Rotational positioning system in a wind turbine

The invention claimed is: 1. A rotational positioning system in a wind turbine, comprising: a driven part; a plurality of positioning drives coupled to the driven part; a plurality of sensors each arranged to sense a load parameter indicative of a load of the respective positioning drive; and a load controller connected to the plurality of sensors, and arranged to determine the load of the respective positioning drive based on the sensed load parameter, to compare said load with an expected load value, and to output a signal indicative of a failure of the respective positioning drive in response to the load being smaller than the expected load value. 2. The rotational positioning system of claim 1 , wherein the load controller is arranged to determine the expected load value as a mean load value of the plurality of positioning drives. 3. The rotational positioning system of claim 1 or 2 , wherein the positioning drives comprise positioning motors, and the sensors are arranged to sense a load parameter indicative of an effective motor power of the respective positioning drive motor. 4. The rotational positioning system of claim 1 or 2 , wherein the positioning drives comprise electrical positioning motors, wherein the sensors are arranged to sense a load parameter indicative of an electric motor current of the respective positioning motor. 5. The rotational positioning system of claim 1 or 2 , wherein the sensors are arranged to sense a load parameter indicative of a mechanical torque of the respective positioning drive. 6. The rotational positioning system of claim 1 , wherein the load controller is arranged to output the signal indicative of the failure of the respective positioning drive in response to the load being smaller by more than a predetermined amount than the expected load value. 7. The rotational positioning system of claim 1 , wherein the load controller is arranged to compare the load of the respective positioning drive with the expected load value during given operating intervals of the rotational positioning system, and to output the signal indicative of the failure of the respective positioning drive in response to the load being smaller than the expected load value during all or at least a part of all the given operating intervals or during all or at least a part of each of the given operating intervals. 8. The rotational positioning system of claim 7 , wherein the load controller is arranged to additionally output an additional signal indicative of the failure of the respective positioning drive in response to the load being larger by more than a predetermined amount than the expected load value. 9. The rotational positioning system of claim 1 , arranged to control yaw of the wind turbine, wherein the driven part is a yaw ring, and the positioning drive comprises a yaw motor and a yaw pinion meshing with the yaw ring. 10. The rotational positioning system of claim 1 , arranged to control a pitch of wind turbine blades. 11. A method of rotationally positioning a driven part in a wind turbine, comprising: driving the driven part by means of a plurality of positioning drives; sensing a load parameter indicative of a load of a respective positioning drive; determining the load of the respective positioning drive based on the sensed load parameter; comparing said load with an expected load value; and outputting a signal indicative of a failure of the respective positioning drive in response to the load being smaller than the expected load value. 12. The method of claim 11 , further determining the expected load value as a mean load of the plurality of positioning drives. 13. The method of claim 11 , wherein sensing the load parameter comprises sensing a load parameter indicative of an effective motor power of the respective positioning drive. 14. The method of claim 13 , wherein sensing the load parameter comprises sensing a load parameter indicative of an electric motor current of the respective positioning drive.