29 citations as recorded by crossref.

1. Numerically efficient fatigue life prediction of offshore wind turbines using aerodynamic decoupling C. Chen et al.
2. Influence of soil hysteretic damping on lateral response of offshore wind turbine monopile in sandy soil A. Shirzoi et al.
3. Frequency-domain approach of aero-hydro-elastic response for offshore bottom-mounted slender structures under wind and wave Z. Ti et al.
4. Modelling wind turbine tower-rotor interaction through an aerodynamic damping matrix C. Chen et al.
5. Effective foundation damping prediction of monopile-supported offshore wind turbines based on integrated fitting equation and PSO–SVM algorithm H. Zhu et al.
6. A numerically efficient framework in failure mode evaluation of a wind turbine tower under cyclones Y. Chen et al.
7. Active learning with a multi-point enrichment strategy for Multi-Location Fatigue Assessment of offshore wind turbines C. Ren & Y. Xing
8. Data-Driven Fatigue Reliability Evaluation of Offshore Wind Turbines under Floating Ice Loading T. Wu et al.
9. A semi-analytical model of aerodynamic damping for horizontal axis wind turbines and its applications R. Xi et al.
10. Cloud-based seismic fragility analysis of operating offshore wind turbine with stochastic coupling of wind-wave-earthquake excitations M. Wang et al.
11. An efficient approach for time-domain fatigue analysis for semi-submersible hulls of floating wind turbines S. Wang et al.
12. Dynamic Responses for WindFloat Floating Offshore Wind Turbine at Intermediate Water Depth Based on Local Conditions in China S. Gao et al.
13. Closed-form derivation of aerodynamic damping matrix and pitch vector of an aero-servo-elastic wind turbine system Z. Zhang et al.
14. Partial self-centring dampers for wind turbine structures: Experimental study and structural behaviour K. Ke et al.
15. A review of the ground seismic vibrations induced by wind-turbines: Controls, issues and opportunities M. Mangriotis et al.
16. Decoupled Modelling Approaches for Environmental Interactions with Monopile-Based Offshore Wind Support Structures P. van der Male et al.
17. Coupling Soil–Fluid–Structure Domains by Localized Lagrange Multipliers Mixed Formulation (u, p) for Modeling Offshore Wind Turbine Vibration F. Ilson da Silva et al.
18. Modelling damping sources in monopile‐supported offshore wind turbines C. Chen & P. Duffour
19. Do cyclone impacts really matter for the long-term performance of an offshore wind turbine? Y. Chen et al.
20. High-fidelity aero-elastic decoupling approach for dynamic response analysis of offshore wind turbines Y. Lai et al.
21. Performance study of the QuLAF pre-design model for a 10 MW floating wind turbine F. Madsen et al.
22. A novel self-centring jacket-type offshore wind turbine structure: A proof-of-concept study and seismic fragility analysis K. Ke et al.
23. Influence of local scour on the dynamic responses of OWTs under wind-wave loads Y. Yao et al.
24. Copula-based seismic reliability analysis of offshore wind turbines under offshore and onshore earthquakes P. Wang et al.
25. Review of methods to assess the structural response of offshore wind turbines subjected to ship impacts I. Ladeira et al.
26. Estimation of long-term fatigue damage of fixed substructures using fully-coupled models and non-linear dynamic analysis I. Couceiro et al.
27. Partial self-centring wind turbine structures: Structural behaviour insights and seismic fragility analysis X. Zhou et al.
28. Investigation of soil damping for offshore wind turbine monopile-soil system in stiff clay on elastoplastic-damage model A. Shirzoi et al.
29. Semi-active vibration control analysis of embedded rock-socketed jacket offshore wind turbines considering time-varying aerodynamic damping X. Wang et al.