Back-up power supply for wind turbines

The invention claimed is: 1. A wind turbine comprising: a tower; a nacelle mounted on the tower; a wind turbine rotor with a plurality of blades; a wind turbine generator operatively coupled with the wind turbine rotor; one or more auxiliary wind energy converters embedded in the nacelle; and wherein the auxiliary wind energy converters comprise an auxiliary generator. 2. The wind turbine of claim 1 , wherein the auxiliary wind energy converters are covered by a shroud of the nacelle. 3. The wind turbine of claim 1 , wherein the auxiliary wind energy converters are driven by an air flow generated by a Venturi effect. 4. The wind turbine of claim 3 , comprising structure that directs the air flow from an inside of the nacelle to an outside of the nacelle. 5. The wind turbine of claim 4 , wherein the structure comprises an air conduit between an inlet of the wind turbine and an outlet of the nacelle. 6. The wind turbine of claim 5 , wherein the inlet is arranged in the tower. 7. The wind turbine of claim 5 , wherein the air conduit comprises one or more valves to control the air flow. 8. The wind turbine of claim 3 , wherein the air flow is directed from an entrance of the auxiliary wind energy converters to an exit of the auxiliary wind energy converters, wherein the entrance and the exit of the auxiliary wind energy converters are arranged outside the nacelle. 9. The wind turbine of claim 1 , wherein one or more of the auxiliary wind energy converters are arranged at a top of the nacelle or with a sidewall of the nacelle. 10. The wind turbine of claim 1 , wherein the auxiliary wind energy converters comprise an electronic converter connected to the auxiliary generator. 11. The wind turbine of claim 10 , wherein the auxiliary generators are connected to a common DC bus. 12. The wind turbine of claim 1 , further comprising one or more energy storage elements configured to receive electrical power from the auxiliary generators. 13. The wind turbine of claim 1 , wherein the auxiliary wind energy converters are configured to be operated as a motor for driving an air flow. 14. A method comprising: directing a wind flow within a shroud of a nacelle to provoke an air flow through one or more auxiliary wind energy converters arranged with the nacelle; converting mechanical energy of the auxiliary wind energy converter to electrical energy; and providing at least a part of the electrical energy of the auxiliary wind energy converters to an auxiliary system of the wind turbine or to an energy storage element. 15. The method of claim 14 , further comprising controlling the air flow through an air channel within a wind turbine tower to the auxiliary wind energy converters. 16. A wind turbine comprising a nacelle arranged on top of a wind turbine tower; a wind turbine rotor with a plurality of blades, the wind turbine rotor operatively coupled to a main generator; one or more auxiliary systems; a first auxiliary wind energy converter arranged with a first portion of the nacelle, wherein the first auxiliary wind energy converter is operatively coupled with an auxiliary generator, and has a rotor plane substantially parallel to the first portion of the nacelle; and wherein the auxiliary generator is configured to provide electrical power to one or more of the auxiliary systems when the wind turbine is disconnected from an electrical grid. 17. The wind turbine of claim 16 , wherein the first auxiliary wind energy converter is configured to be driven by an air flow from an inside of the nacelle towards an outside of the nacelle. 18. The wind turbine of claim 17 , wherein the air flow from an inside of the nacelle towards an outside of the nacelle is caused by a Venturi effect of a wind flow within a shroud of the nacelle. 19. The wind turbine of claim 18 , wherein an air flow channel is provided between an inlet of the wind turbine, and an outlet at the nacelle, and wherein the inlet is arranged in the wind turbine tower. 20. The wind turbine of claim 16 , further comprising batteries or ultracapacitors that provide electrical power to the auxiliary systems.