Effect of scour erosion on mode shapes of a 5 MW monopile-supported offshore wind turbine

[1]  C. Reale,et al.  Impact of Geotechnical Uncertainty on the Preliminary Design of Monopiles Supporting Offshore Wind Turbines , 2021, ASCE-ASME J Risk and Uncert in Engrg Sys Part B Mech Engrg.

[2]  Hao Leng,et al.  Deformation Analysis of Large Diameter Monopiles of Offshore Wind Turbines under Scour , 2020, Applied Sciences.

[3]  G. Houlsby,et al.  Application of the PISA design model to monopiles embedded in layered soils , 2020, Géotechnique.

[4]  Chris M. Martin,et al.  PISA design model for monopiles for offshore wind turbines: application to a marine sand , 2020, Géotechnique.

[5]  L. Kepko,et al.  Power Spectral Density Background Estimate and Signal Detection via the Multitaper Method , 2020, Journal of Geophysical Research: Space Physics.

[6]  A. Askarinejad,et al.  Centrifuge Modeling of the Impact of Local and Global Scour Erosion on the Monotonic Lateral Response of a Monopile in Sand , 2020, Geotechnical Testing Journal.

[7]  E. Darvishan,et al.  Real-time damage detection of bridges using adaptive time-frequency analysis and ANN , 2019, Numerical Methods in Civil Engineering.

[8]  L. Prendergast,et al.  Performance of CPT-based methods to assess monopile driveability in North Sea sands , 2018, Ocean Engineering.

[9]  D. Myrhaug,et al.  Effects of Soil Profile Variation and Scour on Structural Response of an Offshore Monopile Wind Turbine , 2018 .

[10]  Nilanjan Saha,et al.  Effect of scouring in sand on monopile-supported offshore wind turbines , 2017 .

[11]  M. Randolph,et al.  Scour effects on p-y curves for shallowly embedded piles in sand , 2016 .

[12]  Luke J. Prendergast,et al.  A comparison of initial stiffness formulations for small-strain soil-pile dynamic Winkler modelling , 2016 .

[13]  Luke J. Prendergast,et al.  An investigation into the effect of scour on the natural frequency of an Offshore Wind Turbine , 2015 .

[14]  Vicente Negro,et al.  Uncertainties in the design of support structures and foundations for offshore wind turbines , 2014 .

[15]  Vicente Negro,et al.  Scour prediction and scour protections in offshore wind farms , 2013 .

[16]  Søren Peder Hyldal Sørensen,et al.  Assessment of foundation design for offshore monopiles unprotected against scour , 2013 .

[17]  Yasser E. Mostafa Effect of Local and Global Scour on Lateral Response of Single Piles in Different Soil Conditions , 2012 .

[18]  Byron W. Byrne,et al.  Response of stiff piles in sand to long-term cyclic lateral loading , 2010 .

[19]  J. Mani,et al.  The behavior of laterally loaded piles subjected to scour in marine environment , 2009 .

[20]  Caroline Bennett,et al.  Evaluation of Behavior of a Laterally Loaded Bridge Pile Group under Scour Conditions , 2009 .

[21]  Rune Brincker,et al.  Modal identification of output-only systems using frequency domain decomposition , 2001 .

[22]  J. R. Morison,et al.  The Force Exerted by Surface Waves on Piles , 1950 .

[23]  A. Askarinejad,et al.  Influence of scour depth and type on p–y curves for monopiles in sand under monotonic lateral 1 loading in a geotechnical centrifuge , 2020 .

[24]  Luke J. Prendergast,et al.  Probabilistic examination of the change in eigenfrequencies of an offshore wind turbine under progressive scour incorporating soil spatial variability , 2018 .

[25]  Subhamoy Bhattacharya,et al.  Design of monopiles for offshore wind turbines in 10 steps , 2017 .

[26]  Jean-Louis Briaud,et al.  Is Scour Important for Pile Foundation Design in Deepwater , 2009 .

[27]  M. B. Zaaijer,et al.  The effects of Scour on the design of Offshore Wind Turbines , 2004 .