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The pitch drives, inverter, and pitch control are the three main components of an electrical pitch system. In addition, there are backup systems like accumulators and ultra-capacitors that allow a turbine to be propelled out of the wind safely even in the case of a grid failure.
The pitch system regulates the rotor speed by changing the blades’ angle in relation to the wind. The pitch system regulates how much energy a turbine’s blades can collect by changing the blades’ angle. Pitch controls in wind turbines rotate the blades so that they utilise the highest amount of the available wind energy while also preventing the turbine from rotating faster than it is designed to.
There are typically two types of pitch controls: electric and hydraulic. Pitch control is not only applicable under failsafe circumstances. There are typically two types of pitch controls: electric and hydraulic. Pitch control is not only applicable under failsafe circumstances.
The global electrical pitch system market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
At Europe’s biggest wind energy exhibition, taking place in Vienna, Moog, a leader in offering blade pitch control, slip ring, and rotor monitoring solutions for the wind energy industry, showcases its most recent AC Moog Wind Turbine Pitch System.
For wind turbine pitch control, Moog’s innovative modular systems and technologies offer further benefits in terms of safety, dependability, and lowering the overall cost of energy. A pitch system tracks and modifies the angle of the wind turbine blades, which regulates the rotor’s rotational speed.
The pitch platform from Moog has a number of cutting-edge features that will help both turbine operators and manufacturers. By creating a more modular, compact AC architecture, Moog’s engineers significantly reduced complexity. In order to improve the system’s reliability, this decreased the overall number of different components in the system.
Less downtime for maintenance and increased productivity are advantages for turbine makers and operators. The operator’s cost of producing energy is reduced as a result. Additionally, the safety and dependability of the Moog AC Pitch Servo technology have been established.
The TÜV certified the Moog Pitch Servo Drives (Pitchmaster II and Pitchmaster II+ models) as complying with the international standard ISO 13849-1 and the certification guideline GL2010.
