KR20110056199A - Apparatus for preventing the inflow of jellyfish into the intake of power plant - Google Patents

Abstract

PURPOSE: A device for preventing the inflow of jellyfish into an intake port of a power plant is provided to continually operate a generator by preventing the inflow of jellyfish into an intake port of a power plant. CONSTITUTION: A device for preventing the inflow of jellyfish into an intake port of a power plant comprises a protrusion(21b), artificial water grass(21), a base portion(22), a generator, an intake port(11), an artificial water grass wall(20) and a buoy(40). The base portion is settled on the bottom of the sea. The protrusion is wound in an outer peripheral surface in a longitudinal direction. The protrusion is a spiral shape. The artificial water grass is vertically installed in water. The artificial water grass is side by side installed in the longitudinal direction of the base portion. The artificial water grass wall prevents the inflow of jellyfish to the intake port of the generating station. The buoy is installed the artificial water grass on the sea surface in order to keep the artificial water grass upright.

Description

Jellyfish inflow prevention device to the power plant intake {APPARATUS FOR PREVENTING THE INFLOW OF JELLYFISH INTO THE INTAKE OF POWER PLANT}

The present invention relates to an apparatus for preventing jellyfish inflow into a power plant intake, and more particularly, to an apparatus for preventing jellyfish from entering a water intake port for introducing seawater as cooling water in a power plant located at a coast.

In general, nuclear or thermal power plants built on the coast will be introduced into the sea water and used as cooling water required by the power plant. Referring to Figure 1 describes the process of introducing seawater into the intake port 11 of the power plant 10 constructed on the existing coast, the seawater is introduced through the intake port 11 installed in the water, the cooling device of the power plant 10 The suction screen bar 12 is installed before seawater is introduced into the seawater to filter out marine organisms or foreign substances contained in the seawater.

However, recently, a large amount of jellyfish flock flows into the domestic sea due to the rise in sea water temperature, and this jellyfish flock flows into the intake port 11 together with the sea water, blocking the suction screen bar 12, thereby preventing the operation of the entire power plant. There is a problem that is interrupted.

An object of the present invention is to provide a device for preventing the jellyfish from entering the intake of the coastal power plant to be solved to solve the problems of the prior art.

The present invention is a device for preventing jellyfish from entering the intake of the coastal power plant,

The lower part is coupled to the base part seated on the seabed, and the circular outer circumferential surface is formed by winding a spiral protrusion in the longitudinal direction. Artificial water plants wall installed in front of the intake of the power plant to prevent the

It is characterized in that it comprises a buoy which is connected to each of the plurality of artificial plants by a cable installed on the sea surface so that the artificial plants maintain the standing state.

Further, it is characterized in that the projections of another artificial myelin sheath adjacent to the bone portion between the spiral projections of the artificial myelin sheath is arranged.

In addition, the buoy further comprises a cable winder including a motor to wind the cable to maintain the artificial water plants in standing state according to the height of sea level.

In addition, the present invention is the air pump is installed in the buoy, the air inlet is formed in the cable air is injected from the air pump, the inside of the artificial plants is supplied with air passing through the air inlet of the cable An air supply path is formed, and an air outlet port through which the air supplied through the air supply path of the artificial water plants flows into the water is formed in the base part, and the air supplied by the air pump flows out into the air outlet port of the base part. And it is characterized in that the jellyfish blocked by the artificial myelin wall to rise to the sea.

In addition, the end of the air outlet port of the base portion is preferably provided with a one-way check valve to prevent the inflow of sea water and allow the outflow of air.

In addition, the present invention is further provided with a turbulence generator having a propeller for rotating the seawater flowing out of the water pump and installed in the upper side of the submersible pump and the upper side of the submersible pump to one side of the air outlet of the base portion to the outflow The air flowing into the water through the air outlet of the base portion is characterized in that the rising by turning by the propeller of the turbulence generator.

According to the present invention, by using artificial artificial water plants made of artificial water to prevent the jellyfish from entering the intake of the power plant constructed on the coast, the power plant can be continuously operated.

In addition, by installing artificial plants on the seabed, there is an effect that makes the beauty of the seabed beautiful.

1 is a view showing the structure of the intake port of the power plant constructed on the existing coast,
Figure 2 is a side view of the jellyfish inflow prevention apparatus according to the present invention,
3 is a front view of the jellyfish inflow prevention device of the present invention as viewed from the power plant side.

Hereinafter, a jellyfish inflow prevention apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the drawings.

Figure 2 is a side view of the jellyfish inflow prevention apparatus according to the present invention, Figure 3 is a front view of the jellyfish inflow prevention apparatus of the present invention as viewed from the power plant intake side.

Jellyfish inflow prevention device according to a preferred embodiment of the present invention is connected to the artificial myelin sheath wall 20 consisting of a plurality of artificial plants 21 arranged vertically in the seabed, the artificial plants 21 and the cable 41 sea surface It is made to include a buoy 40 is installed in.

Artificial water plant wall 20 is installed in front of the intake port 11 of the power plant 10 to prevent the jellyfish from entering the intake port 11 is composed of a plurality of artificial plants (21). Artificial myelin sheath 21 is formed in an elongated cylindrical shape and the bottom is coupled to the base portion 22 seated on the sea floor, and is disposed vertically in the water. In addition, a plurality of them is installed side by side in the longitudinal direction of the base portion 22 to form an artificial myelin sheath wall 20, the material of the artificial myelin sheath 21 is preferably a synthetic resin or rubber material.

In addition, a spiral projection 21b is formed on the circular outer circumferential surface of the artificial myelin sheath 21 in the longitudinal direction, and another adjacent to the bone portion 21c between the projections 21b of one artificial myelin sheath 21. The projections 21b of the artificial plants 21 are arranged. As the spiral projections are formed on the circular outer circumferential surface of the artificial plants in this way, the plants are kept upright even by waves or currents, and the bones 21c between the projections 21b of the artificial plants 21 By placing the projection 21b of another artificial aquatic plant 21 adjacent to and allows the inflow of seawater between the aquatic plant 21 and blocks the inflow of jellyfish. In addition, air is introduced into the artificial water plants 21 from the sea through the inside of the cable 41, and an air supply path 21a for supplying air to the base portion 22 is vertically formed.

The base portion 22 is fixed to the seabed to fix the artificial myelin sheath wall 20, and therein, an air outlet 22a for letting out the air supplied through the air supply passage 21a of the artificial water plant 21 into the water. ) Are formed on both sides of the part combined with the artificial myelin sheath 21, and as shown in FIG. 3, a plurality of bases 22 are formed side by side in the longitudinal direction. At the end of the air outlet port 22a, a unidirectional check valve 22b is provided to prevent the inflow of seawater and to let air out. The material of the base portion 22 is made of a concrete material in which fly ash is incorporated in the present embodiment. Fly ash mixed concrete has the advantage that the compressive strength is improved. In addition, the turbulence generator 30 having an underwater pump 31 and a propeller 32 installed above the submersible pump 31 on one side of the air outlet 22a of the base 22 located opposite the inlet 11. In the longitudinal direction of the base portion 22, a plurality of are provided side by side in the same manner as the air outlet 22a. The submersible pump 31 flows the seawater through the seawater inlet 31a formed on one side and flows out toward the upper propeller 32, and the propeller 32 rotates the seawater flowing out of the submersible pump 31 and simultaneously It serves to rotate the air bubbles flowing out of the air outlet 22a with the sea water. Accordingly, the seawater introduced by the submersible pump 31 is rotated by the propeller 32 installed above the submersible pump 31, and is adjacent to the air outlet 22a formed at one side of the base portion 22. The air flowing out of the air outlet port 22a by the formed propeller 32 also rises while turning.

The buoy 40 is connected to a plurality of artificial plants 21, respectively, by a cable 41 is installed on the sea surface so that the artificial plants 21 to maintain the standing state. In addition, one side of the buoy 40 is provided with a cable winder 43 is provided with a motor 43a to wind or unwind the cable 41 according to the height of the sea level. As a result, when the sea level is lowered, the artificial herb 21 is wound by the cable winder 43 to prevent the artificial grass 21 from maintaining the standing state, thereby preventing the jellyfish from losing its blocking function. To maintain the standing state, if the sea level rises on the contrary, the cable 41 is released.

In addition, the other side of the buoy 40 is further provided with an air pump 42, the cable 41 inside the cable for supplying air to the air supply path (21a) of the artificial plants 21 from the air pump 42 An air injection path 41a is formed in the longitudinal direction of the head 41.

Jellyfish inflow prevention device according to a preferred embodiment of the present invention has the configuration as described above, when seawater is introduced into the intake port 11 to use the seawater as the cooling water of the power plant 10 is built on the coast, seawater Jellyfish moving along with it is blocked by the artificial myelin sheath 20 to prevent the jellyfish from entering the intake (11). At this time, the artificial plants 21 are formed with projections arranged to be shifted to both sides, so that the seawater moves to the gap between the projections to smoothly flow into the intake port 11, the jellyfish by the projections of artificial plants 21 Will be blocked. In addition, the use of artificial aquatic plants also has the advantage of making the seabed beautiful.

In addition, in order to prevent jellyfish from moving to the artificial water wall 20 from the upper portion of the seawater, the air injected from the sea air pump 42 is supplied to the air inlet 41a and the artificial water plants 21 of the cable 41. By flowing into the air outlet (22a) of the base portion 22 through the air supply passage (21a) of the) it becomes difficult for the jellyfish to descend toward the intake port 11 while bubbles in the water rise. In addition, by the propeller 32 of the submersible pump 31 formed at one side of the air inlet side of the base portion 22, bubbles rise along with the sea water to increase the radius of rise, thereby doubling the effect of close jellyfish.

In addition, as described above, the bubble rises with the sea water, thereby raising the jellyfish that has already moved toward the artificial myelin sheath wall 20, thereby preventing the jellyfish from blocking the projections of the artificial myelin sheath 21.

As mentioned above, although this invention was demonstrated with reference to the preferred embodiment, this invention is not limited to this, The person skilled in the art can variously change in the range which does not deviate from the summary of this invention described in the claim below. It will be easy to understand.

<Description of the symbols for the main parts of the drawings>
100: jellyfish inflow prevention device 10: power plant
11: water inlet 20: artificial plant wall
21: artificial plants 21a: air supply path
21b: projection 22: base portion
30: turbulence generator 31: submersible pump
32: propeller 40: buoy
41 cable 42 air pump
43: cable winder

Claims (5)

A device for preventing jellyfish from entering the intake of a coastal power plant,
The lower part is coupled to the base part seated on the seabed, and the circular outer circumferential surface is formed by winding the spiral protrusion in the longitudinal direction, and many artificial plants arranged vertically in the water are installed side by side in the longitudinal direction of the base part, and the jellyfish flows into the intake of the power plant. Artificial water plants wall installed in front of the intake of the power plant to prevent the
Jellyfish inflow prevention device to the power plant intake comprises a buoy is connected to each of the plurality of artificial plants by a cable installed on the sea surface so that the artificial plants maintain the standing state. The method of claim 1,
The buoy further includes a jellyfish inlet to the power plant intake further comprises a cable winder including a motor to wind or unwind the cable in order to maintain the artificial plants according to the height of the sea level. The method of claim 2,
The buoy is equipped with an air pump,
An air injection path through which the air is injected from the air pump is formed in the cable,
Inside the artificial plants is formed an air supply path for supplying air passing through the air injection path of the cable,
The base portion is formed with an air outlet through which the air supplied through the air supply path of the artificial water flows into the water,
Jellyfish inflow prevention device to the power plant inlet for the air supplied by the air pump is discharged to the air outlet of the base portion to raise the jellyfish to the sea. The method of claim 3,
Jellyfish inflow prevention device to the inlet of the power plant is provided with a one-way check valve to prevent the inflow of sea water at the end of the air outlet port of the base portion to allow the outflow of air. The method of claim 4, wherein
One side of the air outlet of the base portion is further provided with a turbulence generator having a submersible pump which is introduced into the sea water to flow out to the upper side and a propeller installed above the submersible pump to rotate the seawater flowing out of the submersible pump Jellyfish inflow prevention device to the power plant inlet that rises while the air flowing into the water through the outlet is turned by the propeller of the turbulence generator.

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