KR102097151B1 - New renewable energy combined power generation device - Google Patents

Abstract

The present invention relates to a new and renewable energy combined power generation device.
To this end, the present invention is a combination of a wave power generation unit, a photovoltaic power generation unit, and a wind power generation unit in a renewable energy combined power generation device installed in the ocean, wherein the wave power generation unit is mounted on the lower portion of the body of the wave power generation base. , The upper portion is provided to be exposed to the top of the sea surface, the wave power body is provided with a wave turbine is rotatably provided in the inner space portion connected to the sea water inlet and the sea water outlet, the turbine shaft of the wave turbine to the top of the wave power body Protrudingly provided to be coupled with the wave generator, the solar power generation unit is provided with a solar module inside the photovoltaic power generation frame to be coupled to maintain the upper space portion on the wave power generation body, the wind power generation unit wind power generation A wind turbine having a wind generator is provided inside the frame to provide an image of the photovoltaic frame. Characterized by being coupled to the wealth.
Therefore, this invention makes it possible to increase the utilization rate of renewable energy by simultaneously generating wave power, wind power, and photovoltaic power generation while making manufacturing, transportation, installation (construction) and maintenance easy. In addition, it made it possible to further improve the safety of ships sailing at night.

Description

Renewable Energy Combined Cycle Power Plant {NEW RENEWABLE ENERGY COMBINED POWER GENERATION DEVICE}

The present invention relates to a new and renewable energy complex power generation device capable of simultaneously generating wind current using wave current, wind power using sea wind, and solar power using sunlight.

In general, the form for producing electricity includes fossil fuel as an energy source, thermal power generation and nuclear power using nuclear fission, but thermal power generation is accompanied by pollution problems due to the use of energy generated by the combustion of fossil fuels, and enormous construction costs. There was a problem that was required, and nuclear power required huge investment in facility investment to prevent radiation leakage, and was recognized as a hate facility, and had to be resisted by local residents from the construction preparation stage. Not only that, there have been various problems, such as even a slight accident, that there is always a risk that can lead to serious environmental destruction.

Energy sources for power generation as renewable energy, which is not only clean energy free of pollution, but also permanent energy source that does not have to be depleted, as natural energy, such as wind power, tidal power, hydro power, and solar heat, which can be free from pollution problems, escape from thermal power or nuclear power. With attention.

Power generation using clean energy has appeared in various types of power generation that generate power using the infinite natural energy that can be obtained in the marine environment, and at the same time, its use is increasing.

Indeed, looking at an example of power generation using an energy source that can be obtained from the ocean, various types of power generation are used to generate power using currents, temperature differences, waves, wind, and tidal differences.

A hybrid generator using wind and wave power of Korean Patent Publication No. 10-2012-0124999 (2012.11.14) has been proposed, and the proposed hybrid generator is provided with a wind power generator on top of a support provided to be submerged in water, The power generation efficiency is maximized by making the arrangement of the wings variable depending on the wind direction while generating power using wind power and wave power by providing a wave power generation unit at the bottom, and providing a separate buoyancy control means to provide a wave power generation unit according to the wave direction. The height was adjusted so that the efficiency of power generation was maximized, but there was a problem that separation was impossible because a wind power generation part and a wave power generation part were provided on one axis. That is, there was a problem that manufacturing, installation, maintenance, and repair are difficult.

In addition, as a method for maximizing the efficiency of wave power generation, a separate buoyancy control means is provided, thereby complicating the configuration, thereby causing the same problem.

In addition, there was another problem that solar power could not be used in addition to wind power and wave power.

Patent Publication No. 10-2012-0124999 (2012.11.14)

This invention allows the wave power generation unit, the wind power generation unit, and the solar power generation unit to be divided into separate units, so that manufacturing, transportation, construction, and maintenance can be easily performed, and in the case of wave generation, seawater enters and exits. The power generation is made regardless of the height, and a separate warning light is provided in the solar power generation unit, so that the vessel can be made safe at night.

In the present invention, the wave power generation unit 10, a solar power generation unit 20 and a wind power generation unit 30 are combined in a renewable energy combined power generation device (A) installed in the ocean, wherein the wave power generation unit (10) Is the lower portion of the wave power generation body 110 is seated on the base of the seabed, the upper portion is provided to be exposed to the top of the sea surface, the wave power generation body 110 is connected to the sea water inlet 111 and the sea water outlet 112 The wave turbine 120 is rotatably provided in the inner space portion S, and the turbine shaft 121 of the wave turbine 120 protrudes to the upper portion of the wave power generating body 111 and is coupled to the wave generator 130. The photovoltaic power generation unit 20 is provided with a solar module 220 inside the photovoltaic power generation frame 210, and has an upper space portion S 'on the upper portion of the wave power generating body 110. Combined to be maintained, the wind power generation unit 30 is a wind generator inside the wind power generation frame 310 A wind turbine 330 having 320 is provided and coupled to the upper portion of the photovoltaic frame 210, and the wave power body 110 and the photovoltaic frame 210 are provided by a vertical support 500. It is provided to be supported, the vertical support 500 has a cylindrical shape, the lower end penetrates through the central lower portion of the wave power generating body 110 is inserted and fixed to the base of the seabed, the wave power generating body 110 And the first support hole 212-1 provided in the first lower support frame 212 of the photovoltaic frame 210 and the second support hole 216-2 of the second upper support frame 216. It is characterized in that it is provided to face the lower portion of the wind power generation frame 310.

In addition, the wave power generating body 110 is formed with a through space portion (S ") having a form penetrated to the front between the bottom member 113 and the ceiling member 114, the bottom member 113 and the ceiling The seawater inlet 111 and the current flow outlet 112 are formed on the left and right sides between the members 114, and support bearings 115 are inserted into the upper and lower portions of the inner space S, respectively, and the ceiling. An anchor bolt 116 fitted with a spacer SP is provided at an upper edge of the member 114, and an inlet guide G is formed at the seawater inlet 111 and the seawater outlet 112, respectively.

"형태를 갖도록 구비됨으로서 해수가 해수 유입구(111)로 유입되는 썰물과 해수가 해수 유입구(111)로부터 유출된 밀물에 상기 파력 터빈(120)의 터빈축(121)이 회전되도록 구비됨을 특징으로 한다.In addition, the seawater inlet 111 and seawater outlet 112 is "

"Being provided to have a shape, it is characterized in that the turbine shaft 121 of the wave turbine 120 is rotated in the low tide flowing from the seawater inlet 111 and the seawater flowing out from the seawater inlet 111. .

In addition, the photovoltaic frame 210 is provided with a first lower support frame 212 having a cross shape inside the first lower frame 21 having a square frame shape, and the first lower support frame 212 ), The lower end of the first inclined support frame 213 which is inclined upwardly at each corner, and the second upper frame 215 having a rectangular frame shape at the upper end of each of the first inclined support frame 213. ), The second upper support frame 216 having a cross shape inside the second upper frame 215 is provided, but the first lower support frame 212 is intersected. A first support hole 212-1 is formed, a first bolt through hole 212-2 is formed at an end of the first lower support frame 212, and the second upper support frame 216 is formed. ) Is a second support hole (216-1) is formed at the intersection, the second upper support frame It characterized in that the support bolt (216-2) is provided in the end of the 216.

In addition, between the first lower frame 211 and the second upper frame 215, the first work table 230 is provided to have a step shape.

In addition, the solar module 220 is characterized in that the outer surface is provided with a polygonal shape that narrows toward the top.

In addition, the wind power generation frame 310 is provided with a second lower support frame 312 having a cross shape inside the second lower frame 311 having a square frame shape, and the second lower support frame 312. The lower end of the second inclined support frame 313, which is inclined upwardly at the corner of each, is provided, and the second upper frame 314 having a square frame shape at the upper end of each of the second inclined support frame 313 Is provided with an edge, and a second upper support frame 315 having a cross shape is provided inside the second upper frame 314, wherein the second lower support frame 312 is provided at the intersection. Three support holes 312-1 are formed, and a second bolt through hole 312-2 is formed at an end of the second lower support frame 312, respectively.

In addition, the wind power generation frame 310 is characterized in that an alarm lamp 400 is provided in the upper center.

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According to the invention, the wave power generation unit, the wind power generation unit, and the photovoltaic generation unit are provided as separate units, thereby obtaining an effect that can be easily manufactured, transported, installed (constructed), and maintained.

In addition, it is possible to obtain an effect of increasing the utilization rate of new and renewable energy by simultaneously generating wave power, wind power, and solar power.

In addition, there is an effect that can increase the generation efficiency of electrical energy through this.

In addition, since the blade provided in the wave turbine of the wave power generation unit is composed of a blade having a helical shape, the effect that power generation can be achieved regardless of the small and large amount of seawater flowing into and out of the wave power generating body Can be obtained.

In addition, by providing an alarm lamp on the upper portion of the wind power generation unit, it is possible to obtain an effect of further promoting the safety of a ship sailing at night.

In addition, it is possible to obtain an effect that enables continuous development regardless of weather changes in the marine environment.

And by using a clean energy source through this, it is possible to obtain an effect that can prevent the surrounding pollution.

1 is a perspective view of a new and renewable energy combined power generation device according to the present invention.
Figure 2 is an exploded perspective view of a new and renewable energy combined power generation device according to the present invention.
Figure 3 is a perspective view showing the inside and outside of the wave power generation unit in the new and renewable energy combined power generation device according to the present invention.
Figure 4 is a front perspective view of a new and renewable energy combined power generation device according to the present invention.
Figure 5 is an exploded front perspective view of a new and renewable energy combined power generation device according to the present invention.
Figure 6 is a longitudinal sectional view of a new and renewable energy combined cycle power generation device according to the present invention.

When explaining an embodiment of the present invention with reference to the accompanying drawings.

1 is a perspective view of a new and renewable energy combined power generation device according to the present invention, FIG. 2 is an exploded perspective of a new and renewable energy complex power generation device according to the present invention, and FIG. 3 is a new and renewable energy complex power generation according to the present invention It is a perspective view showing the inside and outside of the wave power generation unit in the device, FIG. 4 is a front perspective view of the renewable energy combined power generation device according to the present invention, and FIG. 5 is a new renewable energy combined power generation device according to the present invention Figure 6 is a front exploded perspective view, Figure 6 is a longitudinal sectional view of the renewable energy combined power generation device according to the present invention.

The new and renewable energy combined power generation device according to the present invention enables continuous power generation while increasing the power generation rate by using wave energy, wind energy, and solar energy, that is, renewable energy, and surroundings are generated during the power generation process. As shown in FIGS. 1 to 6 as being to be able to prevent contamination, and to be easily made, transported, installed, and maintained, a wave power generator 10 and a solar power generator 20 ) And the wind power generation unit 30 are composed of separate units, and are combined to have a vertically stacked shape.

Here, the wave power generation unit 10 has a function of converting the energy caused by the movement of the current (water), that is, the wave energy into electrical energy, and the wave turbine 120 is located inside the wave power generation body 110. It is provided to be rotatable.

The wave power generating body 110 is cured by pouring concrete, and has a seawater inlet 111 formed in the front and a seawater outlet 112 corresponding to the seawater inlet 111 in the rear.

형태를 갖도록 함으로써, 도3에 도시된 바와 같이, 해류가 유입되는 과정 및 유출되는 과정에 서 후술하는 터빈축(121)에 구비된 블레이드(122)에 압력을 가하게 됨에 따라 풍력터빈(120)이 시계방향으로 회전된다. 이는 바닷물이 들어오는 과정 즉, 밀물때에는 해수가 해수 유입구(111)를 통해 해수 유출구(112)로 빠져 나가는 과정에서 풍력 터빈(120)을 회전시킴으로써, 전력 발전이 이루어지게 되고, 반대로 썰물때에는 해수가 해수 유출구(112)를 통해 해수 유입구(111)를 향하여 역방향으로 빠져 나가는 과정에서 역시 풍력 터빈(120)을 회전시킴으로써 전력 발전이 이루어지게 된다. 즉, 밀물과 썰물때 전력이 발전되도록 함으로써 생산성을 더 높일 수 있게 된다.The seawater inlet 111 and the seawater outlet 112 are provided on the left and right sides between the bottom member 113 and the ceiling member 114 constituting the wave power generating body 110, facing diagonally.

By having a shape, as shown in Figure 3, the wind turbine 120 as the pressure is applied to the blade 122 provided on the turbine shaft 121, which will be described later in the process of inflow and outflow of the current. It rotates clockwise. This is the process of entering the seawater, that is, by turning the wind turbine 120 in the process of the seawater exiting the seawater inlet 112 through the seawater inlet 111 during the tide, power generation is achieved, and conversely, the seawater during low tide In the process of exiting in the reverse direction toward the seawater inlet 111 through the outlet 112, power generation is also achieved by rotating the wind turbine 120. That is, it is possible to further increase productivity by allowing electric power to be generated during high tide and low tide.

An inner space portion S having a predetermined space is formed inside the wave power generating body 110 so that the inner portion of the seawater inlet 111 and the inner portion of the seawater outlet 112 are connected to each other. In the inner space part S, the wave turbine 120 has a vertical shape and is rotatably provided.

On the other hand, it is preferable that the seawater inlet 111 and the seawater outlet 112 are respectively formed with an inflow guide G so that the seawater is stably introduced.

The wave turbine 120 is a blade 122 having a helical shape on the outer periphery of the turbine shaft 121 having a hollow shape is formed from the top to the bottom, even if the amount of seawater is small or large, the blade 122 ), The turbine shaft 121 is rotatably provided. That is, when the blade 122 formed on the turbine shaft 121 has a horizontal shape and a fixed shape at a certain position, the turbine shaft 121 is rotated only when the blade 122 is submerged in seawater, and the blade This is to prevent the turbine shaft 121 from rotating when the 122 is exposed in the seawater.

The wave power generating body 110 is formed with a through space portion (S ") having a different shape penetrated to the front between the bottom member 113 constituting the lower portion and the ceiling member 114 constituting the upper portion (S). ).

In the inner space portion S formed inside the wave power generating body 110, support bearings 115 are inserted into the upper and lower portions, respectively, so that the turbine shaft 121 is stably coupled to facilitate rotation. It is done. At this time, provided at the bottom

The support bearing 115 is formed so that the lower end has an open shape, and the vertical support 500, which will be described later, is provided to be inserted into a predetermined depth between the base parts BC of the seabed, and the upper part is also formed to have an open shape. The turbine shaft 121 is formed to be extended through the upper portion, that is, to be extended.

Photovoltaic power generation of the photovoltaic power generation unit 20, which will be described later, is provided with anchor bolts 116 fitted with spacers SP having a predetermined height (length), respectively, at an upper edge located on the upper surface of the ceiling member 114. The wave power generator 130 can be stably coupled to the turbine shaft 121 protruding to the top of the wave power generating body 110 by allowing a certain space portion S 'to be formed in a state where the lower portion of the frame 210 is coupled. So as to be equipped.

The wave power generation body 110 is provided so that the upper portion is exposed to the upper surface of the sea surface at a predetermined height as the lower portion is seated on the base portion BC of the seabed, so that the photovoltaic unit 20 can be prevented from interfering with the current. It is equipped. At this time, the base portion BC is to prevent the horizontal state from being displaced in the course of the long-term elapse of the installed or constructed wave power generating body 110, that is, to prevent the slope from being changed due to settlement.

The photovoltaic power generation unit 20 is to allow power to be generated using sunlight, and a plurality of photovoltaic modules 220 are provided inside the photovoltaic frame 210, and the photovoltaic frame 210 ) Is spaced apart from the upper portion of the wave power generating body 110 so that a certain space portion S 'can be maintained.

The photovoltaic power generation frame 210 is provided so that the photovoltaic power generation unit 30, which will be described later, is supported more stably while the photovoltaic module 220 is stably supported therein, and the inspection work can be easily performed. have.

To this end, the photovoltaic frame 210 is provided with a first lower support frame 212 having a cross shape inside the first lower frame 211 having a square frame shape, thereby reducing the amount of material used. It is equipped to be maintained.

The first lower support frame 212 is formed such that a first support hole 212-1 is penetrated at an intersecting part, and a vertical support 500 inserted vertically in the center of the wave power generating body 110 is penetrated and described later. By being inserted into the second support hole 216-1 formed in the second upper support frame 216, the photovoltaic power generation frame 210 is further prevented from being distorted.

First bolt through-holes 212-2 are formed at the ends of the first lower support frame 212, and the anchor bolts 116 provided in the wave power generating body 110 can be penetrated to be stably coupled with nuts. So as to be equipped.

Corners of the first lower support frame 212 are provided with lower ends of the first inclined support frames 213, which are inclined upwardly, respectively, and have a rectangular frame shape at the upper end of each of the first inclined support frames 213. The second upper frame 215 has an edge, and inside the second upper frame 215 is provided with a second upper support frame 216 having a cross shape so that sufficient strength can be maintained. It is equipped.

The second upper support frame 216 has a second support hole 216-1 formed at a lower portion of the intersecting portion to penetrate the first support hole 212-1 formed in the first lower support frame 212. The upper end of the vertical support 500 extending upward is provided to be inserted.

A third support formed on the second lower support frame 312 of the wind power generation unit 30 to be described later as the support bolts 216-2 are formed to protrude upwards at the ends of the second upper support frame 216, respectively. It is provided to penetrate the hole 312-2 and be stably coupled with a nut. At this time, as the first work table 230 is provided to have a step shape between the first lower frame 211 and the second upper frame 215, an operator can easily perform maintenance and repair work.

The photovoltaic module 220 is provided with a polygonal shape in which the outer surface is narrowed toward the upper portion, so that a large amount of photovoltaic module 220 is installed in a stablely supported state and sufficiently receives sunlight. So as to be equipped.

The wind power generation unit 30 is coupled to the upper portion of the photovoltaic power generation frame 210 and is provided with a wind turbine 330 having a wind power generator 320 inside the wind power generation frame 310.

The wind power generation frame 310 is provided with a second lower support frame 312 having a cross shape inside the second lower frame 311 having a square frame shape, and the second lower support frame 312 is provided. It is provided to be able to be coupled by welding joints or the like in a state where the lower ends of the second inclined support frames 313 inclined inwardly at the corners, respectively.

A corner of the second upper frame 314 having a square frame shape is provided at an upper end of each of the second inclined support frames 313, and a second having a cross shape inside the second upper frame 314. The upper support frame 315 is provided to prevent deformation due to impact from the outside as sufficient strength is maintained, so that the life can be extended.

The second lower support frame 312 is provided to have a shape such that a third support hole 312-1 is formed at an intersecting portion so that the upper portion of the vertical support 500 can be inserted to a predetermined depth.

Support bolts 216-2 formed on the upper portion of the photovoltaic frame 210 of the photovoltaic power generation unit 20 by forming second bolt through holes 312-2 at the ends of the second lower support frame 312, respectively ) Is provided to be easily coupled with a nut in a through state.

The wind power generation frame 310 is provided with a separate warning lamp 400 in the upper center so that it can be easily identified to ships sailing around the nightly combined power generation device to prevent a safety accident from occurring. It is equipped.

The wave power generating body 110 and the photovoltaic power generation frame 210 are provided to be stably supported by the vertical support 500.

The vertical support 500 is formed of steel and has a cylindrical shape, and the lower end penetrates through the central lower portion of the wave power generating body 110 and is inserted and fixed between the base parts of the seabed, so that the supporting force can be sufficiently secured. It is done.

The vertical support 500 includes a first support hole 212-1 and a first upper support frame provided in the first lower support frame 212 of the wave power generating body 110 and the photovoltaic power generation frame 210. It penetrates through the second support hole 216-2 of 216 and is provided to face the lower portion of the wind power generation frame 310.

In such a new and renewable energy combined power generation device, first, the base part BC is installed on the seabed where the combined power generation device is to be installed, and then the lower part of the wave power generating body 110 of the wave power generating part 10 in the base part BC. Then, the vertical support 500 is inserted into the turbine shaft 121 exposed to the upper portion of the wave power generating body 110 so that the lower portion is inserted into the base portion BC at a predetermined depth.

Next, the spacer SP is fitted into the anchor bolt 116 provided at the upper edge of the wave power generating body 110, and then the anchor bolt 116 protruding to the upper portion of the spacer SP has a solar power unit ( After passing through the first bolt through hole 212-2 formed in the photovoltaic frame 210 of 20) and then exposing it to the exposed anchor bolt 116, the photovoltaic power generation unit is repeated. 20 is to be coupled to the upper portion of the wave power generating unit (10). At this time, a certain space portion (S ') provided between the wave power generation body 110 and the photovoltaic power generation frame 210, the wave power generator 130 to the turbine shaft 121 exposed to the top of the wave power generation body 110 To be combined.

Next, the support bolt 266-2 is formed in the second lower support frame 312 of the wind power generation unit 30 in the process of allowing the wind power generation frame 310 to be seated on top of the photovoltaic power generation frame 210. The wind power generation unit 30 is a photovoltaic power generation unit by repeating a process in which a nut is coupled to the support bolt 216-2 exposed to the upper portion through the 2 bolt through hole 312-2. By being coupled to the upper portion of the (20), a new and renewable energy combined power generation device is installed.

On the other hand, the renewable energy combined power generation device installed through this process first rotates the blade 122 in the process of the seawater flowing into the internal space portion S through the seawater inlet 111 formed in the wave power generation body 110. If it is, the turbine shaft 121 is rotated by the blade 122, and at the same time, power generation by the wave power is achieved by driving the wave power generator 130 provided in a certain space part S '. At this time, the seawater that rotates the blade 122 is then discharged through the seawater outlet 112.

On the other hand, in the wave power generation, a difference occurs in the amount of seawater flowing in and out through the seawater outlet 112 in the process of generating electricity by the amount of inflow and outflow of seawater. At this time, the blade 122 formed on the outer periphery of the turbine shaft 121 is helical. It has a shape, the lower end is close to the bottom member 113, and the upper end is formed to be close to the ceiling member 114, so that if the amount of sea water is small or large, the turbine shaft 121 can be rotated.

On the other hand, the sun shines on the photovoltaic panel 220 of the photovoltaic power generation unit 20 and power is generated from the photovoltaic panel 220 at the same time, and the wind turbine 330 of the wind power generation unit 30 is driven by the sea wind. By rotating, power generation by wind is made by the wind generator 320.

This invention of the invention has been described with reference to the accompanying drawings, with reference to preferred embodiments, but it is apparent to those skilled in the art that many various and obvious modifications are possible without departing from the scope of the invention from this description. Therefore, the scope of the invention should be construed by the claims set forth to cover these many variations.

10: wave power generation unit 20: solar power generation unit
30: wind power generation unit 110: wave power generation body
111: seawater inlet 112: seawater inlet
120: wave turbine 121: turbine shaft
130: wave generator 210: solar power generation frame
220: solar module 310: wind power generation frame
320: wind generator 330: wind turbine

Claims (9)

In the combined wave power generation unit 10 and the solar power generation unit 20 and the wind power generation unit 30 in the renewable energy combined power generation device (A) installed in the ocean,
The wave power generating unit 10 is provided so that the lower portion of the wave power generating body 110 is seated at the base of the seabed, and the upper portion is exposed to the upper portion of the sea surface, and the wave power generating body 110 includes a seawater inlet 111 and The wave turbine 120 is rotatably provided in the inner space portion S to which the seawater outlet 112 is connected, and the turbine shaft 121 of the wave turbine 120 protrudes to the upper portion of the wave power generating body 111 It is provided to be combined with the wave generator 130, the solar power generation unit 20 is provided with a solar module 220 inside the photovoltaic power generation frame 210, the upper portion of the wave power generation body 110 on top The space portion S 'is coupled to be maintained, and the wind power generation unit 30 is provided with a wind turbine 330 having a wind generator 320 inside the wind power generation frame 310 to provide the solar power generation frame. Is coupled to the upper portion of the 210, the wave power body 110 and the photovoltaic frame 210 ) Is provided to be supported by the vertical support 500, the vertical support 500 has a cylindrical shape, the lower end penetrates through the central lower portion of the wave power generating body 110 is inserted, fixed to the base of the seabed Jigo, the first support hole 212-1 and the second upper support frame 216 provided in the first lower support frame 212 of the wave power generating body 110 and the photovoltaic frame 210 A new and renewable energy complex power generation device characterized by being provided to face the lower part of the wind power generation frame (310) through the support hole (216-2). According to claim 1,
The wave power generation body 110 is formed with a through space portion (S ") having a form penetrated to the front between the bottom member 113 and the ceiling member 114, the bottom member 113 and the ceiling member ( 114) the seawater inlet 111 and the current flow outlet 112 are formed on the left and right sides between, the support bearing 115 is inserted into the upper and lower portions of the inner space S, respectively, and the ceiling member ( Renewable energy, characterized in that the anchor bolts (116) are fitted with spacers (SP) at the upper corners of the 114, and inlet guides (G) are formed at the seawater inlet (111) and the seawater outlet (112), respectively. Combined power plant.
According to claim 1,
The seawater inlet 111 and seawater outlet 112 are "

By being provided to have a shape, characterized in that the turbine shaft 121 of the wave turbine 120 is rotated in the low tide flowing from the seawater inlet 111 and the tide flowing from the seawater inlet 111 Renewable Energy Combined Cycle Power Plant.
According to claim 1,
The photovoltaic power generation frame 210 is provided with a first lower support frame 212 having a cross shape inside the first lower frame 211 having a square frame shape, and the first lower support frame 212 is provided. Corners are provided with lower ends of the first inclined support frames 213, which are inclined inwards, respectively, and at the upper ends of the respective first inclined support frames 213, the second upper frame 215 has a square frame shape. An edge is provided, and a second upper support frame 216 having a cross shape is provided inside the second upper frame 215, but the first lower support frame 212 is first in an intersection. A support hole 212-1 is formed, a first bolt through hole 212-2 is formed at an end of the first lower support frame 212, and the second upper support frame 216 is A second support hole 216-1 is formed at an intersection, and the second upper support frame 216 is formed. A new and renewable energy complex power generation device, characterized in that the support bolt (216-2) is provided at the end of the.
According to claim 4,
New renewable energy combined cycle power generation device, characterized in that provided between the first lower frame 211 and the second upper frame 215, the first work table 230 has a step shape.
According to claim 1,
The photovoltaic module 220 is a new and renewable energy complex power generation device characterized in that the outer surface is provided to have a polygonal shape that narrows toward the top.
According to claim 1,
The wind power generation frame 310 is provided with a second lower support frame 312 having a cross shape inside the second lower frame 311 having a square frame shape, and an edge of the second lower support frame 312. The lower end of the second inclined support frame 313 is inclined to the upper inside, respectively, the corner of the second upper frame 314 having a square frame shape on the upper end of each of the second inclined support frame 313 Is provided, a second upper support frame 315 having a cross shape is provided inside the second upper frame 314, and the second lower support frame 312 is provided with a third support at an intersection. A new and renewable energy complex power generation device, characterized in that a hole 312-1 is formed, and a second bolt through hole 312-2 is formed at an end of the second lower support frame 312, respectively.
The method of claim 1 or 7,
The wind power generation frame 310 is a new and renewable energy combined power generation device, characterized in that the alarm lamp 400 is provided in the upper center.
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