About 3MW wind turbine measurement and control system
The systematic development process from —with comprehensive system simulations, SiL and HiL tests—aims to reduce the application complexity arising during the commissioning of an MPC system in the real WT. The holistic design and testing approach strives for shifting most of the.
The maximization of the power output is the first control objective of the MPC system. To this end, we analyze the generated electrical power. First, we compare the experimental field.
The mitigation of the dynamic mechanical loads is the second control objective of the MPC system. A direct analysis of the mechanical loads arising in the field test demands a WT setup with.
We use an accelerometer inside the nacelle in order to measure the tower top acceleration in fore-aft direction. Fig. 4 shows an FFT plot for the tower top acceleration in fore-aft direction for both the BC and the MPC system of the experimental field test data. Fig. 4 also depicts the WT’s natural frequencies f1–f6 (see Table 1) as well as the.
Incremental encoders measure the rotor and generator speeds. These rotational speeds indicate occurring dynamic mechanical loads in the drivetrain. Fig. 5 and Fig. 6show FFT plots for the measured generator speed and the deviation of the rotor and generator speed of the experimental field test data of both the BC and the MPC system. In.This paper develops a comprehensive, detailed model of 3MW PMSG variable speed wind turbine system. The system consists of a wind turbine model including an aerodynamic and a mechanical model. Another part of the system is the electrical system and its control structure.
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About 3MW wind turbine measurement and control system video introduction
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