Friction torque of wind-turbine pitch bearings-comparison of experimental results with available models

Matthias Stammler; Fabian Schwack; Norbert Bader; Andreas Reuter; Gerhard Poll

doi:10.5194/wes-3-97-2018

Friction torque of wind-turbine pitch bearings-comparison of experimental results with available models

Matthias Stammler^*, Fabian Schwack, Norbert Bader, Andreas Reuter, Gerhard Poll

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

22 Citations (Scopus)

Abstract

Pitch bearings of wind turbines are large, grease-lubricated rolling bearings that connect the rotor blades with the rotor hub. They are used to turn the rotor blades to control the power output and/or structural loads of the turbine. Common actuators turning the blades are hydraulic cylinders or electrical motor-gearbox combinations. In order to design pitch actuator systems that are able to turn the blades reliably without imposing an excessive power demand, it is necessary to predict the friction torque of pitch bearings for different operating conditions. In this paper, the results of torque measurements under load are presented and compared to results obtained using different calculation models. The results of this comparison indicate the various sources of friction that should be taken into account for a reliable calculation model.

Original language	English
Pages (from-to)	97-105
Number of pages	9
Journal	Wind Energy Science
Volume	3
Issue number	1
DOIs	https://doi.org/10.5194/wes-3-97-2018
Publication status	Published - 17 Jan 2018
Externally published	Yes

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Cite this

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abstract = "Pitch bearings of wind turbines are large, grease-lubricated rolling bearings that connect the rotor blades with the rotor hub. They are used to turn the rotor blades to control the power output and/or structural loads of the turbine. Common actuators turning the blades are hydraulic cylinders or electrical motor-gearbox combinations. In order to design pitch actuator systems that are able to turn the blades reliably without imposing an excessive power demand, it is necessary to predict the friction torque of pitch bearings for different operating conditions. In this paper, the results of torque measurements under load are presented and compared to results obtained using different calculation models. The results of this comparison indicate the various sources of friction that should be taken into account for a reliable calculation model.",

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AU - Bader, Norbert

AU - Reuter, Andreas

AU - Poll, Gerhard

PY - 2018/1/17

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N2 - Pitch bearings of wind turbines are large, grease-lubricated rolling bearings that connect the rotor blades with the rotor hub. They are used to turn the rotor blades to control the power output and/or structural loads of the turbine. Common actuators turning the blades are hydraulic cylinders or electrical motor-gearbox combinations. In order to design pitch actuator systems that are able to turn the blades reliably without imposing an excessive power demand, it is necessary to predict the friction torque of pitch bearings for different operating conditions. In this paper, the results of torque measurements under load are presented and compared to results obtained using different calculation models. The results of this comparison indicate the various sources of friction that should be taken into account for a reliable calculation model.

AB - Pitch bearings of wind turbines are large, grease-lubricated rolling bearings that connect the rotor blades with the rotor hub. They are used to turn the rotor blades to control the power output and/or structural loads of the turbine. Common actuators turning the blades are hydraulic cylinders or electrical motor-gearbox combinations. In order to design pitch actuator systems that are able to turn the blades reliably without imposing an excessive power demand, it is necessary to predict the friction torque of pitch bearings for different operating conditions. In this paper, the results of torque measurements under load are presented and compared to results obtained using different calculation models. The results of this comparison indicate the various sources of friction that should be taken into account for a reliable calculation model.

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Friction torque of wind-turbine pitch bearings-comparison of experimental results with available models

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