Tower part for a wind turbine, an aperture cover system, a method for manufacturing a tower part and uses hereof

The invention claimed is: 1. A method for manufacturing a wind turbine tower part comprising an aperture segment and a wall segment, the method comprising: forming the wall segment as less than a full 360° ring; forming an aperture in the aperture segment; forming the aperture segment with a substantially uniform thickness that is thicker than a thickness of the wall segment; fixating one of the wall segment or the aperture segment in a fixating unit; moving the other of the wall segment or the aperture segment to a position in proximity of the one in the fixating unit; and connecting the wall segment and the aperture segment to produce a full 360° ring. 2. The method for manufacturing a wind turbine tower part according to claim 1 , wherein forming the wall segment and forming the aperture segment further includes rolling the segments from a sheet into ring portions. 3. The method for manufacturing a wind turbine tower part according to claim 1 , further comprising: sharpening at least two edges on the aperture segment such that the at least two edges narrow in thickness adjacent a connection to the wall segment, with the at least two edges defining a thickness substantially equivalent to the thickness of the wall segment, which is thinner than the substantially uniform thickness at a remainder of the aperture segment. 4. The method for manufacturing a wind turbine tower part according to claim 3 , further comprising: sharpening at least two opposite edges on a concave side and on a convex side of the aperture segment substantially to a thickness of the wall segment such that the at least two opposite edges of the aperture segment taper in thickness on both the concave side and on the convex side. 5. The method for manufacturing a wind turbine tower part according to claim 1 , wherein forming the wall segment and forming the aperture segment further includes forming the aperture segment with a plurality of substantially straight edges defining a periphery. 6. The method for manufacturing a wind turbine tower part according to claim 5 , wherein connecting the segments further includes welding the segments together along at least one of the plurality of substantially straight edges of the aperture segment. 7. The method for manufacturing a wind turbine tower part according to claim 1 , wherein forming an aperture further includes forming at least one of door openings, cable openings, and openings for ventilation or warning lights. 8. The method for manufacturing a wind turbine tower part according to claim 1 , wherein connecting the segments further includes positioning an upper edge of the aperture segment at substantially the same height as an upper edge of the wall segment. 9. The method for manufacturing a wind turbine tower part according to claim 1 , wherein connecting the wall segment and the aperture segment further comprises: connecting a first edge of the wall segment with a second edge of the aperture segment without causing the wall segment and the aperture segment to overlap with one another along the surface areas thereof. 10. The method for manufacturing a wind turbine tower part according to claim 1 , wherein the wall segment and the aperture segment define a tower ring with an upper end and a lower end after connection together, the method further comprising: connecting an additional structural supporting element in the form of at least one of a door and a door frame to one of the wall segment and the aperture segment in such a manner that the connection does not affect the fatigue limit and strength of the tower ring, such as would be caused by welding or other fixed attachment of the additional structural supporting element into position, wherein a connection of side edges of the wall segment and the aperture segment to one another is the only connection of structural supporting elements between the upper and lower ends of the tower ring in which the connection affects the fatigue limit and strength of the tower ring.