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
- Mathematical model
- tidal-turbine
- synchronous generators
- power grids
- power convertors
- permanent magnet generators
- machine control
- hydrodynamics
- energy management systems
- Renewable energy
- Permanent magnets
- Reactive power control
- Voltage control
- Velocity control
- Wind turbines
- permanent magnet synchronous generator
- 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
- tidal power stations
- power 2 MW
- voltage 20 kV
- frequency 50 Hz
- Control strategy
- Energetic capability
- Generator
- Maximum power point tracking (MPPT)
- Permanent Magnet Synchronous generator