A floating offshore structure of the present disclosure includes: a plurality of columns; and a plurality of pontoons installed at lower ends of the columns, respectively, wherein a polygonal shape is formed by an imaginary line connecting the columns, the pontoons are installed inside the polygonal shape, a cross-sectional area in a direction parallel to sea level of the pontoons is greater than or equal to the cross-sectional area in the direction parallel to the sea level of the columns, and the pontoons may have a shape protruding outward at the lower ends of the columns.

A wind generator for sailboats including a mast (A) provided with crosstrees (C), including: at least one wind generator (1) provided with a distribution of blades (2) arranged to rotate integrally with a shaft (6) of axis (a) in response to receiving a wind flow in an active direction (v) incident to the blades distribution; an electric generator (3) operatively connected to the generator (1) for converting the rotation of the blades (2) into electricity, comprising structure (22, 41) for fixing the generator (1) to a crosstree (C), and with the blades (2) being movable from an open operating position (P1) of maximum incidence of wind flow (F) to a closed non-operating position (P2) of minimum obstruction.

A marine monitoring buoy with an improved structure belongs to the technical field of marine buoys. The marine monitoring buoy includes a first buoy body, a cylindrical portion and a conical portion. A vertical through hole is disposed in the first buoy body, a horizontal through hole is disposed in an upper part of the cylindrical portion, an upper end of the vertical through hole extends to the cylindrical portion and is in communication with the horizontal through hole, a lower end of the vertical through hole penetrates through the conical portion, a wind power generator is disposed in the vertical through hole, two guiding grooves are disposed on a side wall of a lower part of the vertical through hole, a metal piston rod is disposed in the vertical through hole.

A platform for a semi-submersible floating type offshore structure according to an exemplary embodiment of the present invention includes a main body which is installed on the sea and has an arrangement structure in which a plurality of pontoons is combined to form a plurality of polygonal shapes; and a protrusion member connecting unit which extends from each corner of the main body and connects a protrusion member outwardly protruding from the main body to the main body.

A marine monitoring buoy with an improved structure belongs to the technical field of marine buoys. The marine monitoring buoy includes a first buoy body, a cylindrical portion and a conical portion. A vertical through hole is disposed in the first buoy body, a horizontal through hole is disposed in an upper part of the cylindrical portion, an upper end of the vertical through hole extends to the cylindrical portion and is in communication with the horizontal through hole, a lower end of the vertical through hole penetrates through the conical portion, a wind power generator is disposed in the vertical through hole, two guiding grooves are disposed on a side wall of a lower part of the vertical through hole, a metal piston rod is disposed in the vertical through hole.

Provided is a floating-type on-water support apparatus including: a ball; a floating unit including a floating part, wherein the floating part has an upper plate supporting the ball so that the ball is rotatable, an interior formed to be hollow, and a lower plate provided with a spherical surface portion and floats on water; a support rod coupled to the ball and having one end exposed above the water so that a structure is installable thereon and the other end heavier than the one end so as to stand vertically to be accommodated in the floating part; and a base unit having one end installed on a lower portion of the support rod to support the support rod and the other end in roll contact with the spherical surface portion.

An offshore wind turbine erected in a body of water including a generator, a base, a nacelle, a tower having a first end mounted to the base and a second end supporting the nacelle, an electrolytic unit electrically powered by the generator to produce hydrogen from an input fluid, in particular water, and a fluid supply assembly for supplying the input fluid from a fluid inlet arranged below a water level to the electrolytic unit arranged above the water level, wherein the fluid supply assembly includes a pump and a fluid connection between the fluid inlet and the electrolytic unit.

Multiple systems and methods for providing supervised control of subsea vehicles for offshore asset management as well as supplemental autonomous control behaviors are described herein. These systems and methods provide offshore support and alternative supervised control of one or more vehicle generally irrespective of where the vehicle resides in an oil and gas offshore field.

A generator for a direct driven wind turbine configured to convert kinetic energy of a main shaft of the wind turbine into electrical energy. The generator includes a generator rotor connectable to the main shaft of the wind turbine and a generator stator, the generator includes a generator housing on which the generator stator is arranged. The generator housing includes a front side facing towards a rotor head of the wind turbine in an installed state of the generator and a rear side facing away from the rotor head in the installed state of the generator. The generator includes at least one front generator bearing arranged at the front of the generator housing and a rear generator bearing arranged at the rear of the generator housing.

The invention relates to a method for handling a load, in particular a blade, of an offshore wind turbine system comprising a wind turbine, wherein a crane is temporarily mounted on the platform, the crane having a tower of which a plurality of elements can be telescoped relative to each other. The invention also relates to a crane and to devices suitable for carrying out this method.