KR102217739B1 - Wind power plant facility and wind farm complex comprising the same - Google Patents

Abstract

Disclosed are a wind power generation support facility and an offshore wind complex including the same, wherein the wind power generation support facility includes: a wind generator fixed to the seabed by a pillar; and a floating unit floating in the sea and including a first frame provided along the circumference of the pillar with the pillar as the center. Accordingly, the wind power generation support facility and the offshore wind complex that provide various programs can be provided to solve social problems related to wind power installation and offshore wind farm construction, to revitalize regional development, and to be contributed to regional regeneration by creating local tourism demand.

Description

Wind power plant support facility and offshore wind power complex {WIND POWER PLANT FACILITY AND WIND FARM COMPLEX COMPRISING THE SAME}

The following description relates to a wind power generation support facility and an offshore wind power complex including the same.

Wind power generation is a power generation method in which electric energy is produced by rotating blades with kinetic energy of wind. Wind farms including wind power generators can be divided into onshore wind farms and offshore wind farms. However, it is not easy to find an onshore area to install a wind power generator in a country with a small country like Korea. Accordingly, interest in offshore wind farms in which offshore wind generators are installed is increasing.

Offshore wind power generation can maintain about 1.5 to 2 times higher power generation with relatively low fatigue load compared to onshore wind power generation under similar conditions, since there are few obstacles around the wind power. Offshore wind power generation is receiving wide attention as a new renewable clean energy because it does not run out of energy sources and has excellent economic efficiency.

Meanwhile, in offshore wind farms, it is common for local residents to disagree due to noise and vibration problems of wind power generators, electromagnetic wave generation problems, and damage to the natural landscape. Due to such social problems, the strategy to expand energy supply through the installation of offshore wind generators and the creation of offshore wind farms is somewhat difficult to implement.

Accordingly, there is an urgent need to solve the complaints and social problems of local residents, and to prepare a solution to produce renewable energy using offshore wind power. The value of offshore wind power generation is not limited to electricity production, but the space where offshore wind generators are installed is used as a space that provides various programs, and there is a need to expand economic value.

An object of the embodiment is to provide a wind power generation support facility capable of solving social problems related to the installation of wind power generators and the construction of offshore wind farms by providing a support facility that provides various programs around a wind power generator.

In addition, by combining and arranging wind power generation support facilities that provide various programs according to local conditions and demands, an offshore wind power complex that can activate regional development is formed.

In addition, by forming a wind power generation support facility and an offshore wind power generation complex including the same, it creates regional tourism demand and contributes to regional regeneration.

Problems to be solved in the embodiments are not limited to the problems mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

A wind power generation support facility and an offshore wind power complex according to an embodiment will be described.

A wind power generation support facility according to an embodiment includes a wind generator fixed to the seabed by a pillar, and a first frame provided along the periphery of the pillar with the pillar as a center and a floating part floating on the sea.

According to one side, a cross section cut in the horizontal direction of the first frame may be a circular or polygonal shape with an open center.

According to one side, the floating part may further include a second frame provided toward the pillar of the wind generator from one side of the first frame.

According to one side, the second frame may be provided with a length equal to a linear distance from the first frame to the pillar of the wind power generator.

According to one side, the second frame may be provided with a length shorter than a linear distance from the first frame to the pillar of the wind turbine.

According to one side, a plurality of second frames may be provided. In addition, the plurality of second frames may be provided to be spaced apart at equal intervals around the pillars of the wind power generator.

According to one side, the first frame may be provided such that at least one side is open.

According to one side, the floating portion further includes a plate-shaped bottom surface in at least a portion of the space formed by being surrounded by the first frame, and the bottom surface is formed with a step difference in a direction below the top surface of the first frame. I can.

According to one side, the floating portion may further include a protruding area formed to protrude from the outer surface of the first frame.

According to one side, a plurality of protruding regions may be provided. In addition, the plurality of protruding regions may be provided and spaced at equal intervals along the outer surface of the first frame.

According to one side, the floating portion may be provided in a spring shape on the upper surface of the first frame, and may further include a viewing area surrounding the pillar so that the distance to the pillar increases as it goes up from the bottom to the top.

According to one side, the first frame may be provided at a position where the shortest linear distance from the inside of the first frame to the pillar of the wind power generator is 30 to 60 m.

On the other hand, according to the embodiments for achieving the above-described problem to be solved, the offshore wind power complex includes a wind generator fixed to the sea floor as a pillar, and a circumference of the pillar around the wind generator and the pillar of the wind generator. It is provided, including a wind power generation support facility including a floating portion floating on the sea including a first frame provided along the.

According to one side, a plurality of wind power generators and wind power generation support facilities of the offshore wind power complex may be provided, and may be spaced apart from each other.

As seen above, according to the embodiments,

Through a wind power generation support facility equipped with a space that provides various programs, social problems such as a backlash from local residents related to the installation of wind generators and the construction of offshore wind farms can be solved.

In addition, it can form an offshore wind power generation complex including wind power generation support facilities, and promote regional development.

In addition, it forms a wind power generation support facility and an offshore wind power generation complex including the same, and can bring the effect of regional regeneration according to the creation of local tourism demand.

The effects of the wind power generation support facility and the offshore wind power complex according to an embodiment are not limited to those mentioned above, and other effects that are not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a perspective view of a wind power generation support facility according to an embodiment.
2 is a cross-sectional view showing a floating part of a wind power generation support facility according to embodiments.
3 is a bird's-eye view of an offshore wind power complex according to an embodiment.

Hereinafter, embodiments will be described in detail through exemplary drawings. In adding reference numerals to elements of each drawing, it should be noted that the same elements are assigned the same numerals as possible even if they are indicated on different drawings. In addition, in describing the embodiment, when it is determined that a detailed description of a related known configuration or function interferes with the understanding of the embodiment, the detailed description thereof will be omitted.

In addition, in describing the constituent elements of the embodiment, terms such as first, second, A, B, (a), (b) may be used. These terms are only used to distinguish the component from other components, and the nature, order, or order of the component is not limited by the term. When a component is described as being "connected", "coupled" or "connected" to another component, that component may be directly connected or connected to that other component, but another component between each component It should be understood that may be “connected”, “coupled” or “connected”.

Components included in one embodiment and components including common functions will be described using the same name in other embodiments. Unless otherwise stated, the description of one embodiment may be applied to other embodiments, and a detailed description will be omitted in the overlapping range.

Hereinafter, a wind power generation support facility 2 and an offshore wind power complex 1 including the same according to an embodiment will be described with reference to the accompanying drawings. Here, the wind power generation support facility 2 includes a wind power generator 20, and refers to a support facility that provides a user with a variety of programs including a leisure space, a farm, a fishing ground, a marine leisure sports ground and an observatory.

Referring to FIG. 1 showing a perspective view of a wind power generation support facility 2 according to an embodiment, the wind power generation support facility 2 includes a wind power generator 20 and a wind power generator 20 fixed to the seabed by a pillar 200. ) Is configured to include a floating portion 21 provided around the perimeter.

The wind power generator 20 is a structure that generates electric energy by rotating the rotor blades 201 with kinetic energy of wind. As shown in the drawing, the wind power generator 20 may be configured to include a vertical column 200 and a rotating blade 201 for fixing to the seabed.

Here, if the wind power generation support facility 2 requires electric power for the operation of some functions, electric energy produced by the wind power generator 20 may be used. For example, when the wind power generation support facility 2 provides a farm, the electric energy of the wind power generator 20 may be used to drive a pumping device for draining seawater in the farm. In addition, when the wind power generation support facility 2 provides a leisure space, a street lamp provided in the leisure space may be turned on by using the electric energy of the wind generator 20. The case of using the electric energy produced by the wind power generator 20 for the wind power generation support facility 2 is not limited to the above-described example, and electric energy may be used for various function operations.

Hereinafter, with reference to FIG. 2, the floating part 21 of the wind power generation support facility 2 will be described in detail. For reference, FIG. 2 is a cross-sectional view illustrating a floating part 21 according to embodiments. A program provided by the wind power generation support facility 2 according to each of the embodiments will be described later.

The floating part 21 includes a first frame 210 provided along the circumference of the column 200, centering on the column 200 of the wind generator 20, and floats on the sea. In this case, the floating part 21 floating on the sea may include both floating part 21 independently floating on the sea and floating on the sea using a basic structure. The floating part 21 is a structure that independently floats on the sea or a structure that can be floated on the sea using a foundation structure, depending on the conditions of the seabed where the wind power generation support facility 2 is provided. It may vary.

The first frame 210, which forms the basic appearance of the floating portion 21, refers to a frame having an open center as shown in the drawing. Referring to the drawings, the first frame 210 may be a circular or polygonal cross-section cut in the horizontal direction with an open center. Here, the horizontal direction means a direction parallel to the ground. In the drawings, the cross-sectional shape of the first frame 210 is shown to be a circular frame with a hole in the center, but the shape of the first frame 210 is not limited thereto, and various cross-sectional shapes such as a square or pentagonal frame may be used depending on the purpose. Can be indicated.

The first frame 210 may be provided at a position in which the shortest linear distance from the inside of the first frame 210 to the pillar 200 of the wind generator 20 is 30 to 60 m. Here, the linear distance means a vertical distance from the inside of the first frame 210 to the pillar 200. For example, when the cross-sectional shape of the first frame 210 is a circular frame, the radius of the first frame 210 may be 30 to 60 m.

When the linear distance from the inside of the first frame 210 to the pillar 200 of the wind power generator 20 is less than 30 m, the floating part 21 is narrow and the wind power generation support facility 2 can be used at the same time. It may be inefficient due to limited users. On the other hand, when the linear distance exceeds 60 m, the floating portion 21 becomes huge, and the distance between the adjacent wind generators 20 must be designed to be far, resulting in an overall inefficient power generation complex.

The first frame 210 is exposed above the sea level so that a user using the wind power generation support facility 2 can access the upper surface of the first frame 210 directly or using a moving means such as stairs and elevators. It can be floated so that the height of the part is 1 to 10 m. Preferably, 1 to 5 m can be floated so as to be exposed above the sea level.

The first frame 210 may be provided so that at least one side thereof is opened. 2(d) shows the first frame 210 with one side open. One side of the first frame 210 is opened, and a passage capable of entering the first frame 210 may be provided to a user accessing the wind power generation support facility 2. On the other hand, the portion where the first frame 210 is opened is not limited by the drawings, and may have a shape in which various directions are opened for the user's convenience.

Meanwhile, as shown in the drawing, the floating part 21 may further include a plate-shaped bottom surface 211 in at least a portion of a space formed by being surrounded by the first frame 210. In this case, the bottom surface 211 may be formed with a step difference in a direction below the top surface of the first frame 210. The shape in which the bottom surface 211 is provided is not limited by the drawings, and may be formed to include a step shape having a plurality of steps from the upper surface of the first frame 210.

By providing the bottom surface 211 on the floating portion 21, seawater under the bottom surface 211 cannot contact outside air. In this case, the bottom surface 211 may be made of a transparent material so that the user can observe underwater.

In addition, by providing the bottom surface 211 on the floating portion 21, the floating portion 21 may form an independent space surrounded by the first frame 210 and the bottom surface 211. In the independent space formed accordingly, separate water may be provided instead of seawater.

The floating part 21 may further include a protruding region 212 protruding from the outer surface of the first frame 210. The protruding area 212 is a space in which separate facilities, such as a toilet, a shop, and a storage space, may be provided, and may be provided in plural for user convenience. When a plurality of protruding areas 212 are provided, the protruding areas 212 may be provided at equal intervals along the outer surface of the first frame 210 for user convenience and aesthetics. However, the shape and number of the protruding regions 212 are not limited by the drawings.

In addition, the floating part 21 is provided in the shape of a spring on the upper surface of the first frame 210, and the column 200 so that the distance to the column 200 of the wind generator 20 increases from the bottom to the top. ) May further include a viewing area 215 surrounding the perimeter. The viewing area 215 may be a ramp-type walkway that allows a view of the surrounding sea in a horizontal type. By providing the viewing area 215, it is possible to provide a user with a view from a position higher than the upper surface of the first frame 210.

Meanwhile, the floating part 21 may further include a second frame 214 provided toward the pillar 200 of the wind generator 20 from one side of the first frame 210. Here, facing the pillar 200 means that the second frame 214 is formed in a direction from the inside of the first frame 210 toward the pillar 200.

The second frame 214 may be provided with a length equal to the linear distance from the first frame 210 to the pillar 200 of the wind generator 20. Here, the linear distance means a vertical distance from the inside of the first frame 210 to the pillar 200. For example, when the cross section in the horizontal direction of the first frame 210 has a circular frame shape, the second frame 214 may be provided with the same length as the radius of the first frame 210.

If the second frame 214 is provided with the same length as the linear distance from the first frame 210 to the pillar 200, and the floating part 21 includes the bottom surface 211, in the drawing As shown, each of the spaces using the second frame 214 as a partition wall may be independent of each other.

In addition, the second frame 214 may be provided with a length shorter than a linear distance from the first frame 210 to the pillar 200 of the wind power generator 20. For example, when the cross section in the horizontal direction of the first frame 210 has a circular frame shape, the second frame 214 may be provided with a length shorter than the radius of the first frame 210.

If, in this way, the second frame 214 is provided and the floating part 21 includes the bottom surface 211, each space using the second frame 214 as a partition wall is a second frame ( 214) can be communicated with each other through a portion not provided.

The second frame 214 may be provided in plurality. In addition, when a plurality of second frames 214 are provided, the second frames 214 may be provided spaced apart at equal intervals around the pillars 200 of the wind power generator 20 as shown in the drawing. Here, being spaced apart at the same interval around the pillar 200 means that the angle formed by the one second frame 214 and the second frame 214 adjacent thereto around the pillar 200 is the same. For example, as shown in FIG. 2 (a), two second frames 214 may be provided with an interval of 180 degrees around the pillar 200. In addition, as shown in FIG. 2 (b), six second frames 214 may be provided with an interval of 60 degrees around the pillar 200. However, the number and location of the second frames 214 are not limited by the drawings.

Hereinafter, a program provided according to embodiments of the wind power generation support facility 2 having the above-described floating unit 21 will be described. Figure 2 (a) is a case where the wind power generation support facility (2) provides a leisure space including a shelter, Figure 2 (b) is a case that provides a farm, Figure 2 (c) is a case that provides a fishing ground, Figure 2 (d) is a case of providing a marine leisure sports field, Figure 2 (e) is a view showing a case of providing an observatory.

The wind power generation support facility 2 may provide a leisure space by being formed in a circular frame in which the floating part 21 is closed, as shown in FIG. 2 (a). The floating part 21 may include a protruding area 212 for providing a cafe, restaurant, or convenience facilities. In addition, by further including the bottom surface 211 and the second frame 214 on the floating part 21, a separate independent space may be formed, and various shelters may be provided. For example, by transparently providing the floor surface 211 of an independent space, it is possible to provide an underwater scenery to users. In addition, an independent space can be created as an artificial park. It provides the wind power generation support facility (2) as a leisure space, and can bring about the effect of revitalizing regional development and making the sea a park.

The wind power generation support facility 2 may be formed as shown in FIG. 2 (b) to provide a farm. In this case, the floating part 21 may include the bottom surface 211 and the second frame 214 to form a separate, independent space, and culture various marine creatures. In this case, the height of the floor surface 211 of the independent space may be adjusted according to the type of form. For example, in the case of fish farming, the bottom surface 211 may be formed in a downward direction having a height difference of 10 to 20 m from the upper surface of the first frame 210 in consideration of the activity radius of the fish. On the other hand, in the case of farming shellfish, the bottom surface 211 may be formed in a downward direction having a step of 1 to 2 m in height to facilitate body odor. In addition, by making the space independent according to the type of aquaculture organisms, there is also an effect of providing a culture space containing different nutrients according to the type. As such, by providing a farm suitable for the marine and fishery environment of the region in the circular wind power generation support facility (2), it is possible to seek coexistence of offshore wind power and marine resources.

The wind power generation support facility 2 may be formed as shown in FIG. 2 (c) to provide a fishing ground. At this time, the floating part 21 is provided with a length of the second frame 214 shorter than the linear distance from the first frame 210 to the pillar 200 of the wind power generator 20, thereby providing an efficient fishing space. I can. In addition, it may include a protruding area 212, including a fishing supply store, a cafe and a restaurant. In addition, the fishing space surrounded by the first frame 210 may further include a facility area 213 floating on the sea. The facility area 213 is an area provided to provide a user with a shelter or fishing waiting space. In this way, by providing a fishing site using the wind power generation support facility 2, it is possible to implement a sea fishing site that can safely manage resources, and contribute to an increase in resident income by activating the fishing industry.

The wind power generation support facility 2 is formed as shown in FIG. 2 (d), and can provide an offshore leisure sports field. A passage is provided so that one side of the first frame 210 of the floating part 21 is opened so that leisure means for marine sports such as water skiing, wakeboarding, and yachting can freely enter the inside of the first frame 210 can do. In addition, a cafe, a restaurant, and convenience facilities including the protruding area 212 may be provided to provide convenience to users. In addition, a separate independent space may be formed by including the bottom surface 211 and the second frame 214 on the floating part 21. With swimming water in a separate space, it can also provide a swimming pool on the sea and support various marine leisure activities.

In addition, the wind power generation support facility 2 may be formed as shown in FIG. 2 (e) to provide an observation deck. Unlike the vertical tower type observatory provided on the upper side of the pillar 200 of the existing wind power generator 20 by providing a ramp-type walkway including a viewing area 215 on the upper surface of the first frame 210, the horizontal type Observation decks can be provided. In addition, even in such a case, a shelter may be provided to the user by including the floor surface 211 and the second frame 214.

Meanwhile, the shape of the wind power generation support facility 2 providing the program according to the above-described embodiments is not limited by the drawings. Even though the same program is provided, the components of the wind power support facility 2 including the floor 211, the protruding area 212, the facility area 213, the second frame 214 and the viewing area 215 are varied. In combination, it is possible to provide wind power generation support facilities 2 of different shapes. In addition, different programs may be combined in one wind power generation support facility 2 and provided in various modules according to local conditions or space demand. The shape and provision program of the wind power generation support facility 2 is not limited to the above-described examples, and various programs such as hot springs and golf courses may be provided by appropriately designing the wind power generation support facility 2.

Hereinafter, with reference to FIG. 3, an offshore wind power complex 1 including a wind power generation support facility 2 according to the above-described embodiments will be described. For reference, FIG. 3 is a bird's-eye view of an offshore wind power complex 1 according to an embodiment. Here, the same reference numerals are used for the same constituent elements as in the above-described embodiment, and detailed descriptions in the overlapping range will be omitted.

Referring to the drawings, the offshore wind power complex (1) is a wind power generator 20 fixed to the seabed with a pillar 200, and a pillar 200 around the wind generator 20 and the pillar 200 of the wind generator 20 It may be formed to include a wind power generation support facility 2 including a first frame 210 provided along the circumference of 200 and including a floating part 21 floating on the sea.

At this time, the wind power generator 20 and the wind power generation support facility 2 are provided in plural, and may be spaced apart from each other. The number, spacing, and shape in which the wind generator 20 and the wind power generation support facility 2 are arranged are not limited by the drawings, and may be variously arranged according to the local environment or space demand. In addition, a program provided by the wind power generation support facility 2 to be disposed is not limited, and may be disposed in various combinations.

Through the wind power generation support facility 2 that provides a variety of programs, it is possible to provide an effect of solving social problems such as a backlash from local residents related to the installation of the wind power generator 20 and the construction of an offshore wind farm. In addition, an offshore wind power complex 1 including a wind power generator 20 and a wind power generation support facility 2 may be formed, and regional development may be activated. It can also contribute to regional regeneration by creating regional tourism demand.

As described above, although the embodiments have been described by the limited drawings, various modifications and variations are possible from the above description by those of ordinary skill in the art. For example, the described techniques are performed in a different order from the described method, and/or components such as the described structure, device, etc. are combined or combined in a form different from the described method, or in other components or equivalents. Even if substituted or substituted by, appropriate results can be achieved.

Therefore, the spirit of the present invention is limited to the described embodiments and should not be determined, and all things equivalent or equivalent to the claims as well as the claims to be described later belong to the scope of the inventive concept.

1: Offshore wind power complex
2: wind power support facility
20: wind generator
200: pillar
201: wing
21: floating part
210: first frame
211: bottom surface
212: protruding area
213: facility area
214: second frame
215: viewing area

Claims (19)

A wind power generator fixed to the seabed by a pillar; And
The first frame is provided along the circumference of the pillar with the pillar as a center, and is provided in a spring shape on the upper surface of the first frame, and the circumference of the pillar so that the distance to the pillar increases from the lower end to the upper end. A floating portion including a viewing area surrounding the, floating on the sea;
Wind power support facility comprising a.
The method of claim 1,
The cross section cut in the horizontal direction of the first frame is a circular or polygonal wind power generation support facility with an open center.
The method of claim 1,
The floating part,
A second frame provided toward the pillar of the wind generator from one side of the first frame;
Wind power generation support facility further comprising a.
The method of claim 3,
The second frame is a wind power generation support facility provided with a length equal to a linear distance from the first frame to the pillar of the wind generator.
The method of claim 3,
The second frame is provided with a length shorter than a linear distance from the first frame to the pillar of the wind power generator.
The method of claim 3,
The second frame is provided in a plurality of wind power generation support facilities.
The method of claim 6,
The plurality of second frames are provided to be spaced apart at equal intervals around a pillar of the wind power generator.
The method of claim 1,
The first frame is a wind power generation support facility provided so that at least one side is opened.
The method of claim 1,
The floating part,
A plate-shaped bottom surface on at least a portion of the space formed by being surrounded by the first frame;
Including more,
The wind power generation support facility is formed with a step on the bottom surface in a direction below the top surface of the first frame.
The method of claim 1,
The floating part may include a protruding area protruding from an outer surface of the first frame;
Wind power generation support facility further comprising a.
The method of claim 10,
A wind power generation support facility provided with a plurality of the protruding areas.
The method of claim 11,
The plurality of protruding regions are spaced apart at equal intervals along the outer surface of the first frame, and a wind power generation support facility provided.
delete The method of claim 1,
The first frame,
A wind power generation support facility provided at a position where the shortest linear distance from the inside of the first frame to the pillar of the wind generator is 30 to 60 m.
A wind power generator fixed to the seabed by a pillar; And
The wind generator and the first frame provided along the periphery of the pillar around the pillar of the wind generator, and the first frame is provided in a spring shape on the upper surface of the first frame, the distance from the lower end to the upper end to the pillar A wind power generation support facility including a floating portion floating on the sea and including a viewing area surrounding the periphery of the pillar so as to move away;
Offshore wind power complex comprising a.
The method of claim 15,
The wind power generator and the wind power generation support facility are provided in plurality,
Offshore wind power complexes that are spaced apart from each other.
The method of claim 15,
The floating part,
A second frame provided toward the pillar of the wind generator from one side of the first frame;
Offshore wind power complex further comprising.
The method of claim 17,
The second frame is provided in a plurality of offshore wind power complex.
The method of claim 15,
The floating part,
A plate-shaped bottom surface on at least a portion of the space formed by being surrounded by the first frame;
Including more,
The bottom surface is an offshore wind power complex formed with a step in a direction below the top surface of the first frame.

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