What is a crowbar in a wind turbine?

A crowbar is implemented between the generator and converter to prevent short circuit in the wind energy system, which may result in high current and high voltage. The RSC converter controls the flux of the DFIG wind turbine, which operates at the slip frequency that depends on the rotor speed of the generator.

Why do copper windings lose power?

Copper windings losses are the result of the high electric currents through the conductors. Owing to stack lamination eddy currents and hysteresis, and despite the low frequency (11 Hz), there are some iron losses.

What are wind turbine generator technologies?

This chapter presents an overview of wind turbine generator technologies and compares their advantages and drawbacks used for wind energy utilization. Traditionally, DC machines, synchronous machines and squirrel-cage induction machines have been used for small scale power generation.

How does a geared wind turbine work?

In a geared wind turbine, the generator speed increases with the gear ratio so that the reduction in machine weight is offset by the gain in gearbox weight. For instance, the wind turbine operates at a speed of 15 rpm and the generator is designed to operate 1200 rpm (for 60 Hz) .

How to optimize a wind turbine generator?

One of key components in the wind turbine is its drive train, which links aerodynamic rotor and electrical output terminals. Optimization of wind turbine generators can not be realized without considering mechanical, structural, hydraulic and magnetic performance of the drive train.

How does a wind turbine control system work?

Control system evaluates the generator torque Tem, pith angle β, and reactive power references as a function of wind speed and grid voltage as shown in Fig. 2.12. The main objective of the wind turbine is to convert the kinetic energy of the wind into a rotational mechanical power that is transmitted through the mechanical gearbox to the DFIG.