Reducing the load of a wind turbine rotor blade during installation

The invention claimed is: 1. A method of reducing a load of a rotor blade of a wind turbine during installation of the wind turbine, wherein the rotor blade comprises an aerodynamic device arranged at a surface of the rotor blade, of the method comprising: attaching a cover on the rotor blade such that at least a part of the aerodynamic device is covered by the cover; lifting the rotor blade to a top of a tower of the wind turbine; and detaching the cover from the rotor blade, wherein detaching the cover from the rotor blade comprises rotating the rotor with a rotor speed being high enough such that the cover flies off due to the centrifugal force acting on the cover during rotation of the rotor blade. 2. The method according to claim l further comprising mounting the rotor blade to a hub of the wind turbine after lifting the rotor blade to the top of the tower of the wind turbine. 3. The method according to claim 1 , wherein attaching the cover to the rotor blade is carried out before transporting the rotor blade to an installation site of the wind turbine. 4. The method according to claim 1 , wherein the rotor blade is stored at a temporary storage site after attaching the cover to the rotor blade and before lifting the rotor blade to the top of the tower. 5. The method according to claim 1 , wherein detaching the cover from the rotor blade comprises pulling the cover away by means of a string which is attached to the cover. 6. An arrangement comprising: a rotor blade of a wind turbine and a cover, wherein the rotor blade comprises an aerodynamic device arranged at a surface of the rotor blade, the cover covering at least a part of the aerodynamic device such that airflow which flows across the aerodynamic device is deflected at the cover, wherein the cover is configured and arranged such that a maximum lift coefficient of the arrangement is reduced compared to a maximum lift coefficient of the rotor blade during installation of the wind turbine, wherein the cover is prepared to be detached from the rotor blade after installation of the wind turbine; wherein the cover is made of a water soluble material. 7. The arrangement according to claim 6 , wherein the aerodynamic device is a vortex generator. 8. The arrangement according to claim 6 , wherein the aerodynamic device is a noise reducer which is arranged at a trailing edge section of the rotor blade. 9. The arrangement according to claim 6 , wherein the aerodynamic device is a flap for modifying the lift coefficient of the rotor blade. 10. The arrangement according to claim 6 , wherein at least a part of the cover comprises a convexly shaped outer surface. 11. The arrangement according to claim 6 , wherein a cross-section of the cover has a substantially elliptical shape in a mounted state to the rotor blade. 12. The arrangement according to claim 6 , wherein a cross-section of the cover is shaped as a ramp away from the surface of the rotor blade with a substantially constant slope in an upstream section of the cover. 13. The arrangement according to claim 6 , wherein the cover is made of a foam material, and the aerodynamic device is submerged into a foam material of the cover. 14. The method of claim 1 , wherein the aerodynamic device is a vortex generator, a noise reducer, or a flap. 15. An arrangement comprising: a rotor blade of a wind turbine and a cover, wherein the rotor blade comprises an aerodynamic device arranged at a surface of the rotor blade, the cover covering at least a part of the aerodynamic device such that airflow which flows across the aerodynamic device is deflected at the cover, wherein the cover is configured and arranged such that a maximum lift coefficient of the arrangement is reduced compared to a maximum lift coefficient of the rotor blade during installation of the wind turbine, wherein the cover is prepared to be detached from the rotor blade after installation of the wind turbine; wherein the cover is made of a foam material, and the aerodynamic device is submerged into a foam material of the cover. 16. The arrangement according to claim 15 , wherein the aerodynamic device is a vortex generator. 17. The arrangement according to claim 15 , wherein the aerodynamic device is a noise reducer which is arranged at a trailing edge section of the rotor blade. 18. The arrangement according to claim 15 , wherein the aerodynamic device is a flap for modifying the lift coefficient of the rotor blade.