KR20180108195A - Floating offshore wind power generation plant - Google Patents

Abstract

The present invention comprises: an upper structure formed to enable a wind power generation unit to be mounted; a lower structure supporting the upper structure and comprising a floating body; a mooring line connecting the lower structure and the seabed to moor the lower structure; and a column structure installed along the outer circumference of the upper structure and the lower structure to be connected to each other and enabling a connection form to have a slope.

Description

{Floating offshore wind power generation plant}

The present invention relates to a floating offshore wind power generation facility, and more particularly, to a float-type offshore wind power generation facility capable of overcoming a wave drift force and a current force, And to provide a floating offshore wind power generation facility.

In general, problems such as environmental regulation due to global warming and uneasiness of supply and demand of fossil fuels are emerging, and wind power generation is getting popular as a new and renewable energy production system.

These wind power facilities have been installed mainly on the land, but the marine installations are gradually increasing. For the wind power generation, the quality of the wind is generally better than that of the land, and the advantages of the wing noise problem .

Especially, in order to secure economical efficiency, it is required to secure a large scale complex. Since it is difficult to provide such a large complex on the land, the coastal and offshore waters are emerging as a large-scale offshore wind farm complex.

On the other hand, the structure for installation of wind power generation facilities on the sea can be divided into a fixed type and a floating type. First, the fixed type structure is a type in which the structure is directly fixed to the sea floor as in the land, The float floats on the surface of the water and is subjected to self weight, buoyancy, environmental load, and mooring force.

Until recently, offshore wind turbines were installed mainly at shallow water depths, but the fixed structure provides favorable operating conditions because the structure is fixed to the sea floor. On the other hand, if the water depth is deepened, the structure becomes bigger and avoiding the risk of fatigue destruction And the cost of constructing and installing the structure increases astronomically as the size of the equipment becomes larger.

On the other hand, since the wind is stronger and constant as it goes farther from the land, it is possible to increase the power generation efficiency. Therefore, there is a need for development of wind power generation even in a place where the water depth is far away from the coast, Much research has been conducted on offshore wind power plants using floating structures that are not restricted.

Korean Patent Publication No. 10-2016-0033342 (Mar.

It is an object of the present invention to minimize the wave surface force applied to a floating body by minimizing the surface area of the floating body and to minimize the floating force applied to the floating body by designing the shape of the floating body to be streamlined or elliptical, And to provide a floating offshore wind power generation facility capable of ensuring stable fluid retention.

The floating offshore wind power generation facility according to the present invention comprises an upper structure formed to be installed with a wind power generating section, a lower structure supporting the upper structure, a lower structure formed by a buoyant body, and a lower structure connected to the lower structure to moor the lower structure. And a column structure that is installed along the outer edge of the upper structure and the lower structure and is connected to each other and is formed so as to have an inclined connection shape.

The column structure may include a first column member having a length along the outer edge of the upper structure and a plurality of column members disposed along the outer edge of the lower structure and extending upward to be inclined toward the upper structure, And a second column member connected to one end of the member.

Here, the column structure may have an inclined shape such that the connection of the first column member and the second column member is elliptical or streamlined,

The present invention minimizes the wave surface force applied to the floating body by minimizing the surface area of the floating body and minimizes the flow force applied to the floating body by designing the shape of the floating body to be streamlined or elliptical, So that it is possible to achieve a stable retention.

In addition, according to the present invention, since the installation form of the column forming the side surface of the float is formed in a shape inclined upward from the lower part to the upper part, it is possible to increase the recovery buoyancy of the float according to the inclination of the column, So that the action force of the relative buoyant force can be increased.

1 is a schematic view showing a floating offshore wind power generation facility according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving it will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings.

It should be understood, however, that the present invention is not limited to the embodiments disclosed herein but may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims.

In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

1 is a schematic view showing a floating offshore wind power generation facility according to an embodiment of the present invention.

As shown in FIG. 1, the floating offshore wind power plant according to the present embodiment includes an upper structure 100, a lower structure 200, a mooring line 300, and a column structure 500.

First, the upper structure 100 is formed so as to mount a wind power generator.

That is, the upper structure 100 is formed to have a predetermined size and is exposed to the sea. The wind power generator mounted on the upper structure 100 is not shown in the drawing, but generally includes a rotor, And a nacelle for supporting the power storage device, the power storage device, or the power transmission device.

The lower structure 200 has a structure spaced apart from the upper structure 100 in a direction perpendicular to the upper structure 100 and is formed as a buoyancy body that buoys the weight of the upper structure 100 and the wind power generation portion.

Such a substructure 200 is preferably in the form of a vertical cylinder, but this is merely exemplary and is not limited to any particular form.

In addition, the lower structure 200 is constructed such that the hollow interior of the lower structure 200 can generate buoyancy. To this end, a ballast for centering gravity may be mounted below the buoyancy center.

The mooring line (300) connects the lower structure (200) to the sea floor to moor the lower structure (200).

In this embodiment, the number of the mooring lines 300 is one, and the facility is moored by the single mooring line 300, thereby reducing the number of the mooring lines 300 themselves, The installation work of the anchor 310 can be minimized.

Here, the mooring line 300 may be formed of a wire rope having rigidity, and the wire rope may be a structure in which a strand formed by twisting wire ropes is twisted into a single or multiple layers, It is not.

The upper end of the mooring line 300 is fixed to the lower end of the lower structure 200 and the anchor 310 is installed on the lower end thereof to be fixed to the sea floor.

The anchor 310 is for mooring the lower structure 200 connected to the mooring line 300 to a predetermined position. The anchor 310 may be a structure that is fixed to the sea floor through an anchor bolt or the like or an anchor or a concrete structure A gravity structure that sinks by self weight can be applied.

The mooring line 300 is installed in a tension mooring structure having a tension between the lower structure 200 and the anchor 310.

That is, the mooring line 300 is pulled down to the anchor 310 to draw the lower structure 200 into the water against the buoyancy of the lower structure 200, so that the mooring line 300 Tension is applied.

The mooring line 300 is moored by giving a preset initial tension according to the condition of the equipment and the mooring line 300 is a part of the mooring line 300 that is caught during operation such as initial tension applied to the mooring line 300 and up- The dynamic tension is taken into consideration to determine its specifications.

The column structures 400 are installed along the outer edges of the upper structure 100 and the lower structure 200, respectively, and are connected to each other.

To this end, the column structure 400 includes a first column member 410 and a second column member 420.

The first column member 410 has a length along the outer rim of the upper structure 100 and is installed in a plurality.

The plurality of second column members 420 are installed along the outer rim of the lower structure 200 to correspond to the installation positions and the number of the first column members 410.

The second column member 420 is extended to be inclined upward toward the upper structure 100 and connected to one end of the first column member 410.

Accordingly, the column structure 400 is configured such that the connection form of the first column member 410 and the first column member 420 is elliptical or streamlined as shown in FIG. 1, The resistance can be minimized.

That is, a structure capable of overcoming the wave drift force and the current force is required for stably maintaining the float at sea. For this purpose, the upper structure 100, the lower structure 200, And the column structure 300 may be optimized to be elliptical or streamlined as described above to minimize the force acting on the equipment.

In other words, it is possible to minimize the water resistance by designing the float to be streamline or elliptical in order to minimize the flow force applied to the floater, and by minimizing the diameter of the column structure 400 to minimize the surface area of the float , It is possible to minimize the wave drift force applied to the floating body.

More specifically, the connection structure of the column structure 400 connecting the upper structure 100 and the lower structure 200 has a slope not perpendicular to the lateral direction or the longitudinal direction of the float, It is possible to increase the restoring buoyancy of the column structure 400 according to the increase of the buoyancy, and consequently to increase the action force of the buoyancy.

Accordingly, since the outer diameter of the second columnar structure 420 can be gradually reduced through the inclined shape as described above, the resistance against the waves can be minimized, and the resistance of the second columnar structure 420 can be reduced, have.

At this time, it is preferable that the float according to the present embodiment is designed in a mooring manner at one point so as to receive the minimum number of resistance in the direction of the current flow, so that the attitude control can be performed so as to have the optimum acting force according to the direction of the current and wave ,

In general, the multi-point mooring method is used in order to maintain the offshore structure. In this case, since the binding force to the offshore structure increases, the contact area of the external force changes according to the direction of the tide (or current) have.

In order to reduce such resistance, it is preferable to manufacture the float as an elliptical or streamline type as in the present embodiment, and to change the design by a one-point mooring method through a mooring line 300 in a general multi-point mooring method.

The present invention minimizes the wave surface force applied to the floating body by minimizing the surface area of the floating body and minimizes the flow force applied to the floating body by designing the shape of the floating body to be streamlined or elliptical, So that it is possible to achieve a stable retention.

In addition, according to the present invention, since the installation form of the column forming the side surface of the float is formed in a shape inclined upward from the lower part to the upper part, it is possible to increase the recovery buoyancy of the float according to the inclination of the column, So that the action force of the relative buoyant force can be increased.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many modifications may be made thereto, It will be understood that all or some of the elements (s) may be optionally constructed in combination. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: upper structure 200: lower structure
300: Mooring line 310: Anchor
400: column structure 410: first column member
420: second column member

Claims (3)

An upper structure formed so as to mount a wind power generating unit;
A lower structure supporting the upper structure and formed as a buoyant body;
A mooring line connecting the lower structure to the sea bed to moor the lower structure; And
And a column structure installed along the outer edges of the upper structure and the lower structure and connected to each other and having a connection shape formed to have an inclination.
The method according to claim 1,
The column structure includes:
A first column member having a length along an outer edge of the upper structure and provided in a plurality of columns; And
And a second column member installed along an outer rim of the lower structure and extending upwardly inclined toward the upper structure and connected to one end of the first column member. .
The method of claim 2,
The column structure includes:
Wherein a connection form of the first column member and the second column member is inclined so as to form an elliptical or streamlined shape.

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