Methods for operating wind turbines and feeding auxiliary systems

The invention claimed is: 1. A method for operating a wind turbine in an autonomous mode of operation, the wind turbine having a wind turbine rotor including a plurality of blades and a wind turbine generator, the method comprising: operating the wind turbine in the autonomous mode of operation, wherein the autonomous mode refers to a mode wherein the wind turbine is isolated from an electrical grid and is configured to operate independently from the electrical grid; while operating the wind turbine in the autonomous mode of operation, detecting a safe condition for operating the wind turbine when a predetermined parameter is below a threshold, wherein the predetermined parameter is one or more of: wind speed, an angle of attack, wind turbine loading, wind turbine vibration, or wind turbine acceleration; during the safe condition, generating electric power by rotating the wind turbine rotor at a first rotational speed between four (4) and eight (8) revolutions per minute by actively controlling a pitch angle of the plurality of blades while supplying at least part of the generated electric power to at least one wind turbine auxiliary system; while still operating the wind turbine in the autonomous mode of operation, detecting a specified condition that endangers the wind turbine, wherein the specified condition that endangers the wind turbine is detected when the predetermined parameter has reached or exceeded the threshold; and upon detection of the specified condition that endangers the wind turbine, generating the electric power supplied to the auxiliary system by rotating the wind turbine rotor at a second rotational speed equal to or less than two (2) revolutions per minute. 2. The method of claim 1 , wherein the first rotational speed of the rotor is such that a rotation frequency of the rotor is above a natural frequency of the wind turbine tower. 3. The method of claim 2 , wherein the second rotational speed of the rotor is such that a rotation frequency of the rotor is below a natural frequency of the wind turbine tower. 4. The method of claim 1 , wherein the pitch angle is below 45° when the wind turbine rotor is rotated at the first rotational speed of the rotor, and wherein the pitch angle is above 45° when the wind turbine rotor is rotated at the second rotational speed of the rotor. 5. The method of claim 4 , wherein the wind turbine rotor is rotated at the second rotational speed of the rotor by actively controlling the pitch angle. 6. The method of claim 5 , wherein the pitch angle is varied at the first and the second rotational speed of the rotor with a proportional gain of a PID control which is lower than a proportional gain of a PID control when the wind turbine is not in autonomous mode. 7. The method of claim 1 , wherein the electric power generated when rotating the rotor at the first or the second rotational speed of the rotor is less than 5% of a rated power of the wind turbine. 8. The method of claim 1 , wherein the electric power generated when rotating the rotor at the first or the second rotational speed is maintained within a range of a power output setpoint plus or minus a 10% of the power output setpoint. 9. The method of claim 1 , wherein rotation of the rotor at the first or the second rotational speed of the rotor is maintained within a range of plus or minus a 10% of a setpoint rotational speed of the rotor. 10. The method of claim 1 , further comprising supplying a portion of the generated electric power from the generator to an auxiliary energy storage system. 11. The method of claim 1 , wherein the first and the second rotational speeds of the rotor are different from rotor rotational speeds during normal operation of the wind turbine wherein the wind turbine generates and supplies electric power to the electrical grid. 12. A wind turbine comprising a control system configured to carry out the method according to claim 1 .