KR20210153980A - Air cleaning system for neclear power plant including a plurality of air cleaning unit - Google Patents

Abstract

According to one embodiment of the present invention, an air purification system for a nuclear power plant comprises: an air purifier for purifying the outside air; and a double duct connected to the air purifier, wherein the outside air and the purified air passing through the air purifier flow therethrough. The air purifier includes: an inlet unit through which the outside air is introduced; a filtering unit for filtering the outside air introduced into the inlet unit; and an outlet unit for discharging the purified air that has passed through the filtering unit to the outside. The outlet unit includes: an outlet body; a plurality of blowing fans located inside and outside the outlet body; and a moving part for moving the plurality of blowing fans to the inside and outside of the outlet body.

Description

An air purification system for a nuclear power plant including a plurality of air purifiers

The present invention relates to an air conditioning system for a nuclear power plant, and more particularly, to an air purification system for a nuclear power plant including a plurality of air cleaners.

In general, a plurality of rooms are installed in a nuclear power plant, and the plurality of rooms are composed of a safety system room and a non-safety system room. The safety system room is a room in which a stable stop system facility is installed, and the safe stop system facility corresponds to a facility that must be operated to safely stop the power plant even in extreme disasters such as on-site or off-site power outages due to arson.

In this safety system room, not only the safety shutdown system facility but also the safety shutdown related air purification system to protect the operator are installed.

The air purification system includes a plurality of air cleaning units (ACUs), and the air cleaning units (ACUs) may purify polluted air in a fire zone in a nuclear power plant.

If the air purifier of the safe stop-related air purifying system is operating, another air purifier in standby state is required in case of an emergency, and another air purifier is required for maintenance during operation. Accordingly, the safe stop-related air purification system may consist of four or more air purifiers. In this case, the size of the nuclear power plant increases.

This embodiment relates to an air purification system for a nuclear power plant that can reduce the size of a nuclear power plant and is applicable to a safety system room.

An air purification system for a nuclear power plant according to an embodiment includes an air purifier for purifying external air; and a double duct connected to the air purifier through which the external air and the purified air passing through the air purifier flow. a filtering unit for filtering, and an outlet for discharging the purified air that has passed through the filtering unit to the outside, wherein the outlet includes an outlet body, a plurality of blowing fans positioned inside and outside the outlet body, and the plurality of blowers and a moving part for moving the fan into and out of the outlet body.

The moving part includes a first moving part positioned at the bottom of the outlet body, a second moving part positioned on the ceiling of the outlet body, and the first moving part and the second moving part located inside the outlet body. a third moving part to connect, a fourth moving part which is located outside the outlet main body and connects the first moving part and the second moving part, wherein the blowing fan uses the first to fourth moving parts to move from the inside to the outside or from the outside to the inside of the outlet body.

The filtering unit may include a filtering body, a plurality of filters located inside the filtering body, a heating unit located inside the filtering body and heating the outside air, and a replacement unit replacing the heating unit.

The double duct may include an inner duct connected to the outlet of the air purifier through which the purified air flows, and an outer duct surrounding the inner duct and connected to the inlet of the air purifier through which the outside air flows.

According to one embodiment, by installing an air purifier capable of alternately using a plurality of blowing fans and alternately using a plurality of heating units in a nuclear power plant, it is applicable to a safety system room, and the size of a nuclear power plant can be reduced. .

In addition, by installing a double duct through which external air and purified air can flow at the same time in the nuclear power plant, the size of the nuclear power plant can be reduced.

1 is a schematic diagram of an air purification system for a nuclear power plant according to an embodiment of the present invention.
2 is a view for explaining a specific operating state of the outlet of the air purification system for a nuclear power plant according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, various embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. The present invention may be embodied in several different forms and is not limited to the embodiments described herein.

In order to clearly explain the present invention, parts irrelevant to the description are omitted, and the same reference numerals are assigned to the same or similar components throughout the specification.

In addition, since the size and thickness of each component shown in the drawings are arbitrarily indicated for convenience of description, the present invention is not necessarily limited to the illustrated bar.

Then, an air purification system for a nuclear power plant according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 and 2 .

1 is a schematic diagram of an air purification system for a nuclear power plant according to an embodiment of the present invention.

1, the air purification system for a nuclear power plant according to an embodiment of the present invention is connected to an air purifier 100 for purifying external air, and the air purifier, and passes through the external air 1 and the air purifier. It comprises a double duct 200 through which one purge air 2 flows.

Such an air purification system for a nuclear power plant may be disposed in a safety system room in a nuclear power plant, but is not limited thereto. These safety system rooms include the Main Control Room area, the Fuel Handling Building area, the Instrumentation and Control Equipment Room area, the Emergency Diesel Generator (EDG) area, and the auxiliary building. (Auxiliary Building, AB) may be an administrative area, a Reactor Containment Building (RCB), or the like. The air purification system for a nuclear power plant is connected to the safety system room, and in case of an extreme disaster, the air in the safety system room can be blown and purified to protect the operator in the nuclear power plant.

The air purifier 100 passes through the inlet 110 through which the outside air 1 is introduced, the filtering unit 120 that filters the outside air 1 introduced into the inlet 110 , and the filtering unit 120 . It may include an outlet 130 for discharging the purified air 2 to the outside.

The inlet 110 , the filtering unit 120 , and the outlet 130 may be disposed in sequential contact with each other. In addition, the inlet 110 may be connected to the double duct 200 through the inlet pipe 140 , and the outlet 130 may be connected to the double duct 200 through the outlet pipe 150 . Accordingly, the external air 1 introduced through the inlet pipe 140 passes through the inlet 110 , the filter 120 , and the outlet 130 and is filtered to generate the purified air 2 , and is purified. Air 2 may be delivered to double duct 200 via outlet piping 150 .

The inlet 110 may include an inlet body 111 and a moisture separator 112 positioned inside the inlet body 111 .

The inlet body 111 may have a compartment structure having an internal space, but is not necessarily limited thereto.

The moisture separator 112 is connected to the front side of the filtering unit 120 and can separate moisture from the outside air 1 introduced from the outside.

The filtering unit 120 includes a filtering body 121, a plurality of heating units 122 located inside the filtering body 121 and heating the outside air 1, and a replacement unit for replacing the plurality of heating units 122 ( 123), and a plurality of filters 124 positioned inside the filtering body 121 to purify the outside air 1 may be included.

The filtering body 121 may have a compartment structure having an internal space, but is not limited thereto.

The plurality of heating units 122 are positioned between the moisture separator and the plurality of filters, and may heat the external air 1 passing through the moisture separator. The heating unit 122 may maintain the efficiency of the activated carbon filter by maintaining the relative humidity inside the air purifier at about 70%.

The heating unit 122 may have a folding structure. Accordingly, only some of the plurality of heating units 122 may be located inside the filtering body 121 .

The replacement unit 123 places only the heating unit 122 corresponding to one blowing fan 132 located inside the outlet body 131 among the plurality of heating units 122 inside the filtering body 121, and the remaining The heating unit 122 may be located outside the outlet body 131 .

Accordingly, in the air purification system for a nuclear power plant according to an embodiment of the present invention, only the heating unit 122 corresponding to one blowing fan 132 located inside the outlet body 131 using the replacement unit 123 . Since it can be located inside the filtering body 121 , it is not necessary to place all of the plurality of heating units 122 inside the filtering body 121 . Accordingly, it is possible to reduce the installation space of the plurality of heating units 122 inside the filtering body 121, thereby reducing the size of the air purifier, thereby reducing the size of the nuclear power plant.

The replacement unit 123 may have a rail structure for replacing the plurality of heating units 122 , but is not limited thereto, and various structures are possible as long as the structure is for replacing the plurality of heating units 122 .

Meanwhile, the plurality of filters 124 may include a pre filter 21 , a hepa filter 22 , and an activated carbon filter 23 . In this embodiment, each of the pre-filter 21, the HEPA filter 22, and the activated carbon filter 23 is illustrated as one filter, but the present invention is not limited thereto, and the pre-filter 21, the HEPA filter 22, In addition, each of the activated carbon filters 23 may be formed of a plurality of filter members. The plurality of filters 124 may be connected to the rear side of the heating unit 122 to purify the outside air 1 .

The pre-filter 21 is connected to the rear side of the heating unit 122 , and may filter dust or the like in the external air 1 passing through the heating unit 122 .

The HEPA filter 22 is connected to the rear side of the pre-filter 21 , and may filter radioactive particles in the external air 1 that have passed through the pre-filter 21 .

The activated carbon filter 23 is connected to the rear side of the HEPA filter 22 , and can filter by adsorbing radioactive ultrafine particles of the outside air 1 that has passed through the HEPA filter 22 .

In the present embodiment, although the structure positioned at the activated carbon filter at the rear of the HEPA filter is illustrated, the present embodiment is not limited thereto, and the arrangement of the HEPA filter and the activated carbon filter may be changed.

On the other hand, the outlet 130 is an outlet body 131 , a plurality of blowing fans 132 positioned inside and outside the outlet body 131 , and a plurality of blowing fans 132 inside the outlet body 131 . And it may include a moving unit 133 for moving to the outside.

2 is a view for explaining a specific operating state of the outlet of the air purification system for a nuclear power plant according to an embodiment of the present invention.

1 and 2, the outlet body 131 may have a compartment structure having an internal space, but is not necessarily limited thereto.

The moving part 133 is a first moving part 31 extending from the bottom of the outlet body 131 to the outside of the outlet body 131 , and from the ceiling of the outlet body 131 to the outside of the outlet body 131 . a second moving part 32 extending to and located inside the outlet body 131 and a third moving part 33 connecting the first moving part 31 and the second moving part 32; It is located outside the outlet body 131 and may include a fourth moving part 34 connecting the first moving part 31 and the second moving part 32 .

By using the first to fourth moving parts 31 , 32 , 33 , 34 , the blowing fan 132 can move from the inside to the outside or from the outside to the inside of the outlet body 131 .

A plurality of blowing fans 132 are located inside the outlet body 131 and are operating a first blowing fan 51, a second blowing fan 52 waiting in case of an emergency, and a second blowing fan that can be maintained during operation. 3 may include a blowing fan 53 . Therefore, when the first blowing fan 51 breaks down during operation of the air purifier, the second blowing fan 52 can be put into the outlet body 131 using the moving unit 133, and at the same time, the malfunctioning 1 Since the blowing fan 51 can be maintained, it is applicable to a safety system room that must be operated even in an emergency.

As such, in the air purification system for a nuclear power plant according to an embodiment of the present invention, when the blowing fan located inside the outflow body 131 in operation fails, another It can be applied to the safety system room because it can be operated by putting in the blowing fan.

In addition, since only one blowing fan among the plurality of blowing fans can be alternately positioned inside the outlet body 131 , it is not necessary to place all of the plurality of blowing fans inside the outlet body 131 in preparation for an emergency. Therefore, it is possible to reduce the installation space of the plurality of blowing fans inside the outlet body 131, thereby reducing the size of the nuclear power plant.

The moving part may have a rail structure for alternating the plurality of blowing fans 132 , but is not limited thereto, and various structures are possible as long as the structure is for alternating the plurality of blowing fans 132 .

On the other hand, as shown in Figure 1, the double duct 200 of the air purification system for a nuclear power plant according to an embodiment of the present invention may include an inner duct 210 and an outer duct 220 overlapping each other. .

The inner duct 210 is connected to the outlet 130 of the air purifier 100 and the purified air 2 can flow. The inner duct 210 may have a cylindrical shape or a rectangular shape, but is not necessarily limited thereto, and various shapes are possible as long as the structure allows air to flow.

The outer duct 220 surrounds the inner duct 210 and is connected to the inlet 110 of the air purifier, through which the outside air 1 may flow. The outer duct 220 may have a cylindrical shape or a square shape, but is not necessarily limited thereto, and various shapes are possible as long as the structure allows air to flow.

Therefore, the air purification system for a nuclear power plant according to an embodiment of the present invention includes the double duct 200 through which the outside air 1 and the purified air 2 can flow at the same time, thereby reducing the size of the nuclear power plant. .

Although the present disclosure has been described through preferred embodiments as described above, the present invention is not limited thereto, and various modifications and variations are possible without departing from the scope of the claims described below. Those in the field will understand easily.

100: air conditioner 110: inlet
120: filtering unit 121: filtering body
122: heating part 123: replacement part
124: filter 130: outlet
131: outflow body 132: blowing fan
133: moving unit

Claims (4)

an air purifier to purify the outside air; and
a double duct connected to the air purifier through which the outside air and purified air passing through the air purifier flow;
including,
the air purifier
an inlet through which the outside air is introduced;
A filtering unit for filtering the outside air introduced into the inlet, and
an outlet for discharging the purified air that has passed through the filtering unit to the outside
including,
the outlet
spill body,
a plurality of blowing fans located inside and outside the outlet body; and
A moving part for moving the plurality of blowing fans to the inside and outside of the outlet body
An air purification system for a nuclear power plant comprising a. In claim 1,
the moving part
A first moving part located at the bottom of the outlet body,
A second moving part located on the ceiling of the outflow body, and
a third moving part located inside the outlet body and connecting the first moving part and the second moving part;
A fourth moving part located outside the outlet body and connecting the first moving part and the second moving part
including,
The blowing fan is an air purification system for a nuclear power plant that moves from the inside to the outside or from the outside to the inside of the outlet body using the first to fourth moving parts. In claim 2,
The filtering unit
filtering body,
A plurality of filters located inside the filtering body,
A heating unit located inside the filtering body and heating the outside air, and
a replacement part for replacing the heating part
An air purification system for a nuclear power plant comprising a. In claim 3,
The double duct
an inner duct connected to the outlet of the air purifier through which the purifying air flows, and
An outer duct surrounding the inner duct and connected to the inlet of the air purifier through which the outside air flows.
An air purification system for a nuclear power plant comprising a.

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