KR20200042107A - Fire extinguishing system and fire extinguishing method using the same - Google Patents

Abstract

The present invention relates to a fire extinguishing system for extinguishing a fire in a fire prevention area in which a volume control tank (VCT) in a nuclear reactor building is located. The fire extinguishing system includes: a detection unit for detecting a fire situation in the fire prevention area; a pressure gas supply unit for supplying pressure gas to the volume control tank (VCT); a pressure gas spray unit receiving the pressure gas from the pressure gas supply unit and spraying the pressure gas into the fire prevention area; and a control unit for controlling the pressure gas supply unit.

Description

Fire extinguishing system and fire suppression method using the same {FIRE EXTINGUISHING SYSTEM AND FIRE EXTINGUISHING METHOD USING THE SAME}

The present invention relates to a fire extinguishing system and a method for extinguishing a fire using the same, and more particularly, to a fire extinguishing system for extinguishing a fire in a fire prevention area in a nuclear power plant and a method for extinguishing a fire using the same.

In general, fire and explosion accidents in buildings often cause great damage not only to property but also to humans, and thus, a fire extinguishing system for extinguishing a fire in a fire prevention area is essential.

Moreover, fires and explosions in buildings and spaces where important facilities (e.g., safety related systems of nuclear power plants) are located, provide the possibility of hazardous substances leaking out of the power plant, along with property loss. There is a high possibility of damage to the people who reside to manage.

In particular, early fire suppression is very important in a nuclear power plant. For example, if a fire in a fire control area where a volume control tank (VCT) in charge of chemical and volume control in a nuclear power plant and equipment and cables that perform important functions for power plant safety stops are located cannot be extinguished and becomes large, It may negatively affect the power plant safety shutdown.

In general, a fire extinguishing facility using fire extinguishing water is mainly used in a fire prevention area in which nuclear power plants have safety-critical equipment and cables, and fire extinguishing facilities are provided by a dedicated fire extinguishing water tank, and fire extinguishing water is provided by a fire pump.

However, when the fire situation in the fire prevention area is different (when the size of the fire is increased), it is not easy to extinguish the fire with only the fire extinguishing equipment using conventional fire extinguishing water. In particular, fire extinguishing using fire extinguishing water is suitable for electric fire such as cables. Did not do it.

Therefore, in the event of a fire in a fire prevention area where a volume control tank (VCT) in charge of chemical and volume control in a nuclear power plant and equipment and cables that perform important functions for power plant safety stop can be quickly and quickly extinguished according to the fire situation. A separate additional fire extinguishing system is required.

Republic of Korea Registered Patent Publication No. 10-0495358 (registered on June 03, 2005)

The present invention is to provide a fire extinguishing system for extinguishing a fire in a fire prevention area where a safety stop device and a cable are located in a nuclear power plant and a method for extinguishing a fire using the same.

The present invention is a fire extinguishing system for extinguishing a fire in a fire prevention area in which a volume control tank (VCT) in a nuclear reactor building is located, the detection unit detecting a fire situation in the fire prevention area; A pressure gas supply unit supplying pressure gas to the volume control tank (VCT); A pressure gas injection unit receiving the pressure gas from the pressure gas supply unit and spraying the pressure gas to the fire prevention zone; And a control unit controlling the pressure gas supply unit.

A safety stop cable tray for supplying power to a safety stop critical pump is located in the fire prevention area, and the pressure gas supply unit includes: a pressure tank in which pressure gas is stored; A main supply pipe supplying the pressure gas from the pressure tank to the volume control tank (VCT); And a first supply pipe branched from the main supply pipe and supplying pressure gas to an area where the volume control tank (VCT) and the surrounding safety stop cable tray are located in the fire prevention area. The gas can be nitrogen.

The pressure gas injection unit, a first injection unit for injecting the pressure gas toward the volume control tank (VCT); And a second injection unit for spraying the pressure gas toward the safety stop cable tray.

The control unit, in the event of a fire, injects the pressure gas to the volume control tank (VCT) through the first injection unit, and when the detection results in a fire above a certain level, the safety stop cable tray through the second injection unit The pressure gas supply unit may be controlled to spray the pressure gas to the surroundings.

The pressure gas injection unit is located above the volume control tank (VCT), the safety stop cable tray is located around the volume control tank (VCT), the first injection unit toward the bottom, the second injection unit is a side The pressure gas can be injected toward.

The fire protection zone further includes an additional fire protection zone with a CCW surge tank, and the additional fire protection zone also receives the pressure gas from the pressure gas supply unit, and the pressure gas supply is branched from the main supply pipe. , It may be supplied through a second supply pipe supplying pressure gas to the area where the CCW surge tank and the surrounding safety stop cable tray are located in the additional fire prevention area.

The present invention is a fire extinguishing method for extinguishing a fire in a fire prevention area where a volume control tank (VCT) is located in a nuclear reactor building, wherein the fire prevention area is provided with a pressure gas supply unit for supplying pressure gas to the volume control tank (VCT). And detecting a fire situation in the fire prevention area. And injecting pressure gas from the pressure gas supply unit according to the detection result.

The fire prevention area further includes an additional fire prevention area with a CCW surge tank, and a safety stop cable tray for supplying power to a safety stop critical pump is located in the fire prevention area and the additional fire prevention area. If it is determined that the above fire has occurred, it may further include the step of injecting the pressure gas to the safety stop cable tray.

The present invention provides a fire extinguishing system for extinguishing a fire in a fire prevention area in which a volume control tank (VCT) in charge of chemical and volume control in a nuclear power plant and a device and a cable that perform an important function for power plant safety stop are located. By supplying pressure gas (nitrogen) according to my fire situation, and controlling the pressure gas to be injected, it is possible to quickly and quickly extinguish the fire in the fire prevention area.

The fire extinguishing system according to the present invention exhibits an excellent effect when it is not possible to extinguish only with conventional fire extinguishing equipment when the size of the fire in the actual fire prevention area is dramatically increased, and enables proper fire suppression depending on the situation.

As a result, the fire extinguishing system according to the present invention is capable of preventing property loss, reducing damage to human life, and safely maintaining the power plant, as well as rapid fire suppression according to the fire in the safety stop device and the cable in the nuclear power plant. .

1 shows a digestive system according to an embodiment of the present invention,
Figure 2 is a block diagram showing the control of the digestive system according to an embodiment of the present invention,
Figure 3 shows the gas injection nozzle of the pressure gas injection unit according to an embodiment of the present invention,
Figure 4 is a flow chart showing a fire suppression method using a fire extinguishing system according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present embodiment is not limited to the embodiments disclosed below, but may be implemented in various forms with each other, and only this embodiment allows the disclosure of the present invention to be complete, and the scope of the invention to those skilled in the art. It is provided to inform you completely. The shape of the elements in the drawings may be exaggeratedly expressed for clarity, and elements indicated by the same reference numerals in the drawings refer to the same elements.

First, in the present invention, the fire prevention area means an area in which a volume control tank (VCT) is located in a nuclear power plant, and the volume control tank (VCT) is a chemical and volume control system in a nuclear power plant and plays an important function in power plant safety stop. . In the periphery of the fire prevention area where the volume control tank (VCT) is located, equipment (usually a safety stop critical pump) and a cable tray that perform an important function for safety stop of the power plant are located, and are installed through the fire prevention area.

When a fire occurs in a fire prevention area where a volume control tank (VCT) is located, when a fire is not easily extinguished by an existing water spray fire extinguishing facility, the fire extinguishing system and fire suppression for the volume control tank (VCT), as well as around The fire extinguishing system and fire suppression for the located safety stop cable tray are also required, and it is possible to extinguish the fire in the fire prevention area by the fire extinguishing system using the pressure gas embodied in the present invention and the fire suppression method using the same.

In the present invention, the fire prevention area may further include an additional fire prevention area with a CCW surge tank, as well as an area where a volume control tank (VCT) is located in a nuclear reactor building.

In the additional fire prevention areas with CCW surge tanks, devices (usually safety stop critical pumps) and cables that perform important functions for power plant safety stops are located, and the safety stop cable tray required for the operation of these safety stop critical pumps is a CCW surge tank. You will pass through the fire zone where is located.

Like the fire extinguishing system and fire suppression in the fire prevention area where the volume control tank (VCT) is located as above, a fire extinguishing system for the fire in the additional fire prevention area with the CCW surge tank is required, and the safety stop cable located in the vicinity Fire fighting on the tray is also necessary. Accordingly, in the fire protection area by the fire extinguishing system using the pressure gas in the high pressure pressure vessel and the fire suppression method using the pressure tanks for pressurizing the pressure tanks (for example, VCT and CCW Surge Tank) in the power plant embodied in the present invention. You will be able to extinguish the fire.

The details of the above will be described in detail in a fire extinguishing system for extinguishing a fire in a fire prevention area in a nuclear power plant embodied through an embodiment of the present invention and a fire suppression method using the same.

Referring to Figures 1 to 3 will be described with respect to the digestive system according to an embodiment of the present invention.

Figure 1 shows a fire extinguishing system according to an embodiment of the present invention, Figure 2 is a block diagram showing the control of the fire extinguishing system according to an embodiment of the present invention, Figure 3 is a pressure according to an embodiment of the present invention It shows the gas injection nozzle of the gas injection section.

1, the fire extinguishing system 10 includes a sensing unit 100, a pressure gas supply unit 200, a pressure gas injection unit 300 and a control unit 400.

The sensing unit 100 detects a fire situation in the fire prevention area.

The detection unit 100 may be installed in the fire protection area, and detects the size of the fire when a fire occurs in the fire protection area.

In one embodiment of the present invention, although the detection unit 100 is indicated as being installed only in the fire prevention area, in other embodiments, it may be installed in an additional fire prevention area, and the detection unit 100 installed in the fire prevention area and ( Although not shown), separate sensing units installed in additional fire protection areas may be connected to each other.

The sensing unit 100 may include a camera capable of visually detecting the size of a fire, a CCTV, and a thermal imaging camera. In addition, it may include a thermal measurement device (for example, a temperature sensor, etc.) to determine the size of the fire by checking the temperature in the fire prevention area.

The detection unit 100 detects the size of the fire in the fire prevention area, and transmits the detection result to the control unit 400. The control unit 400 controls the pressure gas supply unit 200 that affects the pressure and flow rate of the pressure gas injected in the fire prevention area based on the transmitted detection result. Details of the role of the control unit 400 will be described in detail below.

The pressure gas supply unit 200 includes a pressure tank 210 in which pressure gas is stored, a main supply pipe 220, a first supply pipe 230 and a second supply pipe 240.

In the pressure tank 210, nitrogen, which is a pressure gas, is stored.

As shown in Figure 1, the pressure gas supply unit 200 is connected to the main supply pipe 220 for supplying pressure gas from the pressure tank 210 to the volume control tank (VCT).

The pressure gas supply unit 200 always supplies nitrogen, which is pressure gas, to the volume control tank (VCT) as usual, and this is performed through the main supply pipe 220.

The first supply pipe 230 is branched from the main supply pipe 220 and supplies pressure gas to the volume control tank (VCT) in the fire prevention area and the area where the surrounding safety stop cable tray is located.

The second supply pipe 240 is branched from the main supply pipe 220 and supplies pressure gas to an area where the CCW surge tank and the surrounding safety stop cable tray are located in an additional fire prevention area.

When a fire occurs in the power plant, the pressure gas supplied through the pressure gas supply unit 200 is first supplied to the main supply pipe 220, and then supplied to the first supply pipe 230 and the second supply pipe 240 do. At this time, the pressure and flow rate of the pressure gas supplied from the main supply pipe 220 to the first supply pipe 230 and the second supply pipe 240 are controlled through the control unit 400.

Specifically, in the event of a fire in the fire prevention area where the volume control tank (VCT) and CCW surge tank are located and in the additional fire prevention area, according to the size and temperature of the fire, the first supply pipe 230 (not shown) ) And the “pressure gas sub-regulation valve” located in the second supply pipe 240 is opened, and the high pressure gas supplied through the main supply pipe 200 is supplied to the first supply pipe 230 and the second supply pipe. It will be supplied through 240. At this time, the pressure tank 210 that supplies pressure gas to the main supply pipe 220 reflects a sufficient amount of pressure gas (nitrogen) for extinguishing the fire according to the size of the fire occurring in the fire prevention zone and the additional fire prevention zone. to be.

1 and 2, the control unit 400 controls the pressure and flow rate of the pressure gas supplied from the pressure gas supply unit 200 to supply the pressure gas supplied to the main supply pipe 220 to the first supply pipe Control of the supply to the fire prevention area where the volume control tank (VCT) and the safety stop cable are located through 230 and the supply to the additional fire prevention area where the CCW surge tank and the safety stop cable are located through the second supply pipe 240 Will be in charge.

The control unit 400 is a fire extinguishing system for the fire prevention area and the additional fire prevention area according to the detection signal of the detection unit 100 (not shown) or a separate detection unit that is generated differently according to the fire situation and size generated in the nuclear power plant It determines (selects) whether or not the operation and fire extinguishing.

Specifically, the pressure and flow rate of the pressure gas (nitrogen) supplied to each supply pipe from the pressure gas supply unit 200 through the control unit 400 is controlled, and (not shown) is located in the main supply pipe 220 By controlling the opening and closing of the “pressure gas main control valve” and the “pressure gas sub-regulation valve” located in the first supply pipe 230 and the second supply pipe 240, pressure gas is supplied to the fire protection zone and additional fire protection zones. Control.

As shown in FIG. 3, the pressure gas injection unit 300 includes a first injection unit 310 and a second injection unit 320.

The pressure gas injection unit 300 receives the pressure gas from the pressure gas supply unit 200 and injects pressure gas into the fire prevention area and the additional fire prevention area.

The pressure gas injection unit 300 is located above the volume control tank (VCT) and the CCW surge tank, and the safety stop cable tray is provided around the volume control tank (VCT) and the CCW surge tank where the pressure gas injection unit 300 is located. Will be located.

The first injection unit 310 injects pressure gas toward the volume control tank (VCT) and the CCW surge tank, and injects pressure gas directly into the volume control tank (VCT) and the CCW surge tank.

In the pressure gas injection unit 300, the first injection unit 310 is a portion formed by reducing the diameter of one end of the pressure gas injection unit 300, and is a portion in which pressure gas is injected at a high speed downward. Specifically, the high-pressure pressure gas supplied from the pressure gas supply unit 200 injects pressure gas at a high speed to the volume control tank (VCT) and CCW surge tank located below the nozzle vertically through the first injection unit 310. Is done.

In an embodiment of the present invention, the shape of the first injection unit 310 is formed in a circular or elliptical shape formed by reducing the diameter of one end of the pressure gas injection unit 300, but in another embodiment, the first injection unit 310 The shape of the pressure gas injection unit 300 may vary in various ways.

As illustrated in FIG. 3, the second injection part 320 injects pressure gas toward the safety stop cable tray, and injects pressure gas around the safety stop cable tray when spraying.

The second injection unit 320 is formed with a hole (specifically in the form of a discharge hole) through which pressure gas can be injected at one end of the pressure gas injection unit 300, and pressure gas is injected through the hole only when a certain pressure is applied. Structure, the pressure gas is injected side by side through the hole injection.

Similar to the first injection part 310, the pressure gas pressurized through the second injection part 320 is injected toward the safety stop cable tray.

However, the second injection unit 320 in one embodiment of the present invention is expressed as a structure in which a pressure gas is injected while a hole is opened only when a certain pressure or more is applied. It may be a structure in which the pressure gas is injected by automatic opening at a certain temperature or higher through.

In the event of a fire, first, pressure gas is injected into the volume control tank (VCT) and around the CCW surge tank through the first injection unit 310. After this, if the fire is not extinguished within a short period of time, the high temperature combustion gas stays on the ceiling, and a hot gas layer is formed on the ceiling, and the temperature and radiant heat flux values in the area near the ceiling rise rapidly.

At this time, the rapid temperature change and the excess of the radiant heat flux value may damage the safety stop cable tray located in the fire protection zone and the additional fire protection zone. Therefore, when it is determined that the predetermined temperature and the heat flux in the vicinity of the ceiling by the sensing unit 100 are higher than a certain level, pressure gas is injected around the safety stop cable tray through the second injection unit 320, and near the ceiling. The safety stop cables located can be safely protected.

A method of extinguishing a fire using a fire extinguishing system for extinguishing a fire in a fire prevention area will be described with reference to FIG. 4.

Figure 4 is a flow chart showing a fire suppression method using a fire extinguishing system according to an embodiment of the present invention.

In the following description, the case where the fire prevention area further includes an additional fire prevention area with a CCW surge tank as well as an area where a volume control tank (VCT) is located in a nuclear reactor building is described.

In case of fire in the fire prevention area where the volume control tank (VCT) and CCW surge tank are located, not only the fire extinguishing system and fire suppression for the volume control tank (VCT), but also the fire extinguishing system and fire suppression for the safety stop cable tray located nearby It is also necessary, and it is possible to extinguish a fire in a fire prevention area by a fire extinguishing system using the pressure gas embodied in the present invention and a fire suppression method using the same.

When a fire occurs in a critical facility in a power plant, such as a volume control tank (VCT) in a nuclear power plant and a CCW surge tank, fire is first detected in the fire prevention area (S1).

Depending on the detection result, pressure gas is supplied through the pressure gas supply unit, and pressure gas is injected around the volume control tank (VCT) and the CCW surge tank. (S2)

Thereafter, when it is determined that the detection result from the detection unit is higher than a certain level, pressure gas is injected around the safety stop cable tray. (S3)

The method of extinguishing a fire according to the extinguishing system as described above is as follows.

First, when a fire occurs, fire detection is performed through the detection unit, and a detection signal is transmitted to the control unit.

According to the fire prevention area where the fire occurred, the control unit determines (selects) the operation of the fire extinguishing system and fire extinguishing according to an embodiment of the present invention, and the pressure gas supplied from the pressure gas supply unit to each supply pipe through the control unit The pressure and flow rate of (nitrogen) are controlled.

Next, the pressure gas (nitrogen) supplied from the pressure gas supply unit is injected into the pressure gas supplied from the pressure gas supply unit through the control unit according to the detection result of the sensing unit.

The first injection unit directly injects the pressure gas into the volume control tank (VCT) and the CCW surge tank, and the pressure gas is injected by the pressurized pressure during injection.

The second injection unit directly injects the pressure gas toward the safety stop cable tray, and when spraying, a wide area is injected, and the pressure gas is injected in the form of an atomized water by pressurized pressure.

The first injection part is a part formed by reducing the diameter of one end of the pressure gas injection part, the pressure gas is injected downward, and the second injection part is a hole (specifically in the form of a discharge hole) through which pressure gas can be injected at one end of the pressure gas injection part ) Is formed, the side is sprayed through the side hole.

The fire extinguishing system according to the present invention is a fire in a fire prevention area in which a volume control tank (VCT) in charge of chemical and volume control in a nuclear power plant and a device and a cable (such as a safety stop cable tray) that perform important functions for power plant safety stop are located. By providing a fire extinguishing system to suppress fire, it is possible to rapidly and quickly extinguish a fire in the fire prevention area by supplying pressure gas (nitrogen) according to the fire situation in the fire prevention area and adjusting the pressure gas to be injected.

The fire extinguishing system exhibits an excellent effect when the size of the fire in the actual fire prevention area can not be extinguished by the conventional fire extinguishing equipment only when the size of the fire is greatly increased, and enables proper fire suppression depending on the situation.

As a result, the fire extinguishing system can prevent the loss of property, reduce the damage to human life, and keep the power plant safe, as well as the rapid fire extinguishing according to the fire in the safety stop device and cable in the nuclear power plant.

The embodiments of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention. The scope of protection of the present invention is limited only by the items described in the claims, and a person having ordinary knowledge in the technical field of the present invention can improve and modify the technical spirit of the present invention in various forms. Therefore, such improvements and modifications will fall within the protection scope of the present invention as long as it is apparent to those skilled in the art.

Claims (8)

In a fire extinguishing system for extinguishing a fire in a fire prevention area where a volume control tank (VCT) is located in a nuclear reactor building,
A detection unit detecting a fire situation in the fire prevention area;
A pressure gas supply unit supplying pressure gas to the volume control tank (VCT);
A pressure gas injection unit receiving the pressure gas from the pressure gas supply unit and spraying the pressure gas to the fire prevention zone; And
Fire extinguishing system comprising a control unit for controlling the pressure gas supply. According to claim 1,
A safety stop cable tray for supplying power to a safety stop critical pump is located in the fire prevention area,
The pressure gas supply unit,
A pressure tank in which pressure gas is stored;
A main supply pipe supplying the pressure gas from the pressure tank to the volume control tank (VCT); And
It includes a first supply pipe which is branched from the main supply pipe and supplies pressure gas to an area where the volume control tank (VCT) and the safety stop cable tray in the surrounding area are located.
The extinguishing system, characterized in that the pressure gas is nitrogen. According to claim 2,
The pressure gas injection unit,
A first injection unit for injecting the pressure gas toward the volume control tank (VCT); And
Fire extinguishing system comprising a; second injection unit for injecting the pressure gas toward the safety stop cable tray. In claim 2,
The control unit,
In the event of a fire, the pressure gas is injected into the volume control tank (VCT) through the first injection unit,
A fire extinguishing system characterized by controlling the pressure gas supply unit to inject the pressure gas around the safety stop cable tray through the second injection unit when a fire of a predetermined level or more occurs as a result of the detection. In claim 2,
The pressure gas injection unit is located above the volume control tank (VCT),
The safety stop cable tray is located around the volume control tank (VCT),
The first injection portion is directed to the lower portion, the second injection portion is extinguishing system, characterized in that for injecting the pressure gas toward the side. In claim 2,
The fire zone further comprises an additional fire zone with a CCW surge tank,
The additional fire prevention area is also supplied with the pressure gas from the pressure gas supply unit,
The pressure gas supply,
A fire extinguishing system that is branched from the main supply pipe and is supplied through a second supply pipe supplying pressure gas to an area where the CCW surge tank and the surrounding safety stop cable tray are located in the additional fire prevention area. . In the fire extinguishing method to extinguish the fire in the fire prevention area where the volume control tank (VCT) in the reactor building is located,
In the fire prevention area, a pressure gas supply unit is provided for supplying pressure gas to the volume control tank (VCT),
Detecting a fire situation in the fire prevention area; And
And injecting pressure gas from the pressure gas supply unit according to the detection result. In claim 7,
The fire zone further comprises an additional fire zone with a CCW surge tank,
In the fire prevention area and the additional fire prevention area, a safety stop cable tray for supplying power to a safety stop critical pump is located,
If it is determined as a result of the detection of a fire over a certain level, the fire suppression method further comprising the step of injecting the pressure gas to the safety stop cable tray.

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