Various modal analysis methods are available for single-rotor wind turbines, but there is no report and guidance on the modal property analysis of multi-rotor wind turbines. This paper presents a dynamic modeling method for the modal response analysis of a wind turbine with two three-bladed isotropic rotors. The equations of motion are derived using Lagrange’s equations and are further linearized at a steady-state equilibrium. To avoid using Floquet Theory to remove the periodic coefficients, multi-blade coordinates are utilized. Comparison between the numerical simulations and a high-fidelity model in HAWC2 shows agreements in terms of modal frequencies. The results shows that the whirling modes splits into symmetric and asymmetric rotor modes.

Volume Subject Area:
14th International Conference on Multibody Systems, Nonlinear Dynamics, and Control
Topics:
Dynamic modeling, Rotors, Stability, Wind turbines, Blades, Computer simulation, Equations of motion, Equilibrium (Physics), Modal analysis, Steady state, Whirls
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