KR20200033007A - Passive air purification system using compressed air and air purification method using the same - Google Patents

Abstract

The present invention relates to a passive air purification system for purifying air without supply of power when a power function is eliminated in a nuclear power plant, and an air purification method using the same. Moreover, air of a main control chamber flows into an air purification unit by pressure generated when the compressed air is supplied to an eductor, and thus, purified air can be supplied to the main control chamber.

Description

PASSIVE AIR PURIFICATION SYSTEM USING COMPRESSED AIR AND AIR PURIFICATION METHOD USING THE SAME

The present invention relates to a passive air purification system capable of air purification without power supply and an air purification method using the same when the power function is lost in a nuclear power plant.

The air purification system of the main control room of the nuclear power plant performs the function of cooling and purifying the air of the main control room to secure the occupancy of the operator. However, the existing air conditioning system of the main control room loses the function of the air purification system when the power plant is turned off, so there is a problem that it is impossible to secure the occupancy of the operator of the main control room.

Korean Patent Publication No. 2011-0086968 (published on Aug. 02, 2011) Korean Patent Publication No. 2017-0104473 (released on September 15, 2017)

An object of the present invention is to purify the air in the main control room space by using compressed air to prevent the air purification system from failing to function when the nuclear power plant is powered off, thereby securing the occupancy of the operator.

An object of the present invention is a passive air purification system in a main control room of a nuclear power plant, a compressed air tank in which compressed air is stored, an air purifying unit for purifying air from the outside air and the main control room, and the compressed air It is achieved by a main control room passive air purification system including an eductor for supplying the air purified by the air purification unit to the main control room.

A valve for determining whether to supply the compressed air may be further included.

The control unit may further include an air quality detection unit that senses the air quality of the main control room, and the control unit may control the valve based on the detection result of the air quality detection unit.

The eductor has a compressed air inlet through which the compressed air flows, a compressed air inlet formed in a vertical direction with the compressed air inlet, and through which the purified air passing through the air purifying part flows, and the compressed air inlet and the purified It includes an air discharge port through which compressed air introduced from the air inlet and purified air are mixed and discharged, and the eductor suctions vacuum purified air formed by compressed air and supplies it to the main control room together with the compressed air. It may be.

The compressed air tank may be a compressed air tank included in a compressed air cylinder of a nuclear power plant.

As another solution for achieving the object of the present invention, in the air purification method for the main control room, providing a main control room passive air purification system, wherein the main control room passive air purification system is compressed compressed air stored An air tank, an air purifying unit for purifying air from the main control chamber, and an eductor for supplying air purified by the air purifying unit to the main control chamber using the compressed air, and an air texture located in the main control chamber An air quality detection step including a branch, detecting an air quality decrease in the main control room, and supplying compressed air from the compressed air tank to an eductor when the air quality is judged to be lower than a standard, the compression An air purification step, in which air in the main control room is introduced into the air purification unit by the pressure of air, phase It is achieved by a passive air purification method of the main control room, including a purified air discharge step of discharging the purified air from the air purification step to the main control room.

The compressed air supplying step may include a pressure adjusting step of adjusting the pressure of the compressed air.

In the air quality sensing step, the air quality deterioration unit may be determined based on at least one selected from oxygen concentration, carbon dioxide concentration, and main air pressure.

By enabling air purification using the compressed air of the present invention, it is possible to purify the air of the main control room in case of power loss of the power plant, thereby ensuring occupancy of the operator of the main control room.

In addition, in the case of linking with a compressed air cylinder being used in a nuclear power plant, there is an advantage of easy installation by utilizing an existing compressed air cylinder without installing a separate compressed air tank.

1 schematically shows the structure of a passive air purification system according to an embodiment of the present invention.
2 is a cross-sectional view of an eductor according to an embodiment of the present invention.
3 is a block diagram showing control of a passive air purification system according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

The accompanying drawings are only examples shown in order to describe the technical spirit of the present invention in more detail, so the spirit of the present invention is not limited to the accompanying drawings.

1 shows the structure of a passive air purification system 1 according to an embodiment of the present invention. The passive air purification system (1) is a compressed air tank (100) in which compressed air is stored, an air purifying unit (300) for purifying air from outside air and a main control room, and purified from the air purifying unit using compressed air. It comprises an eductor 700 for supplying air to the main control room.

The compressed air tank 100 is prepared for emergency use for the passive air purification system 1 in preparation for power loss of the power plant. Compressed air in the present invention means that the air in the air is compressed to a pressure higher than atmospheric pressure by a compressor or the like. Since it is supplied to the main control room, the less impurities are, the better.

In another embodiment, the compressed air tank 100 may be a compressed air tank used in a compressed air cylinder for nuclear power generation in a nuclear power plant. It is possible to use compressed air tanks such as compressed air machines for instruments and compressed air machines for tools among compressed air machines of nuclear power plants. An impurity removal filter or an impurity detection device may be additionally included to increase the reliability of the compressed air tank of the instrument or tool compressed air system.

In an emergency, such as a power loss of a power plant, the compressed air of the compressed air tank 100 is supplied through the first pipe 210 by opening the valve 400. The pressure adjusting part 500 adjusts the pressure of the compressed air supplied to the eductor 700. In another embodiment, the pressure regulating unit 500 may be omitted.

2 is an embodiment of the present invention, specifically showing a cross-section of the eductor 700 shown in FIG. 1. The eductor 700 is formed in the vertical direction with the compressed air inlet 720 from the side of the eductor, the compressed air inlet 710 through which the compressed air supplied through the first pipe 210 flows, and the air purifying unit Purified air inlet 720 and compressed air inlet 710 and purified air introduced from the purified air inlet 720 through which the purified air that has passed through the 300 flows is mixed and discharged. ).

When the compressed air is passed through the compressed air inlet 710 of the eductor 700 and discharged to the air outlet 730 when the power plant is lost, the compressed air passes through the narrow passage area inside the eductor 700 and internal pressure This is lowered to a state similar to the vacuum state. As such, when the internal pressure is lowered, air that has passed through the air purification unit 300 from the purified air inlet 720 flows in by pressure.

The air introduced from the compressed air inlet 710 and the purified air inlet 720 is mixed to connect the third pipe 230 connected to the air outlet 730 through the air outlet 730 to the main control room from the air outlet 231 Is supplied. If at least a part of the air discharge port 730 of the eductor is formed inside the main control room, the illustrated third pipe 230 and the air discharge port 231 may be omitted.

Looking at the air purification process of the present invention in more detail, when the compressed air is vacuumed inside the eductor generated when it passes through the eductor 700, it is connected to the purified air inlet 720 of the eductor 700. The pressure of the second pipe 220 and the air purifying port 300 connected to the other side of the second pipe is also lowered. Accordingly, the main control room and the outside air are introduced through the air inlet 221 of the second pipe 220 formed in the main control room and the external air inlet 222 formed outside the main control room and through which the outside air flows.

The air of the main control room is repeatedly circulated in the order of air inlet 221, air purifier 300, eductor 700 and air outlet 231 by compressed air through this process, and air purification is performed.

Since the inside of the main control room may increase pressure due to compressed air, main control room air, external air, etc., an internal air outlet for reducing air pressure inside the main control room may be formed. The internal air outlet may be formed in a part of the main control room, or may be formed in the second pipe 220 between the air inlet 221 and the air purifier 300.

In another embodiment, a fan may be installed in a portion of the second pipe 220, and the fan may be driven by a battery such as a secondary battery rather than external power. In this case, the external power supply to the power plant is cut off, and additional air purification is possible even when the compressed air is exhausted.

3 shows control of a passive air purification system according to an embodiment of the present invention.

 The passive air purification system 1 of the present invention includes an air quality detection unit 600 to quickly detect a power loss condition of a power plant. When the air quality inside the main control room is lowered below a standard by the air quality detecting unit 600, the control unit 800 opens the valve 400. Even in a power loss state, power may be supplied from the emergency power supply unit so that the control unit 800 and the air quality sensing unit 600 can operate. The emergency power source may be a battery such as a primary battery or a secondary battery, or may be an emergency generator.

As another embodiment, when power is lost, the valve 400 may be automatically opened without additional power. When power is supplied to the valve 400, the valve is kept closed, and when power is lost, the valve 400 is opened to allow compressed air to flow in. In this method, the air quality detector 600 ) Or the control unit 400 may be omitted.

In the air purification method using the passive air purification system (1) of the present invention, after the air quality of the main control room is sensed to be lowered, the air quality of the compressed air tank (100) is reduced to below the standard. ). When compressed air is supplied to the eductor 700, the inside of the eductor 700 becomes a vacuum, and the air in the main control room is introduced into the air purifying unit 300 and purified by air, and then introduced into the eductor 700. , Eductors 700 are discharged to the main control room together with compressed air.

When supplying compressed air, the pressure of the compressed air can be adjusted. It is possible to control the speed of air purification through pressure control.

The detection of air quality may be one or more selected from oxygen concentration, carbon dioxide concentration, and atmospheric pressure of the main control room air. Using these factors, it can be determined that air purification of the main control room is not performed or that the function is lost. In another embodiment, the air quality detection unit 600 may be to detect a power loss of the power plant.

As described above, when the air purification system of the main control room of the existing power plant is not operated as a power loss, the air purification system using compressed air in the air purification system according to the present invention is driven to operate the air in the main control room without additional power supply. Since it can be purified, it is possible to secure the residence of the operator of the main control room.

The above-described embodiments are examples for explaining the present invention, and the present invention is not limited thereto. Any person having ordinary knowledge in the technical field to which the present invention pertains will be able to implement the present invention with various modifications therefrom, and thus the technical protection scope of the present invention should be defined by the appended claims.

Claims (8)

In the passive air purification system of the main control room of a nuclear power plant,
A compressed air tank in which compressed air is stored;
An air purifying unit for purifying the outside air and air in the main control room;
An eductor for supplying air purified by the air purification unit to the main control room using the compressed air; Main control room passive air purification system comprising a. In claim 1,
Main control room driven air purification system further comprising a valve for determining whether to supply the compressed air. In claim 2,
Control unit; And
Further comprising an air quality detection unit for detecting the air quality of the main control room,
The control unit controls the valve based on the detection result of the air quality detection unit main control room passive air purification system. In claim 1,
The eductor,
A compressed air inlet through which the compressed air flows;
A purified air inlet formed in a vertical direction with the compressed air inlet and into which purified air passing through the air purifying part flows; And
An air discharge port through which the compressed air introduced from the compressed air inlet and the purified air inlet are mixed and discharged; It includes,
The eductor suctions the air purified by vacuum formed by compressed air and supplies the compressed air with the compressed air to the main control room passive air purification system. In claim 1,
The compressed air tank is a compressed air tank included in a compressed air cylinder of a nuclear power plant. In the main room air purification method,
Preparing a main control room passive air purification system, where:
The driven air purification system of the main control room includes a compressed air tank in which compressed air is stored, an air purifying unit for purifying the air of the main control chamber, and using the compressed air to purify air purified by the air purifying unit to the main control room An eductor for supplying, and an air quality detecting unit located in the main control room;
An air quality detection step of detecting whether the air quality of the main control room is deteriorated;
A compressed air supply step of supplying compressed air of the compressed air tank to the eductor when it is determined that the air quality is lowered below a standard;
An air purifying step of introducing air in the main control chamber into the air purifying unit by the pressure of the compressed air;
Purified air discharge step of discharging the air purified in the air purification step to the main control room; Main control room passive air purification method comprising a. In claim 6,
The compressed air supplying step, the main control room passive air purification method comprising the step of adjusting the pressure of the compressed air. In claim 6,
In the air quality sensing step, the main air chamber passive air purification system characterized in that the air quality lowering unit is determined based on at least one selected from oxygen concentration, carbon dioxide concentration, and main air pressure.

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