Download This PaperA Multi-Drive Aerodynamic Load Simulator for Floating Wind Turbine Model Tests: Development, Test and Application
17 Pages Posted: 28 Apr 2023
Abstract
Accurate simulation of the aerodynamic loads is strictly required in the integrated model test of Floating Wind Turbines (FWTs). In this paper, a Multi-drive Aerodynamic Loading Simulator (MALS) is designed and manufactured dedicatedly for FWT model tests, with high-performance individually-controlled UAV (unmanned aerial vehicle) propellers serving as the actuators. Extensive performance evaluation tests are carried out, showing that the developed MALS can generate desired aerodynamic thrusts with satisfying accuracy for both steady and unsteady cases. The maximum change rate of the MALS-generated thrust is about 30 N/s, and over 95% of the fluctuation energy of rotor thrust in the dominant frequency band can be accurately reproduced, covering the requirements of practical wind turbines. Afterwards, a hybrid model test system is constructed based on the proposed MALS, helping to revealing the underlying coupling dynamics of FWT system. In addition, a FWT testing system incorporating a tuned mass damper is constructed. The MALS performs well as a highly controllable actuator, contributing to the FWT tests associated with advanced controllers.
Keywords: Floating wind turbine, model test, Load Simulator, Coupling Dynamics, vibration control, Tuned Mass Damper (TMD)
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