KR101395399B1 - Power system of tidal power generation - Google Patents

Abstract

The present invention relates to a tidal power generation system, and more particularly, to a tidal power generation system in which a turbine is installed at a point where a water passage passes through a tunnel channel by artificially excavating a place where a difference in water level between two sea- To a tidal power generation system capable of obtaining electricity by rotation of a turbine.
The present invention relates to a turbine that excavates a water level difference between sea sides on both sides of the peninsular land up to the lowest sea level, and which is installed in a water passage through which water passes through the excavation section, and electricity generated by a power generation section .

Description

[0002] Power system of tidal power generation [0003]

The present invention relates to a tidal power generation system, and more particularly, to a tidal power generation system in which a turbine is installed at a point where a water passage passes through a tunnel channel by artificially excavating a place where a difference in water level between two sea- To a tidal power generation system capable of obtaining electricity by rotation of a turbine.

Generally, power generation methods include thermal power generation, nuclear power generation, hydro power generation, solar power generation, wind power generation, and tidal power generation.

The thermal power generation and nuclear power generation generate electricity by rotating a turbine in a generator with steam generated by heat. Hydroelectric power generates electricity by rotating the turbine due to dropping of water stored in the dam.

However, the thermal power plant described above uses fossil fuels such as coal or petroleum as an energy source, and the construction cost of the power plant is relatively low. However, due to the limited amount of reserves of fossil fuel and the like, There is a problem of contamination.

Nuclear power generation uses enormous amounts of heat generated by nuclear fission of radioactive materials such as uranium as an energy source. Although it has high generation capacity, safety related to the use of nuclear fuel, There is a problem such as environmental pollution.

In addition, hydroelectric power is converted into rotational energy to obtain the energy (position) energy of the water stored by the dam, so that the power generation cost is low, but the area where the power plant is constructed is limited and a large area of land must be submerged. There is a problem that causes social problems and destruction of natural ecosystem.

Therefore, research and efforts have been made to develop a practical device for the interest and use of clean energy to replace the above-mentioned thermal power generation, nuclear power generation and hydro power generation.

Typically, clean alternative energy is solar energy, wind energy, current energy, tidal energy, geo-thermal energy, bio-energy -chemical energy).

In Korea, recently, a region where high-speed algae of more than 10 knots have emerged in the southern coast has been searched for large-capacity generators using algae energy.

In the conventional tidal power generation device, for example, a generator mounting table having two rotor blades and a generator is installed at a central portion of the upper surface of a floating body. An algae water pipe is installed on the bottom surface of the floating body, As shown in FIG.

With this configuration, the algae is guided to the algae water pipe installed on the sea surface to rotate the flywheel, and the generator is driven through the power transmission device to generate electricity.

As described above, the tidal power generator is installed at a place where the flow of seawater is fast, so that the tidal power generator is developed using the kinetic energy of seawater.

However, in the conventional tidal power generation apparatus, the flow of the current is guided to the flywheel installed on the water surface, resulting in a loss of potential energy in the process. Therefore, the power generation efficiency is lowered and only the water flow on the surface of the sea water is used. There is a drawback that it can not be obtained.

In addition, the conventional tidal power generation apparatus has a disadvantage in that it is not ensured safety of the power generation apparatus in the case of climatic conditions because there is no apparatus for protecting the power generation apparatus in case of occurrence of bad conditions due to climate conditions and the like.

Registered Utility Model No. 323255

The present invention relates to an offshore power generation device, which comprises a buoyant line on which a generator is mounted, a fixing device for mounting the rope on the floor so as to stably stop the buoyant line at a specific position, A wing support arm having a wing axis of the power generating blades at one end and pivotally coupled to the buoyancy line at the other end, a drive device for rotating the wing support arm, And a power transmission device.

However, since the direction of the buoyancy line is not changed as can be understood from the description of the installation structure and installation position of the buoyant power line, the buoyancy generator can not be used in a place where the flow direction of water flow is changed by tide and ebb. The buoyancy line is fixed to the sea floor through the anchor and the rope, and the buoyancy line is replaced through the operation of raising and lowering the anchor. It is difficult to replace the buoyancy line and it takes a long time. In the event of an emergency, the buoyancy line and the equipment are damaged due to the failure to cope with the emergency. Also, the width of the axis of rotation of the aberration or the length of the wing is lengthened, have.

Another example of the tidal power generation apparatus is a helical turbine.

In the tidal power generation apparatus using the helical turbine, the helical turbine rotates by being vertically locked in the water. First, a complicated high-cost structure must be installed in the water. Second, since the effective resistance surface against the tidal current is relatively small, Third, it is difficult to find the cause of malfunction due to seaweed or other causes in water. Fourth, it takes a great deal of time and cost to repair bearings and others. In addition, maintenance should be stopped during repair. Fifth, And the structures installed on the water surface are exposed to natural disasters such as storms, and the sixth is the disadvantage that the cost of power generation is high due to the installation of high cost structures.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and its object is to provide a turbine having a relatively simple structure, in which a rapid water flowing in a narrow area between an islands and an island, And an object of the present invention is to provide a tidal power generation system capable of obtaining energy by installing a provided power generation system.

According to an aspect of the present invention, there is provided a turbine, including a turbine installed in a water channel through which water flows through the excavation unit, And electricity generated by the power generation unit is used.

In one embodiment, a tunnel is installed in the excavation section to secure a smooth flow of water, and a cover for covering between the island and the island or between the island and the land using concrete or soil so that the tunnel does not move by the water Is provided.

In one embodiment, the turbine and the generator are installed on both sides of the tunnel.

In one embodiment, the turbine, the generator and the tunnel are installed between the islands and the islands or between the islands and the land.

According to the tidal power generation system of the present invention, firstly, since natural damage is less than that of existing power generation facilities, there is an eco-friendly effect.

Secondly, the installation cost is significantly reduced compared to the existing power plant, so that the economic efficiency is increased.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a diagram showing a semi-conductor topography in which the tidal power generation system of the present invention is installed.
2 is a cross-sectional view of a tidal power generation system installed in the peninsular shape of FIG.
FIG. 3 is a perspective view showing the tidal generation system of the present invention installed between islands and islands.
4 is a cross-sectional view of Fig.

For a better understanding of the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified into various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Further, detailed descriptions of well-known functions and configurations that may be unnecessarily obscured by the gist of the present invention are omitted.

Hereinafter, a tidal power generation system of the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings.

FIG. 1 is a sectional view of a tidal power generation system installed on a peninsula of FIG. 1. FIG.

1 and 2, the tidal power generation system of the present invention excavates a place where the water level difference between the two sea areas A and B occurs on the peninsular to the lowest sea level, and water is passed through the excavation part 103 And a power generation unit 102 that is generated by the rotational force of the turbine 101.

In the meantime, a tunnel 110 is installed in the excavating portion 103 to secure a smooth flow of water, and a cover 130 for covering the tunnel 110 with concrete or soil to prevent the tunnel 110 from moving by water Respectively.

The turbine 101 and the power generation unit 102 may be installed on both sides of the tunnel 110. This is for the purpose of obtaining a larger amount of electricity by installing the turbine 101 and the power generation unit 102 on both sides of the sea because the direction of the seawater changes frequently.

Therefore, the seawater passes through the tunnel 110 and rotates the turbine 101. The rotation of the turbine 101 causes the power generation unit 102 to produce electricity, And it becomes possible to use it in the field.

Hereinafter, another embodiment of the present invention will be described.

FIG. 3 is a perspective view showing a bird's power generation system of the present invention installed between islands and islands, and FIG. 4 is a cross-sectional view of FIG. 3.

3 to 4, another embodiment of the tidal power generation system of the present invention has almost the same configuration as the above embodiment.

However, since the turbine 101 is installed in a waterway through which water flows between the islands L and the islands, or between the islands and the land, and the turbine 101 is rotated due to the flow of water, Electricity is generated through the power generation section 102 that is being developed.

A tunnel 110 is installed after the dredging section 120 is formed to secure a smooth flow of water between the islands and the islands or between the islands and the land. (130) for covering between the island (L) and the island or between the island and the land using concrete or soil. Although not specifically shown in the drawings, the present invention can be applied to a power generation system having a turbine and a power generation unit by only excavation without a tunnel 110 formed of a water pipe.

In the case of the above-described tidal power generation system of the present invention, since the sea level of the sea differs from region to region due to difference in tidal zone only, each region moves at a high speed in order to be level with each other, In between, the sea water flows more rapidly.

In addition, the most suitable location for applying the tidal power generation system of the present invention in Korea is Ullolmok, which is located between Hanwon Peninsula and Jindo, Jeollanam-do, Jeollanam-gun, Jeollanam-do, Lee district, Mansan district in Muan-gun, Jeollanam-do, and Songjeong-ri, Muan county, Jeonnam province. The tidal power generation system of the present invention can be applied anywhere if it is relatively quick in addition to the above-mentioned area. The above area is a peninsular landform and both sides of the sea are covered with land about 400m to 600m. Excavation of the tunnels up to the lowest sea level will create a similar structure to that of the Uldolmok, making it possible to obtain a fast flow rate and develop the tidal flow at this flow rate.

In particular, in the case of the above-mentioned Uldolmok, if there is no Uldolmok at the point where the seawater of the South Sea and the West Sea meet, it is necessary to travel for several tens of kilometers by bypassing the progress. However, due to the Uldolmok, the seawater of the South Sea and the West Sea meet, will be. Accordingly, the power generation system of the present invention can be applied using the high flow rate of the Uldolmok.

Therefore, in the case of the above-described tidal power generation system of the present invention, there is almost no natural damage and the installation cost is considerably smaller than that of a general power plant, which can be a good alternative for power supply in the future.

The embodiments of the tidal power generation system of the present invention described above are merely illustrative and those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. It will be possible. Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

101: Turbine
102:
110: Tunnel
120: Dredging Department
130:

Claims (4)

An excavation part 103 formed by digging a portion where the water level difference of both sea sides (A, B) is formed in the peninsular terrain to the lowest sea level;
A tunnel 110 installed in a horizontal direction corresponding to the moving direction of the algae to ensure smooth flow of water to the excavating portion 103;
A cover 130 formed to cover the tunnel 110 using concrete or soil so that the tunnel 110 is not moved by the water;
A turbine 101 installed so as to rotate by being vertically locked to a water passage through which water passes through a tunnel 110 installed in the excavating portion 103;
And a generator (102) generating electricity by the rotational force of the turbine (101). delete The method according to claim 1,
The turbine (101) and the power generation section (102)
Wherein the tunnel is installed on both sides with respect to the tunnel. The method according to claim 1,
Wherein the turbine (101), the power generation unit (102), and the tunnel (110) are installed between the island (L) and the island or between the island and the land.

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