KR20230120942A - Solar power generation system with submerged type - Google Patents

Abstract

In the present invention, the photovoltaic power generation system of the underwater photovoltaic power generation system is installed parallel to the water surface so that it is not affected by strong winds, and it is installed at a constant depth lower than the water surface so that cooling can be performed without separate panel cooling equipment. It relates to a condensation-type solar power generation system that enables more efficient power generation efficiency to be expected.

Description

Confiscation type solar power generation system {SOLAR POWER GENERATION SYSTEM WITH SUBMERGED TYPE}

The present invention relates to a condensed photovoltaic power generation system, and more specifically, to prevent being affected by strong wind by installing a photovoltaic power generation panel of an underwater photovoltaic power generation system parallel to the water surface, as well as to It relates to a condensation-type solar power generation system that is installed low at a certain depth so that cooling is possible without separate panel cooling equipment, so that more efficient power generation efficiency can be expected.

In general, in the case of existing power generation facilities such as hydroelectric power generation, nuclear power generation, or thermal power generation based on thermal fuel, controversy continues worldwide about the possibility of sustainable development due to the emergence of ecosystem destruction and environmental pollution problems.

This point is likely to continue to be a problem in that the demand for industrial power is steadily increasing due to the advanced industrial development around the world, and the demand for electricity necessary for general life is expected to steadily increase as the supply of electric vehicles increases. .

In order to overcome this problem, the currently operated or installed eco-friendly power generation system requires large-scale idle land because the energy production density is lower than that of the existing power generation system. There are many cases of constructing , which is causing another problem.

On the other hand, overseas wind power or solar power generation using shared water surface is being promoted, and the government is currently planning and supporting the establishment of an eco-friendly power generation system using such shared water surface. Therefore, it is important to reduce the initial investment cost.

Currently, floating solar power generation systems are attracting attention because construction of large-scale wind power generation facilities is restricted due to noise problems in artificial lakes created by reservoirs or dams, and lakes formed on reclaimed land. In addition, there are relatively restrictions on commercialization compared to onshore facilities due to environmental influences such as watertightness and typhoons.

In relation to this, in the case of a floating solar power generation system that is currently commonly applied, the angle of the solar panel is constantly changed and installed in order to secure the angle of incidence of sunlight according to the latitude. In the case of such a system, the structure of the structure It becomes complicated, vulnerable to strong winds, and has many problems such as a decrease in power generation efficiency due to an increase in panel temperature, such as panels installed on land.

In addition, in order to minimize the decrease in power generation efficiency due to shading caused by overlapping inclined solar panels, an additional structure such as a reflector is conventionally installed, which makes the structure more complex and resistant to strong winds. As a result, the stability of the structure is further threatened.

Korean Patent Publication No. 10-2021-0138337

The present invention is to solve the above problems, so that the photovoltaic power generation panel of the underwater photovoltaic power generation system is installed parallel to the water surface so as not to be affected by strong winds, as well as to be installed low at a constant depth compared to the water surface Therefore, it is intended to provide a condensation-type solar power generation system that enables cooling without separate panel cooling equipment and thus can expect more efficient power generation efficiency.

The forfeiture solar power generation system according to an embodiment of the present invention connects a plurality of floating structures 110, photovoltaic panels 120 installed on each floating structure 110, and each floating structure 110. It includes the structure 130, and each photovoltaic panel 120 may be applied with a submerged type structure in which a partial area is immersed in water and cooled by water.

In one embodiment, a mounting space is provided at the center of each of the plurality of floating structures 110 so that the photovoltaic panels 120 are mounted, and the lower edge of each photovoltaic panel 120 is the mounting space. Can be hooked on.

In one embodiment, the connection structure 130 may be formed to have a bar shape connecting side surfaces of one edge of each floating structure 110 to each other.

In one embodiment, the connecting structure 130 is provided on a cylindrical body portion 131 having a certain height and a side portion of the body portion 131, and is connected to one edge of each floating structure 110, respectively. A circular connector 132 may be included.

The forfeiture solar power generation system according to another embodiment of the present invention includes a floating structure 210 and a solar power generation panel 220 installed by connecting one side to the floating structure 210, and each solar power generation panel 220 may be applied with a submerged type structure in which some areas are immersed in water and cooled by water.

In one embodiment, the floating structure 210 includes a first floating structure 211 submerged in water, a second floating structure 212 provided on the upper side of the first floating structure 211 and exposed to the surface of the water, and the first floating structure 212. 2 It is provided on the side of the floating structure 212, and one side may include a plurality of connection bars 213 connected to the photovoltaic panel 220.

In one embodiment, the first floating structure 211 is formed in a cylindrical shape having a certain volume, and the second floating structure 212 is formed in a cylindrical shape having a smaller volume than the first floating structure 211. It can be.

Confiscation-type photovoltaic power generation system according to another embodiment of the present invention includes a floating structure 310 provided with a lattice-shaped frame in which a photovoltaic panel can be seated, and a photovoltaic panel 320 seated on the floating structure 310. ), and each photovoltaic panel 320 may be applied with a submerged type structure in which a partial area is immersed in water and cooled by water.

In one embodiment, the floating structure 310 may include a plurality of floating structures 311 and a plurality of frames 312 connecting each floating structure 311 in a lattice form.

In one embodiment, a cross-shaped barrier rib 311a fixing a corner of the photovoltaic panel 320 to be seated on the floating structure 311 may protrude upward.

Confiscation-type photovoltaic power generation system according to another embodiment of the present invention includes a floating structure 410 provided with a lattice-shaped frame in which a photovoltaic panel can be mounted, and a photovoltaic panel 420 mounted on the floating structure 410. ), and each photovoltaic panel 420 may be applied with a submerged type structure in which a partial area is immersed in water and cooled by water.

In one embodiment, the floating structure 410 may include a plurality of floating structures 411 and a plurality of frames 412 connecting each floating structure 411 in a lattice form.

In one embodiment, a hook 421 hooked to an upper side of the frame 412 may be provided on one side of the photovoltaic panel 420 .

According to one aspect of the present invention, it is not affected by strong winds, and it is installed low at a constant depth compared to the water surface so that cooling is possible without separate panel cooling equipment, so that more efficient power generation efficiency can be expected. have

In particular, the present invention has a simple structure that can float a photovoltaic panel on the water surface without a separate floating structure and frame, so the installation cost is drastically reduced, and it is positioned below a certain height from the water surface to achieve a cooling effect without separate panel cooling equipment As it can be expected to increase power generation efficiency due to REC and SMP prices, it has the advantage of being able to link business to power generation operators whose profitability is deteriorating due to falling REC and SMP prices.

In addition, the present invention has the advantage of minimizing damage to the structure due to strong wind and waves through a special connection structure of the connection structure connecting the floating structure.

In addition, the present invention has the advantage of being able to flexibly adjust and apply the overall shape and size of the power generation system depending on the place because the installation target location includes a relatively wide inland water surface such as Sihwa Lake and Saemangeum from a small agricultural reservoir.

1 is a diagram showing the configuration of a condensed photovoltaic power generation system 100 according to an embodiment of the present invention.
FIG. 2 is a view showing a state in which the floating structure 110 shown in FIG. 1 is connected through a cylindrical connection structure 130 in more detail.
3 is a diagram showing the configuration of a condensed photovoltaic power generation system 200 according to another embodiment of the present invention.
FIG. 4 is a view showing a state in which the first floating structure 211 of the floating structure 210 shown in FIG. 3 is submerged in water.
5 is a diagram showing the configuration of a condensed photovoltaic power generation system 300 according to another embodiment of the present invention.
FIG. 6 is a view showing the floating structure 310 and the photovoltaic panel 320 shown in FIG. 5 in more detail.
7 is a diagram showing the configuration of a condensed photovoltaic power generation system 400 according to another embodiment of the present invention.
FIG. 8 is a view showing the floating structure 410 and the photovoltaic panel 420 shown in FIG. 7 in more detail.
9 is a view showing a state in which a tire is applied as a floating structure 210 of a condensed photovoltaic power generation system 200 according to an embodiment of the present invention.

Hereinafter, a preferred embodiment is presented to aid understanding of the present invention. However, the following examples are only provided to more easily understand the present invention, and the content of the present invention is not limited by the examples.

1 is a view showing the configuration of a condensed photovoltaic power generation system 100 according to an embodiment of the present invention, and FIG. 2 is a floating structure 110 shown in FIG. 1 having a cylindrical connection structure 130 This is a diagram showing the connected state in more detail.

1 and 2, the confiscation-type solar power generation system 100 according to an embodiment of the present invention has a plurality of floating structures 110 floating on the surface of the water, and photovoltaic power generation installed on each floating structure 110. It may be configured to include a connection structure 130 connecting the panel 120 and each floating structure 110 .

First, the floating structure 110 means a buoyant body having a larger area than the photovoltaic panel 120 and sufficient buoyancy to float the load of the photovoltaic panel 120 . At this time, as a mounting space for mounting the photovoltaic panel 120 is provided at the center of each floating structure 110, the photovoltaic panel 120 is accommodated in the mounting space and the photovoltaic panel 120 As the lower edge of the is engaged with the mounting space, it can be fixed without falling to the lower side.

In the case of this structure, since the photovoltaic panel 120 is installed in a flat and horizontal state on the floating structure 110, it is not affected by the wind, as well as the angle adjustment means for separate angle adjustment is excluded. It may also have the advantage of simplifying the installation structure.

In particular, the efficiency of a photovoltaic power generation system capable of angle adjustment through a conventional tilting function is less than 5% of the efficiency of a flatly installed photovoltaic power generation system, and the effect is very insignificant. The structure of the present invention can be rather more efficient in that there is a problem of becoming complicated and causing damage or overturning due to the influence of drafts.

In addition, in the case of a conventional floating photovoltaic power generation system, a separate structure for heat dissipation or cooling must be provided because the photovoltaic panel is simply inserted as much as the thickness of the floating structure.

On the other hand, in the case of the present invention, as the photovoltaic panel 120 is mounted in the mounting space of the floating structure 110, a submerged type in which a part (lower area) is submerged in water is applied, thereby providing a strong water cooling effect. A power generation efficiency of 10% or more can be expected.

Each of the floating structures 110 may be connected to each other through the connection structure 130 . More specifically, the connection structure 130 may have various shapes, and first, the connection structure 130 may be formed in a bar shape.

The bar-shaped connection structure 130 connects the side surface of one corner of each floating structure 110 to each other, and accordingly, a plurality of floating structures 110 are connected to each other through the bar-shaped connection structure 130 to float. will do

At this time, since each photovoltaic panel 120 can be floated on its own by the floating structure 110, it can be confiscated just by connecting each floating structure 110 through the bar-shaped connection structure 130. It becomes possible to complete the structure of a type solar power generation system.

The bar-shaped connection structure 130 may be fixed to a side portion of one edge of each floating structure 110 through welding, and in one embodiment, the bar-shaped connection structure 130 is the portion of each floating structure 110. It may be fixed through rotation (bolt coupling) in one direction at the side portion of one edge. In particular, when a specific connection structure 130 is damaged, the corresponding connection structure 130 is replaced with a new connection structure 130 to facilitate maintenance.

Referring to FIG. 2 , the connecting structure 130 includes a cylindrical body 131 having a certain height and a circular shape provided on the side surface of the body 131 and connected to one edge of each floating structure 110 at the same time. It may be configured to include a connection body (132). At this time, the body portion 131 may have a polygonal shape rather than a cylindrical shape. In addition, each of the circular connectors 132 may have a bar shape. In addition, each circular connector 132 may be fixed through rotation (bolt coupling) in one direction from the body portion 131 . In particular, when a specific circular connecting body 132 is damaged, the corresponding circular connecting body 132 is replaced with a new circular connecting body 132 to facilitate maintenance.

Next, a structure in which the floating structure 110 and the photovoltaic panel 120 are separately connected, rather than a method in which the photovoltaic panel 120 is seated and fixed to the floating structure 110, will be described.

3 is a view showing the configuration of a condensed photovoltaic power generation system 200 according to another embodiment of the present invention, and FIG. 4 is a first floating structure 211 of the floating structure 210 shown in FIG. This is a drawing showing the locked state.

Referring to FIGS. 3 and 4, the condensation-type photovoltaic power generation system 200 according to another embodiment of the present invention is installed with one side connected to the floating structure 210 and the floating structure 210 partially exposed to the surface of the water. It may be configured to include a photovoltaic panel 220 .

First, the floating structure 210 is located separately from each floating structure 110, rather than being located under the photovoltaic panel 220, unlike the floating structure 110 previously discussed in FIG. 1, and a number of It may be connected to each photovoltaic panel 220 through the connection bar 213 .

The floating structure 210 includes a first floating structure 211 submerged in water, a second floating structure 212 provided on the upper side of the first floating structure 211 and exposed above the water surface, and a second floating structure 212. It is provided on the side and may be configured to include a plurality of connection bars 213 connected to each photovoltaic panel 220 at one side.

As the first floating structure 211 has a larger volume than the second floating structure 212, as shown in FIG. possible buoyancy).

The second floating structure 212 is located on the upper side of the first floating structure 211, and a plurality of connection bars 213 are provided on the side thereof in a state exposed above the surface of the water. The connection bar 213 may be connected to one edge of each photovoltaic panel 220 . At this time, the connecting bar 213 may be fixed to one edge of each photovoltaic panel 220 through welding, or in one embodiment, may be fixed through rotation (bolt coupling) in one direction. In particular, the connection bar 213 connected to the second floating structure 212 may be formed in a circular connector shape as shown in FIG. 3(b) instead of a bar shape as in FIG. 3(a).

This configuration, like the condensation-type photovoltaic power generation system 100 described above, applies a submerged type in which a part (lower area) of the photovoltaic panel 220 is submerged in water, so that 10 through a strong water cooling effect. % or more can be expected.

Next, a different form from the previous shape (a form in which the photovoltaic panel is seated and mounted on a floating structure of a frame structure) will be looked at.

5 is a view showing the configuration of a confiscation-type solar power generation system 300 according to another embodiment of the present invention, and FIG. 6 is a view of the floating structure 310 and the photovoltaic panel 320 shown in FIG. This is a detailed drawing.

5 and 6, unlike the confiscation-type solar power generation systems 100 and 200 described above, the forfeiture-type photovoltaic power generation system 300 according to another embodiment of the present invention has a floating frame structure in the form of a grid. It is composed of a structure 310 and a photovoltaic panel 320 seated and fixed on the upper side of the floating structure 310 .

More specifically, the floating structure 310 in this embodiment includes a plurality of floating structures 311 floating on the surface of the water and a plurality of frame-shaped frames 312 connecting each floating structure 311 in a lattice form. can be configured to include

Each floating structure 311 has a rectangular parallelepiped shape, and a cross-shaped barrier rib 311a for fixing a corner of the photovoltaic panel 320 may protrude from the upper side.

For example, the upper side of the floating structure 311 may be partitioned into four areas by the partition wall 311a, and a corner of one photovoltaic panel 320 for each area may be positioned and fixed so as not to move. there is.

Frames 312 may be connected so that each side of each floating structure 311 has an angle of 90 degrees, and accordingly, a plurality of frames 312 are arranged in a lattice form.

In addition, as a submerged type is applied in which a portion (lower area) is submerged in water while the lower side of each corner of the photovoltaic panel 320 is seated on the floating structure 311 and does not come off, a strong water cooling effect is applied to 10 % or more can be expected.

7 is a view showing the configuration of a confiscation-type photovoltaic power generation system 400 according to another embodiment of the present invention, and FIG. 8 is a view of the floating structure 410 and the photovoltaic panel 420 shown in FIG. This is a detailed drawing.

Referring to FIGS. 7 and 8 , the present embodiment has a structure similar to that of the confiscation-type solar power generation system 300 described in FIG. 5 above, but the difference is that the photovoltaic panel 420 is the floating structure 410 It is not a structure that is seated on the upper side, but a structure in which the photovoltaic panel 420 is fixed to the frame 412 by being engaged through a plurality of hooks 421 provided at the edge of the photovoltaic panel 320.

In this case, the upper side of the floating structure 411 is not formed with the cross-shaped bulkhead 311a, but a plurality of hooks 421 provided at the edge of the photovoltaic panel 420 are attached to the frame 412. As a submerged type is applied in which a part (lower area) is submerged in water without being caught and not removed, a power generation efficiency of 10% or more can be expected through a strong water cooling effect.

Meanwhile, in one embodiment, a tire filled with air may be used as the floating structure 210 of the condensable photovoltaic power generation system 200 described above in FIG. 3, which will be described as follows.

9 is a view showing a state in which a tire is applied as a floating structure 210 of a condensed photovoltaic power generation system 200 according to an embodiment of the present invention.

Referring to FIG. 9(a) , in one embodiment, the floating structure 210 shown in FIG. 2 can be replaced by using the buoyancy of a tire filled with air. In this case, a plurality of connecting bars 213 are coupled to the lower side of the corner region of the plurality of photovoltaic panels 220, and each connecting bar 213 may be coupled and fixed to a bolt coupling hole provided on one side of the tire. . In particular, according to the number of photovoltaic panels 220 and the resulting load, the number of tires can be changed and applied. At this time, in the case of the connecting bar 213, it may be formed in a circular connector shape as shown in FIG. 9(b).

Although the above has been described with reference to preferred embodiments of the present invention, those skilled in the art can variously modify and change the present invention without departing from the spirit and scope of the present invention described in the claims below. You will understand that you can.

100: Confiscation type solar power system
110: floating structure
120: solar power panel
130: connection structure
131: body part
132: circular connector
200: Confiscation type solar power system
210: floating structure
211: first floating structure
212: second floating structure
213: connection bar
220: solar power panel
300: Confiscation type solar power system
310: floating structure
311: floating structure
311a bulkhead
312: frame
320: solar power panel
400: Confiscation type solar power system
410: floating structure
411: floating structure
412: frame
420: solar power panel
421: hook

Claims (13)

a plurality of floating structures 110;
Photovoltaic panels 120 installed on each floating structure 110; and
Including; connection structure 130 connecting each floating structure 110,
Each photovoltaic power generation panel 120 is a submerged type solar power generation system, characterized in that a submerged type, a structure in which a partial area is immersed in water and cooled by water, is applied.
According to claim 1,
A holding space is provided in the center of each of the plurality of floating structures 110 to mount the photovoltaic panel 120, and the lower edge of each photovoltaic panel 120 is engaged with the mounting space. Characterized by confiscation-type solar power generation system.
According to claim 1,
The connection structure 130,
Characterized in that it is formed to have a bar shape connecting the side surfaces of one corner of each floating structure 110, respectively, confiscation-type solar power generation system.
According to claim 1,
The connection structure 130,
A cylindrical body portion 131 having a certain height; and
It is provided on the side surface of the body portion 131, and a circular connection body 132 connected to one edge of each floating structure 110, respectively; characterized in that it comprises a confiscation-type solar power generation system.
floating structure 210; and
A photovoltaic power generation panel 220 installed by connecting one side to the floating structure 210; includes,
Each photovoltaic panel 220 is submerged type solar power generation system, characterized in that a submerged type, a structure in which a partial area is immersed in water and cooled by water, is applied.
According to claim 5,
The floating structure 210,
a first floating structure 211 submerged in water;
a second floating structure 212 provided above the first floating structure 211 and exposed on the surface of the water; and
It is provided on the side of the second floating structure 212, a plurality of connection bars 213, one side of which is connected to the photovoltaic panel 220; characterized in that it comprises a confiscation-type solar power generation system.
According to claim 6,
The first floating structure 211 is formed in a cylindrical shape having a certain volume, and the second floating structure 212 is formed in a cylindrical shape having a smaller volume than the first floating structure 211, characterized in that , Confiscation-type solar power generation system.
A floating structure 310 provided with a frame in the form of a grid in which a photovoltaic panel can be seated; and
A photovoltaic panel 320 seated on the floating structure 310; includes,
Each photovoltaic power generation panel 320 is a submerged type solar power generation system, characterized in that a submerged type, in which a partial area is immersed in water and cooled by water, is applied.
According to claim 8,
The floating structure 310,
a plurality of floating structures 311; and
A plurality of frames 312 connecting each floating structure 311 in a lattice form; characterized in that it includes a forfeiture type solar power generation system.
According to claim 9,
In the floating structure 311,
The confiscation-type solar power generation system, characterized in that the cross-shaped barrier rib 311a for fixing the corner of the solar power generation panel 320 to be seated protrudes upward.
a floating structure 410 provided with a lattice-shaped frame in which a photovoltaic panel can be mounted; and
A photovoltaic panel 420 mounted on the floating structure 410; includes,
Each photovoltaic panel 420 is submerged type solar power generation system, characterized in that a submerged type, a structure in which a partial area is immersed in water and cooled by water, is applied.
According to claim 11,
The floating structure 410,
a plurality of floating structures 411; and
A plurality of frames 412 connecting each floating structure 411 in a lattice form; characterized in that it includes a forfeiture-type solar power generation system.
According to claim 12,
On one side of the photovoltaic panel 420,
Characterized in that a hook 421 hooked to the upper side of the frame 412 is provided, confiscation-type solar power generation system.