DYNAMIC RESPONSE ANALYSIS OF AN ULTRA-LARGE SEMI-SUBMERSIBLE FLOATING WIND TURBINE UNDER SECOND-ORDER WAVE FORCES

For DTU（Technical University of Denmark，DTU）10 MW wind turbines，the fully coupled analysis for the semi-submersible floating offshore wind turbine （FOWT） system was conducted by using FAST software under the typical sea states with different hydrodynamic components to compare and analyze the effect of second-order difference- and sum-frequency wave forces on the dynamic responses of the ultra-large semi-submersible FOWT，including only first-order wave force，first- and second-order difference-frequency wave forces calculated by Newman’s approximation and full-field quadratic transfer functions（QTFs），respectively，first- and second-order sum-frequency wave forces calculated by full-field QTFs，and first- and complete second-order wave forces calculated by full-field QTFs. Based on the fatigue calculation theory of the wind turbine structure，the effect of second-order difference- and sum-frequency wave forces on the fatigue failure of the wind turbine structure is analyzed. The study found that under extreme sea states，second-order difference-frequency wave force has a significant effect on the platform motions，and the second-order difference- and sum-frequency wave forces has a significant effect on the structural loads and fatigue failure of the semi-submersible FOWT. In addition，the Newman’s approximation method obviously underestimates the effect of second- order difference- frequency wave forces on the dynamic response of the semisubmersible FOWT. © 2023 Science Press. All rights reserved.