Cooling arrangement

The invention claimed is: 1. A cooling arrangement configured for use with a direct-drive wind turbine with an outside rotor carrying a plurality of magnets, which cooling arrangement comprises a number of exterior cooling elements arranged about an exterior of the outside rotor, wherein a cooling element is configured to guide a cooling airflow over the outside rotor and to transfer heat from the plurality of magnets to the cooling airflow, wherein an exterior cooling element comprises a fin mounted directly to an outer surface of the outside rotor and a shroud arranged to direct the cooling airflow over the outer surface of the outside rotor. 2. The cooling arrangement according to claim 1 , wherein the cooling element comprises the fin extending outward from the surface of the outside rotor. 3. The cooling arrangement according to claim 2 , wherein the fin extends from a front end of the rotor to a rear end of the outside rotor. 4. The cooling arrangement according to claim 3 , wherein the fin is arranged diagonally between the front end and the rear end of the outside rotor, and wherein a fin angle is determined on the basis of a rated power output of the wind turbine. 5. The cooling arrangement according to claim 1 , wherein the fin comprises a strip of metal that is securely bonded to the outer surface of the outside rotor. 6. The cooling arrangement according to claim 5 , wherein the shroud is configured to at least partially enclose the outside rotor. 7. The cooling arrangement according to claim 5 , wherein the shroud comprises a rotating shroud portion mounted to the outside rotor. 8. The cooling arrangement according to claim 7 , wherein the rotating shroud portion is arranged at a distance outward from the outside rotor, which distance corresponds to the height of a fin. 9. The cooling arrangement according to claim 5 , wherein the shroud comprises a stationary shroud portion mounted to a canopy of the wind turbine. 10. The cooling arrangement according to claim 9 , comprising a labyrinth seal between the stationary shroud portion and a rotating shroud portion. 11. The cooling arrangement according to claim 5 , comprising an intake guide for guiding the cooling airflow under the shroud. 12. The cooling arrangement according to claim 5 , comprising a number of inwardly directed ducts arranged to direct the cooling airflow from under the shroud into an inner cooling circuit of the wind turbine. 13. The cooling arrangement according to claim 5 , comprising an outtake fan arranged to draw heated air from under the shroud along the exterior of the wind turbine canopy. 14. The direct-drive wind turbine comprising an outside rotor carrying a plurality of magnets, and a cooling arrangement according to claim 1 for transferring heat from the magnets to an exterior cooling airflow. 15. A method of cooling an outside rotor of a direct-drive wind turbine, which outside rotor carries a plurality of magnets, which method comprises the steps of: arranging a number of cooling elements of a cooling arrangement according to claim 1 about an exterior of the outside rotor; and guiding a cooling airflow over the outside rotor to transfer heat from the plurality of magnets to the cooling airflow. 16. A cooling arrangement realized for use with a direct-drive wind turbine with an outside rotor carrying a plurality of magnets, which cooling arrangement comprises a number of exterior cooling elements arranged about an exterior of the outside rotor, wherein a cooling element is configured to guide a cooling airflow over the outside rotor and to transfer heat from the plurality of magnets to the cooling airflow wherein an exterior cooling element includes a fin mounted directly to an outer surface of the outside rotor and a shroud arranged to direct the cooling airflow over the outer surface of the rotor; and a fan arranged to force convection between a gap defined by the outer surface of the outside rotor and the shroud. 17. A cooling arrangement realized for use with a direct-drive wind turbine with the outside rotor carrying the plurality of magnets as claimed in claim 16 , wherein the shroud has a rotary portion. 18. A cooling arrangement realized for use with a direct-drive wind turbine with the outside rotor carrying the plurality of magnets as claimed in claim 17 , wherein the shroud has a stationary portion. 19. A cooling arrangement realized for use with a direct-drive wind turbine with the outside rotor carrying the plurality of magnets as claimed in claim 17 , wherein the fan is in an exit channel.