Permanent magnet synchronous generator for tidal turbine application in Raz Blanchard — Modeling and control strategy
Résumé
This paper presents the control strategy of the permanent magnet synchronous generator (PMSG) destined to Raz Blanchard's tidal turbine application. Used PMSG presents a rated power of 2 MW connected to a tidal turbine with a radius of 10 m. The produced energy is injected in electrical grid with line to line RSM voltage of 20kV-50Hz. The used converter for energy management is based on back-to-back configuration. Proposed control strategies are implemented in Matlab/Simulink software for system simulations. The simulations are done using the tidal current magnitude obtained from hydrodynamic model, and obtained results are presented and analyzed.
Mots clés
Wind turbines
Velocity control
Voltage control
Reactive power control
Permanent magnets
Mathematical model
energy management systems
hydrodynamics
machine control
permanent magnet generators
power convertors
power grids
synchronous generators
tidal power stations
Raz Blanchard tidal turbine application
hydrodynamic model
tidal current magnitude
back-to-back configuration
energy management
line to line RSM voltage
electrical grid
PMSG control strategy
permanent magnet synchronous generator
power 2 MW
voltage 20 kV
frequency 50 Hz
Control strategy
Energetic capability
Generator
Maximum power point tracking (MPPT)
Permanent Magnet Synchronous generator
Renewable energy
tidal-turbine