An offshore wind turbine includes a ballast adjustable hull. In addition, the offshore wind turbine includes a telescopic tower movably coupled to the hull. The tower has a central axis and comprises a plurality of nested concentrically arranged elongate tubulars. Further, the offshore wind turbine includes a ballast adjustable elevator disposed about the telescopic tower and movably coupled to the hull. The elevator is configured to lift one or more of the plurality of tubulars of the tower axially upward relative to the hull. Still further, the offshore wind turbine includes a nacelle coupled to an upper end of one of the plurality of tubulars of the tower. Moreover, the offshore wind turbine includes a rotor assembly coupled to the nacelle.

Semi-submersible offshore support structure for a wind turbine comprising three semi-submersible columns that are connected to each other by a connection structure, wherein the connection structure defines three sides of the support structure, wherein the support structure further comprises a wind turbine receiving element for receiving a wind turbine tower, wherein the wind turbine receiving element is positioned on a side of the support structure between two semi-submersible columns.

A method of installing a wind turbine (10) at an offshore location. The wind turbine (10) includes a tower (18) and an energy generating unit (16). The tower (18) is configured to be secured to a transition piece (12, 42). Prior to shipping, the method includes electrically coupling electrical devices and/or systems (52) by cables (54) to energy generating unit (16) or wind turbine tower (18) or a test dummy therefor. The electrical devices and/or systems (52) are configured to be attached to transition piece (12, 42) once the tower (18) is installed. The method includes testing and commissioning the electrical devices and/or systems (52) while electrically coupled to the cables (54). Prior to shipping and after testing and commissioning, the method includes storing the electrical devices and/or systems (52) and attached cables (54) inside the tower (18). The cables (54) are long enough to permit the electrical devices and/or systems (52) to be attached to the transition piece (12, 42) without disconnecting the electrical devices and/or systems (52) from the cables (54).

Among other things, the present disclosure relates to a wind turbine rotor blade that can be assembled at the site of its wind turbine. The blade includes an internal structure which may be pre-fabricated with connections to the shell skin prior to being transported to the site of its wind turbine. A filler material may be injected into the layers of fabric making up the shell skin at the wind turbine site and allowed to harden at approximately atmospheric conditions.

Among other things, the present disclosure relates to a wind turbine rotor blade that can be assembled at the site of its wind turbine. The blade includes an internal structure which may be pre-fabricated with connections to the shell skin prior to being transported to the site of its wind turbine. A filler material may be injected into the layers of fabric making up the shell skin at the wind turbine site and allowed to harden at approximately atmospheric conditions.

A system for the automated lifting of a wind turbine mounted on a transition piece with a tubular tower, nacelle and corresponding blades thereof. A lifting triangle that passes, through a retractable bolt, through the bottom ends of columns of the transition piece, the joining thereof being completed with the hydraulic presses, ascends and descends in direct contact with the three masts. The masts are mounted on bases disposed on the ground and anchored to foundations. Cables extend from a winch, pass through pulleys at the top of the mast and connect to a fixed pulley block and to a moveable pulley block of the triangle.

An arrangement for handling a power cable of an offshore, wind turbine for transportation and/or connecting to a switch gear and/or reconnecting, the arrangement including: a cable support system adapted to support a portion of the power cable; a guiding system being fixedly connectable or connected to a wind turbine tower and being adapted to guide the cable support system along a linear, vertical, track is provided.

An arrangement for handling a power cable of an offshore, wind turbine for transportation and/or connecting to a switch gear and/or reconnecting, the arrangement including: a cable support system adapted to support a portion of the power cable; a guiding system being fixedly connectable or connected to a wind turbine tower and being adapted to guide the cable support system along a linear, vertical, track is provided.