KR20130104934A - A power generating apparatus using sea water - Google Patents

Abstract

PURPOSE: A power generating device using seawater is provided to produce electricity for 24 hours. CONSTITUTION: A power generating device using seawater includes a water tank (20), an inlet (60), an outflow pipe (30), a power generator, and an open-and-shut door (50). The water tank is installed at a waterfront. Seawater is supplied to the water tank via the inlet. The outflow pipe is buried underground. The power generator is mounted on the outflow pipe. The open-and-shut door is mounted on the inlet.

Description

Power plant using sea water {A POWER GENERATING APPARATUS USING SEA WATER}

The present invention relates to a power generation apparatus using sea water, and more particularly, to a power generation apparatus using sea water in which a power generation capacity is increased without discharging a greenhouse gas.

Generally, there are nuclear power generation, thermal power generation, hydroelectric power and tidal power generation.

Nuclear power (原子 力 발전 電) is a form of power generation that generates power with heat generated using nuclear energy of a nuclear reactor. Nuclear power plants can produce more power than other plants and generate little carbon dioxide. The application principle of nuclear power plants is the same as that of thermal power plants, but with different fuels. Nuclear power splits uranium 235 to get heat, which then generates steam to run a turbine generator. Thermal power plants, on the other hand, use coal or oil. Fuels include enriched uranium enriched with uranium 235 and natural uranium.

The thermal power plant burns fossil fuels such as coal, petroleum, and natural gas, which have chemical energy, and the converted thermal energy is converted into mechanical energy by the mechanical equipment, and then electrical energy is obtained by rotating the electrical equipment connected to the mechanical equipment. That's the way. Thermal power generation is classified into mechanical power generation, thermal power generation, gas turbine power generation, and gas turbine power generation, depending on the type of prime mover used to convert thermal energy into mechanical energy. Thermal power often refers to energy generation.

And hydro power generation is the work of generating power by using hydro power. The electricity obtained from hydroelectric power is called hydroelectricity. It is the most widely used renewable energy at present, and increasingly dependence. Once constructed, it no longer emits direct waste and emits less carbon dioxide. However, due to the costs, environmental impacts, and management of dams that need to be built for hydroelectricity, they are not considered renewable energy.

However, nuclear power plants run the risk of releasing radiation during operation, and also waste fuel rods and other radiation waste disposal problems after use.

In addition, the thermal power generation requires a lot of fossil fuel and emits a large amount of greenhouse gases, in particular, there is a problem that the supply of fossil fuel is limited.

In addition, hydroelectric power generation is affinity-friendly, but there is a problem in that power generation or water quantity is limited, so the power generation is limited, and tidal power generation should be installed in an area where only a large number of tidal differences occur.

Therefore, the present invention was devised to solve the above problems, and an object of the present invention is to produce more electricity than tidal power, and also to generate power for 24 hours regardless of the ebb and high tide of electricity generated. To provide a power generation device that can be.

This object is achieved by the present invention, in accordance with an aspect of the present invention, the power generation apparatus using the sea water, is installed on the shore, and storing water to receive the sea water at high tide; An inlet through which seawater flows into the reservoir; An outlet pipe embedded in the basement and discharging the seawater contained in the reservoir to the outside; A generator mounted on the outlet pipe to generate electricity by seawater discharged from the outlet pipe; And an opening / closing door mounted on the inlet to control the entry and exit of seawater.

And the outlet pipe is characterized in that a plurality of generators are mounted.

In the present invention, the inlet is characterized in that it is additionally equipped with a generator for producing electricity at high tide.

According to another aspect of the present invention, the reservoir is formed with a blocking bank to block the seawater introduced during the high tide, characterized in that the upper surface of the blocking bank is formed with a driveway.

And one end of the outlet pipe is in communication with the reservoir, the other end is characterized in that it is seated beneath the remote sea.

According to yet another aspect of the present invention, at a location adjacent to the outlet pipe embedded in the basement, a work path through which an operator can pass is formed.

In addition, the outlet pipe 30 is buried underground, characterized in that the generator 40 is mounted every 1-2km.

According to the above configuration of the present invention, since it is possible to produce electricity by using the seawater contained in the reservoir, it is possible to block the emission of greenhouse gases, such as carbon dioxide, and also safe from the discharge of radioactive or radiation waste, especially a plurality The generator will produce an effect that can produce a large amount of electricity.

And since the use of the seawater accommodated in the reservoir will generate the power for 24 hours regardless of the ebb and high tide.

1 is a plan view of a power generation apparatus using seawater according to an embodiment of the present invention.
2 is a cross-sectional configuration diagram of the power generation device shown in FIG.
3 is a view for explaining a reservoir.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, and the same reference numerals will be used throughout the drawings.

1 is a plan view of the power generation device using the seawater according to an embodiment of the present invention, Figure 2 is a cross-sectional view of the power generation device shown in FIG.

As shown in the figure, the generator using the seawater of the present invention shown by the reference numeral 10 is composed of a reservoir 20, an outlet pipe 30 and a generator 40 and the like.

The reservoir 20 is installed on the shore adjacent to the sea (A), and receives the sea water at the time of high tide.

In addition, the outlet pipe 30 is a cylindrical pipe through which the seawater accommodated in the reservoir 20 moves, and is buried underground in the land B as shown in FIG. 2.

One end of the outlet pipe 30 is in communication with the reservoir 20, the other end is seated beneath the sea (A) of the remote place, the sea water accommodated in the reservoir 20 at the time of high water flows through the outlet pipe (30). It will be discharged under the sea at a remote location.

The outlet pipe 30 embedded in the basement of the land is equipped with a plurality of generators 40 to produce electricity. And it is preferable that the generator 40 is mounted to the outlet pipe 30 every 1-2km. Since the plurality of generators 40 are mounted on the outlet pipe 30, the amount of electricity produced is also increased.

In addition, in order to repair and replace the generator 40 buried underground, the work path 100 is provided in parallel with the outlet pipe 30. Therefore, when a failure occurs in the outflow pipe 20 or the generator 40 or needs to be replaced, the working facility 100 may be used to transport the mechanical equipment or the worker may move.

The reservoir 20 is shown in Figure 3, as shown in the figure, it is possible to accommodate the sea water by the blocking bank (200). In addition, the blocking bank 200 is formed with an inlet 60 through which seawater flows in at the high tide, and the inlet 60 is equipped with an opening and closing door 50 so that the seawater from the outside during the high tide to the reservoir 20. Open to flow in, when the ebb tide the closing door 50 is closed to prevent the sea water from flowing out of the reservoir 20. The introduced sea water is discharged into the remote sea through the outflow pipe 30 to operate the generator 40 to produce electricity.

And, as shown in Figure 3, the road 300 is formed on the upper surface of the blocking bank 200, the vehicle is able to move, the light projecting portion (not shown) protruding from the blocking bank 200 ) Can be located.

In addition, the inlet 60 may also be equipped with the generator 40, the generator 40 mounted on the inlet 60 has a limit that can only be operated at high tide.

What has been described above is just one embodiment for implementing the power generation device using the seawater of the present invention, the present invention is not limited to the above-described embodiment and as claimed in the following claims the gist of the present invention Without departing from the scope of the present invention, any person having ordinary skill in the art may have the technical idea of the present invention to the extent that various modifications can be made.

10: power plant, 20: reservoir,
30: outlet pipe, 40: generator,
50: opening and closing door, 60: inlet,
100: work, 200: block bank,

Claims (7)

A reservoir 20 installed on the shore and accommodating sea water at high tide;
An inlet 60 through which seawater flows into the reservoir 20;
Buried in the basement, the outflow pipe 30 for discharging the seawater accommodated in the reservoir 20 to the outside;
A generator (40) mounted to the outlet pipe (30) to produce electricity by seawater discharged from the outlet pipe (30); And an opening / closing door (50) mounted to the inlet (60) to control the entry and exit of seawater. The generator according to claim 1, wherein the outlet pipe (30) is equipped with a plurality of generators (40). The generator of claim 1, wherein the inlet (60) is further equipped with a generator (40) for producing electricity at high tide. According to claim 1, wherein the reservoir 20 is formed with a blocking bank 200 to block the sea water introduced in the high tide, characterized in that the driveway 300 is formed on the upper surface of the blocking bank 200 Power generation device using sea water. According to claim 1, The outlet pipe 30 is one end is in communication with the reservoir 20, the other end is a generator using sea water, characterized in that seated beneath the sea of the remote. The power generation apparatus using seawater according to claim 1, wherein a work path (100) through which an operator can pass is formed at a position adjacent to the outlet pipe (30) buried underground. The generator of claim 1, wherein the generator (40) is installed in the outlet pipe (30) buried underground.

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