Maximizing wind turbine efficiency requires turbine placement where steady winds are present and wind turbine alignment with the wind. Alignment with the wind requires use of a wind vane and yaw controller, frequently hydraulically powered and monitored through use of a pressure transducer. As wind speeds approach the survival speed, the speed at which the wind turbine with begin to fail both mechanically and structurally, the blade angle of attack or pitch must be increased in order to stall the blade and prevent the turbine from spinning out of control. Hydraulic control systems use pressure transducers for wind turbine pitch control. The following diagram indicates the basic components of wind turbines.
Pressure Transducer Application to Wind Turbines in Alternative Energy Generation Applications
Pressure Transducers are used for Wind Turbines in Energy and Power Generation in the following Alternative Energy Generation Applications
- Yaw Hydraulic Cylinder Pressure Measurement and Control
- Pitch Hydraulic Cylinder Pressure Measurement and Control
Alternative Energy Generation Wind Turbines in Energy and Power Generation applications call for pressure transducer material compatibility with standard hydraulic fluids and with 24-hour-a-day, reliable operation. Pressure transducers are responsible for indicating pressures within the hydraulic cylinders in charge of yaw and pitch control. The WIKA S-10 and A-10 electronic pressure transducers have been designed for reliable performance in Energy and Power Generation Alternative Energy Generation applications like Wind Turbines.