KR102568483B1 - Device for Flood Protection in Nuclear Power Plant - Google Patents

Abstract

The present invention is a flood protection device for protecting a nuclear power plant in the event of a flood, including a barrier unit surrounding a nuclear reactor building, wherein the barrier unit is provided lower than the ground and is spaced apart from the reactor building and disposed to surround the flexible barrier room, a flexible barrier door that covers the flexible barrier room, is accommodated in the flexible barrier room, and extends to the outside of the flexible barrier room in the event of a flood, and one end connected to the outside of the flexible barrier room , The other end is a flood protection device for a nuclear power plant including a wire connected to an upper end of the flexible barrier to support the flexible barrier when the flexible barrier is extended.

Description

Flood Protection Device for Nuclear Power Plant {Device for Flood Protection in Nuclear Power Plant}

The present invention relates to a flood protection device for a nuclear power plant.

The Fukushima accident occurred because the existing coastal barriers did not effectively block the tsunami, and the power supply was cut off due to the tsunami, and the cooling system to cool the reactor stopped working. In response to the follow-up measures to Fukushima, measures were taken in Korea, such as raising coastal barriers and installing additional water barriers. However, if a significant amount of seawater or rainwater in the form of a flood overflows from the top or side of the barrier wall to the main facilities of the nuclear power plant, there is still a possibility of power supply interruption. Therefore, it is necessary to incorporate an additional protection system into the design to enable response to possible scenarios.

Korean Registered Patent No. 10-1619162 (Announced on May 18, 2016)

An object of the present invention is to provide a flood protection device for a nuclear power plant.

The present invention is a flood protection device for protecting a nuclear power plant in the event of a flood, including a barrier unit surrounding a nuclear reactor building, wherein the barrier unit is provided lower than the ground and is spaced apart from the reactor building and disposed to surround the flexible barrier room, a flexible barrier door that covers the flexible barrier room, is accommodated in the flexible barrier room, and extends to the outside of the flexible barrier room in the event of a flood, and one end connected to the outside of the flexible barrier room , The other end is a flood protection device for a nuclear power plant including a wire connected to an upper end of the flexible barrier to support the flexible barrier when the flexible barrier is extended.

The flexible barrier door is a flood protection device for a nuclear power plant that is opened when the flexible barrier is extended and is arranged to support the flexible barrier in an inward direction of the flexible barrier in an open state.

The flexible barrier room includes a first accommodating space accommodating the flexible barrier when the flexible barrier is extended, and a second accommodating space extending from the first accommodating space toward the outside of the reactor building and accommodating water. It is a flood protection device for nuclear power plants.

The flexible barrier door is a flood protection device for a nuclear power plant capable of extending its length in an open state.

In the extended state of the flexible barrier, the flexible barrier door opened in the inward direction of the flexible barrier, the water accommodated in the second accommodation space, and the elastic tension of the wire cause the flexible barrier to pass inward due to flood load It is a flood protection device for nuclear power plants that prevents flooding.

The present invention further includes a compressed air supply unit, and the flexible barrier is a flood protection device for a nuclear power plant extending by receiving compressed air from the compressed air supply unit.

According to the present invention, a flood protection device for a nuclear power plant is provided.

1 shows a flood protection device for a nuclear power plant according to an embodiment of the present invention,
2 is a plan view showing the main parts of a nuclear power plant flood protection device according to an embodiment of the present invention;
Figure 3 shows a barrier unit of a nuclear power plant flood protection device according to an embodiment of the present invention,
Figure 4 shows the control structure of a nuclear power plant flood protection device according to an embodiment of the present invention,
5 is an operation flow chart of a nuclear power plant flood protection device according to an embodiment of the present invention,
6 is a view for explaining a drainage facility of a nuclear power plant flood protection device according to an embodiment of the present invention;
7 illustrates the operation of a barrier unit of a nuclear power plant flood protection device according to an embodiment of the present invention.

In the present invention, the direction is centered on the reactor building, the inside direction is an inward direction toward the reactor building, and the outside direction refers to a direction outside the reactor building.

The present invention will be described in more detail with reference to the following drawings. Since the accompanying drawings are only examples shown to explain the technical spirit of the present invention in more detail, the spirit of the present invention is not limited to the accompanying drawings.

A flood protection device for a nuclear power plant according to an embodiment of the present invention will be described with reference to FIGS. 1 to 4 .

1 shows a flood protection device for a nuclear power plant according to an embodiment of the present invention, and FIG. 2 is a plan view showing major parts of the flood protection device for a nuclear power plant according to an embodiment of the present invention. 3 shows a barrier unit of a flood protection device for a nuclear power plant according to an embodiment of the present invention, and FIG. 4 shows a control structure of a flood protection device for a nuclear power plant according to an embodiment of the present invention.

In FIGS. 1 and 2, the reactor building, the water barrier, the coastal barrier, and the drainage facility are shown together for convenience of description.

A flood protection device 1 of a nuclear power plant includes a barrier unit 10, a sensor 20, a control unit 30, a compressed air supply unit 40, and a door opening/closing unit 50.

The barrier unit 10 surrounds the main facilities of the nuclear power plant, and outside, a water barrier and a coastal barrier are located.

A drainage facility is located at the inner edge of the barrier unit 10, and the drainage facility may be a water tank and a water tank pump. However, it is not limited thereto.

Major buildings such as nuclear reactors are located on slightly higher ground than the surroundings, and water within the site is collected in tanks at each edge.

The collected water is discharged to the outside of the barrier unit 10 through a pipe by an installed water tank pump.

The barrier unit 10 may be arranged in a rectangular or circular shape around the nuclear power plant, and the shape is not limited.

The barrier unit 10 is provided by being buried underground.

The barrier unit 10 includes a flexible barrier room 100 , a flexible barrier door 200 , a flexible barrier 300 and a wire 400 .

The flexible barrier room 100 is located underground and is formed of a first accommodating space 101 and a second accommodating space 102 .

The first accommodating space 101 is located in an inward direction, and the second accommodating space 102 is located in an outward direction.

Here, the inward direction is toward the reactor building, and the outward direction is away from the reactor building and refers to the opposite direction.

The flexible barrier door 200 covers the flexible barrier room 100 and does not affect movement of people in the nuclear power plant.

The flexible barrier 300 is folded to be expandable and accommodated in the first accommodation space 101 in the inward direction of the flexible barrier room 100 .

One end of the wire 400 is connected to the ground, and the other end is connected to the top of the flexible barrier 300.

A plurality of wires 400 and the flexible barrier door 200 are installed at regular intervals so that adjacent barriers come into contact when the flexible barrier 300 is inflated.

The sensor 20 is installed outside the reactor building, the barrier wall, and the coastal barrier, and when a flood occurs, if the measured value from the sensor 20 exceeds a certain level, the control unit 30 opens the flexible barrier door 200 and the flexible barrier 300 ) to supply air.

Opening of the flexible barrier door 200 may be performed passively due to the expansion of the flexible barrier 300 .

The flexible barrier 300 is inflated by injection of compressed air from the compressed air supply unit 40 under the control of the control unit 30 and is installed to extend to the outside of the flexible barrier room 100 .

Next, the operation of the flood protection device of a nuclear power plant according to an embodiment of the present invention will be described with reference to FIGS. 5 to 7 .

5 is an operating flowchart of a flood protection device for a nuclear power plant according to an embodiment of the present invention, and FIG. 6 is a view for explaining a drainage facility of a flood protection device for a nuclear power plant according to an embodiment of the present invention. It shows the operation of the barrier unit of the nuclear power plant flood protection device according to an embodiment of the present invention.

First, the flood protection system module automatically operates by recognizing the situation according to weather information (S10).

The step-by-step situation, such as the start of module operation, is automatically transmitted to the operator of the nuclear power plant through text messages and SNS (S20).

The sensor 20 senses the first danger signal of the water level of the water barrier, the coastal barrier, and the outer wall of the reactor building (S30).

The water tank pump in the nuclear power plant site is automatically operated (S40).

In this step, as shown in FIG. 6 , water in the nuclear power plant site is discharged to the outside of the barrier unit 10 through a pipe.

The safety of nuclear power plants can be quickly maintained even in the event of flooding and a significant amount of rainwater through on-site drainage facilities.

However, if the level of the water barrier or the outer wall of the nuclear power building is detected as a secondary danger signal even after that (S50), the flexible barrier door 200 is opened and compressed air is automatically injected into the flexible barrier 300 (S60).

This step will be described in detail with reference to FIG. 7 .

By the secondary danger signal, the flexible barrier door 200 is opened and disposed vertically on the ground.

When opened, the flexible barrier door 200 can extend in the vertical direction in the form of an antenna.

The flexible barrier 300 is accommodated in the first accommodating space 101 and expands to the outside of the flexible barrier room 100 by receiving air.

When the flexible barrier 300 is inflated and extended in the vertical direction, a portion of the flexible barrier 300 is located outside the flexible barrier room 100 .

When the flexible barrier 300 is extended, it is not limited thereto, but may be extended in a method such as an air bag method, an automatic charging mat method, and air injection from the outside.

Air injection from the outside can be done automatically using a compressor or from a separate compression tank.

The flexible barrier door 200 is positioned in the inner direction of the extended flexible barrier 300 to support the flexible barrier 300 from the load of water.

The length of the flexible barrier door 200 can be extended to the height of the flexible barrier 300 extending in the form of an antenna.

The wire 400 connects the outer ground and the upper end of the extended flexible barrier 300, so elastic tension is generated.

The elastic tension of the wire 400 supports the flexible barrier 300 so that it does not cross inward.

In the nuclear power plant flood protection device of the present invention, the flexible barrier 300 is the flexible barrier door 200, the elastic tension of the wire 400 and the flood load with water filling the second accommodation space 102 of the flexible barrier room 100 has a structure that can withstand

Due to this, the flexible barrier 300 can safely block flooding of the nuclear power plant even in the event of a tsunami or tsunami, and can also maintain the safety of the nuclear power plant.

In addition, it serves as an additional barrier in the event of a tidal wave or flooding from the side and rear that cannot be prevented by existing coastal barriers and water barriers.

Finally, the area within the flexible barrier 300 maintains a low water level through the continuous operation of the water tank pump (S70).

As above, specific parts of the present invention have been described in detail, and for those skilled in the art, it is clear that these specific descriptions are only preferred embodiments, and the scope of the present invention is not limited thereby. something to do. Accordingly, the substantial scope of the present invention will be defined by the appended claims and their equivalents.

Claims (6)

In the flood protection device for protecting a nuclear power plant in the event of a flood,
Including a barrier unit surrounding the reactor building,
The barrier unit,
a flexible barrier room arranged lower than the ground and spaced apart from the reactor building to surround the reactor building;
a flexible barrier door covering the flexible barrier room and being able to be opened and closed;
a flexible barrier accommodated in the flexible barrier room and extending to the outside of the flexible barrier room when a flood occurs; and
A wire having one end connected to the outside of the flexible barrier room and the other end connected to an upper end of the flexible barrier to support the flexible barrier when the flexible barrier is extended,
Further comprising a water tank pump provided inside the barrier unit,
The water tank pump discharges water to the outside of the barrier unit when a flood occurs,
The flexible barrier door,
It is opened when the flexible barrier is extended, and is disposed to support the flexible barrier in an internal direction of the flexible barrier in an open state,
The flexible barrier room,
a first accommodating space accommodating the flexible barrier when the flexible barrier is extended; and
It extends from the first accommodating space toward the outside of the reactor building,
Including; a second accommodation space for accommodating water,
In the extended state of the flexible barrier,
The flexible barrier door opened toward the inside of the flexible barrier;
Water received in the second accommodation space and
A flood protection device of a nuclear power plant that prevents the flexible barrier from being crossed in an inward direction by a flood load due to the elastic tension of the wire. delete delete According to claim 1,
The flexible barrier door,
A flood protection device for nuclear power plants that can be vertically extended in an open state. delete According to claim 1,
The flexible barrier,
A flood protection device for a nuclear power plant further comprising a compressed air supply unit, wherein the flexible barrier is extended by receiving compressed air from the compressed air supply unit.

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