论文信息 - Dynamic Modeling of Deepwater Offshore Wind Turbine Structures in Gulf of Mexico Storm Conditions

Dynamic Modeling of Deepwater Offshore Wind Turbine Structures in Gulf of Mexico Storm Conditions

A Fourier spectrum based model of Gulf of Mexico storm conditions is applied to a 6 degree of freedom analytic simulation of a moored, floating offshore structure fitted with three rotary wind turbines. The resulting heave, surge, and sway motions are calculated using a Newtonian Runge-Kutta method. The angular motions of pitch, roll, and yaw are also calculated in this time-domain progression. The forces due to wind, waves, and mooring line tension are predicted as a function of time over a 4000 second interval. The WAMIT program is used to develop the wave forces on the platform. A constant force coefficient is used to estimate wind turbine loads. A TIMEFLOAT computer code calculates the motion of the system based on the various forces on the structure and the system’s inertia.Copyright © 2006 by ASME

[1] J. N. Newman. Second-order, slowly-varying Forces on Vessels in Irregular Waves , 1974 .

[2] Andy J. Keane,et al. Dynamics of marine vehicles and structures in waves : proceedings of an International Union of Theoretical and Applied Mechanics Memorial Symposium on the Dynamics of Marine Vehicles and Structures in Waves, held at Brunel University, Uxbridge, U.K., 24-27 June 1990 , 1975 .

[3] Dominique Roddier,et al. MINIFLOAT: A Novel Concept of Minimal Floating Platform for Marginal Field Development , 2004 .