear stress amplitude to identify criteria that can be used to anticipate asymptotic volumetric and shear states. We analyze experimental results in reference to the sand response under monotonic simple shear loading. All specimens evolved toward some asymptotic terminal void ratio e T when subjected to simple shear cycles. Contractive specimens exhibited unceasing shear strain accumulation and ratcheting when the normalized shear stress exceeded τ Ã ¼ ðτ o þ Δτ Þ=τ ult > 0.85; on the other hand, dense-dilative specimens exhibited ratcheting only when the normalized shear stress exceeded τ Ã ¼ ðτ o þ Δτ Þ=τ ult > 1.25. The small-strain G max and the secant G pp shear moduli increased during repetitive shear cycles to reflect early fabric changes followed by abrasion/fretting among enduring contacts. Results obtained in this study allow us to propose simple guidelines to predict the asymptotic shear and volumetric response of uniform sands subjected to repetitive simple shear loading for first-order engineering analyses.

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“…The bigger turbine size and deeper water depth bring out larger loads, which require more reliable and powerful foundations to resist them. Several new hybrid monopile foundations are proposed to support large-capacity wind turbines operating in deeper waters at a reasonable cost [6].…”

Section: Introductionmentioning

confidence: 99%

Lateral Bearing Capacity of a Hybrid Monopile: Combined Effects of Wing Configuration and Local Scour

Wang

et al. 2022

JMSE

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Pile foundations for offshore wind turbines are subjected to large lateral loads. By mounting wings on the perimeter of regular monopiles, winged monopiles have shown better performance in resisting deformation under horizontal loading. However, the hazardous effect of local scour on the lateral bearing capacity of winged monopiles installed in the sandy seabed has not been systematically evaluated. In this study, a modified Mohr–Coulomb model considering the pre-peak hardening and post-peak softening behavior of dense sand is adopted to simulate laterally loaded winged monopiles in the locally scoured sandy seabed, using three-dimensional finite element analyses. The effect of local scour depth on the lateral capacity of winged monopiles is examined and explained by soil failure mechanisms. The enhancement of lateral capacity with wings attached to the monopile is demonstrated to be more effective than extending pile embedment length. The effects of the relative density of sand and the wing load orientation are also discussed. Finally, the wing efficiency is evaluated to determine the optimal configuration of winged monopiles.

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Local Scour around a Monopile Foundation for Offshore Wind Turbines and Scour Effects on Structural Responses

Cited by 8 publications

References 91 publications

Winds of Change: Urgent Challenges and Emerging Opportunities in Submerged Prehistory, a Perspective from the North Sea

Winds of Change: Urgent Challenges and Emerging Opportunities in Submerged Prehistory, a Perspective from the North Sea

Long-Term Response of Sand Subjected to Repetitive Simple Shear Loading: Shakedown, Ratcheting, and Terminal Void Ratio

Lateral Bearing Capacity of a Hybrid Monopile: Combined Effects of Wing Configuration and Local Scour

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