Understanding of the wind type influences and interaction effectsīetween the semi-submersible platform and wind turbine. Of mooring line failure and resulting changes to the platform In addition, in order to validate the feasibilityĪnd safety of the mooring system with redundancy design, the influences
Tension of mooring system, blade deformation and force on tower areĪnalyzed and compared. TheĮffects of uniform and dynamic winds on platform motion, effective Servo-elastic model is established in AQWA-OrcaFlex-FAST. In this study, the semi-submersible DeepCwind with NREL 5-MWīaseline turbine is selected as reference platform, corresponding 3× And theĬoupled aero-hydro-mooring dynamic modelings are studied on. Simulations of the performances of FOWT are carried out. The mechanical characteristics of a floating offshore wind Generation, blades, tower, floating foundation, mooring system and School of Civil Engineering and Transportation, South China University of TechnologyĪ horizontal axis floating wind turbine is mainly composed of power Study on the Influences of Uniform and Dynamic Winds on Coupled Dynamic Response for a 5-MW Semi-Submersible FOWT Xinkuan Yan, Chaohe Chen, Yijun Shen, Yuan Ma, Tianhui Fan*
