KR102561992B1 - Nuclear Power Plant Having Improved Safety by Double Containment - Google Patents

Abstract

The present invention relates to a nuclear power plant with improved safety by double containment, in which a nuclear reactor building having a through-hole is formed and an accommodation space for accommodating a nuclear reactor, an auxiliary building surrounding the reactor building and forming an auxiliary space, and an auxiliary space in the auxiliary space. It relates to a nuclear power plant including a containment unit positioned and communicating with the through hole and forming a containment space separated from the auxiliary space.

Description

Nuclear Power Plant Having Improved Safety by Double Containment

The present invention relates to a nuclear power plant with improved safety by double containment.

Under the EUR requirements, the reactor system must include a primary reactor building and a secondary reactor building to meet radiation emission requirements. Accordingly, in the case of a number of export-type nuclear power plants at home and abroad, a complete double containment structure is adopted in which the primary reactor building is surrounded by the secondary reactor building.

In the full double containment structure, leakage through the primary bulkhead is collected in the annular space between the primary reactor building and the secondary reactor building, and HVAC (air conditioning) additionally filters it. According to the experiences of the current comprehensive leak rate test (ILRT) and local leak rate test (LLRT) of operating nuclear power plants, most leaks from buildings with one-dimensional characters occur in isolation valve leak tests, and leakage to bulkheads is very low.

If the isolation valve of the complete double containment building is installed in the annular space, it is difficult to arrange and maintain, so it may be installed outside the secondary containment building, and in this case, the double filtration effect cannot be obtained. In addition, in the case of a full-double reactor containment building, the construction volume and construction period increase, which is disadvantageous in terms of economy and efficiency.

Korean Registered Patent No. 10-1230713 (Announced on February 07, 2013)

An object of the present invention is to provide a nuclear power plant with improved safety by double containment.

The present invention relates to a nuclear power plant with improved safety by double containment, in which a nuclear reactor building having a through-hole is formed and an accommodation space for accommodating a nuclear reactor, an auxiliary building surrounding the reactor building and forming an auxiliary space, and an auxiliary space in the auxiliary space. It relates to a nuclear power plant including a containment unit positioned and communicating with the through hole and forming a containment space separated from the auxiliary space.

The auxiliary building further includes an emergency exhaust air conditioner, and the emergency exhaust air conditioner includes an AHU and an ACU connected to the containment space, and the containment space maintains a negative pressure state.

The storage unit includes a first storage unit and a second storage unit.

The present invention further includes a pipe portion, wherein the pipe portion is connected to an isolation valve located in the first containment unit and the isolation valve, and is connected to a first pipe extending into the accommodating space through the through hole and the isolation valve. and includes a second pipe extending to the auxiliary space.

The present invention further includes a wire unit, wherein the wire unit includes a first wire located in the second storage unit and extending to the accommodating space through the through hole, and a second wire extending to the auxiliary space.

The second containment unit further includes a passive catalytic coupler positioned in the containment space.

According to the present invention, a nuclear power plant with improved safety by double containment is provided.

1 is a diagram showing a nuclear power plant according to an embodiment of the present invention,
2 is another diagram showing a nuclear power plant according to an embodiment of the present invention.

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.

1 is a diagram showing a nuclear power plant according to an embodiment of the present invention, and FIG. 2 is another diagram showing a nuclear power plant according to an embodiment of the present invention. Referring to FIGS. 1 and 2, the double containment of the invention Describes a nuclear power plant with improved safety by

The nuclear power plant 1 of the present invention includes a reactor building 10, an auxiliary building 20, a containment unit 30, a pipe part 40, and a wire part 50.

The reactor building 10 forms an accommodation space in which a nuclear reactor is accommodated, and a through hole 110 is formed on a side surface.

Four through holes 110 are provided, but are not limited thereto.

A nuclear reactor is located in the accommodating space, and the through hole 110 is provided to pass pipes or wires.

The auxiliary building 20 forms an auxiliary space and includes an emergency exhaust air conditioner 210 .

Within the auxiliary building 20, facilities such as turbines for power generation are located.

The emergency exhaust air conditioner 210 includes an air handling unit (AHU) 211 and an air conditioning unit (ACU) 212.

Although not shown, the emergency exhaust air conditioner 210 may further include a treatment facility for treating harmful gases generated in the containment space.

The auxiliary building 20 is provided lower than the reactor building 10 and surrounds the reactor building 10 .

The containment unit 30 is located inside the auxiliary space and is connected to the through hole 110 of the reactor building 10 .

A storage space is provided inside the storage unit 30 .

The storage space is separated from the auxiliary space.

Each storage unit 30 is connected to an air handling unit (AHU) 211 and an air conditioning unit (ACU) 212.

The containment unit 30 maintains a negative pressure state so that noxious gas does not leak into the auxiliary space, and the noxious gas generated is filtered and exhausted through the emergency exhaust air conditioner 210 .

The storage unit 30 includes a first storage unit 310 and a second storage unit 320 .

As shown in FIG. 2 , two first containment units 310 may be provided in an MPA (Mechanical Penetration Area), and two second containment units 320 may be provided in an EPA (Electrical Penetration Area). However, it is not limited thereto.

In the containment space of the second containment unit 320, a passive catalytic combiner (PAR, Passive Autocatalytic Recombiner, 321) is provided.

When the emergency exhaust air conditioner 210 cannot be operated due to power loss in the event of an accident, hydrogen with a high risk of explosion can be reduced through the PAR 321 that does not use power.

In another embodiment, the PAR 321 may also be provided in the storage space of the first storage unit 310 .

The pipe part 40 includes an isolation valve 410 , a first pipe 420 and a second pipe 430 .

The isolation valve 410 is located in the containment space of the first containment unit 310 .

The first pipe 420 is connected to the isolation valve 410 and extends into the accommodation space through the through hole 110 .

The second pipe 430 is also connected to the isolation valve 410 and extends into the auxiliary space.

The wire unit 50 includes a first wire 510 and a second wire 520 .

The first wire 510 extends into the accommodation space through the through hole 110, and the second wire 520 extends into the auxiliary space.

In the present invention, only the through-hole 110 area of the nuclear reactor building 10 having a single containment structure is compartmentalized to form a secondary structure, and radioactive material leakage through the through-hole 110 is additionally collected and filtered.

The storage unit 30 may be provided with a steel or concrete structure. In order to prevent leakage, a resin lining may be provided inside and/or outside to block an auxiliary space or the like.

According to the present invention, the construction period can be shortened because only the storage unit 30, which is relatively easy to install, is installed while meeting the EUR requirements for double storage.

In addition, it is possible to reduce the purchase cost and construction cost by storing only the penetration area of the reactor building.

In case of inspection or failure of the isolation valve 410, only the storage unit 30 needs to be disassembled, so it is possible to easily respond to inspection or failure of the isolation valve 410.

In another embodiment, the storage unit 30 may be provided in a detachable or open/closed type in order to easily respond to inspection or failure of the isolation valve 410 .

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 a nuclear power plant with improved safety by double containment,
A nuclear reactor building that forms an accommodation space for accommodating a nuclear reactor and has a through hole;
an auxiliary building surrounding the reactor building and forming an auxiliary space; and
A storage unit located in the auxiliary space, communicating with the through hole, and forming a storage space separated from the auxiliary space;
The storage unit,
It is made of steel or concrete,
including a resin lining;
The auxiliary building,
Further including an emergency exhaust air conditioner,
The emergency exhaust air conditioner,
Including an AHU and an ACU connected to the containment unit,
The containment unit maintains a negative pressure state,
The storage unit,
Including a first containment unit and a second containment unit,
It further includes a piping part,
The piping part,
an isolation valve located in the first containment unit and a first pipe connected to the isolation valve and extending into the accommodating space through the through hole; and
A second pipe connected to the isolation valve and extending to the auxiliary space,
Further comprising a wire portion,
The wire part,
a first wire located in the second containment unit and extending into the accommodating space through the through hole; and
Including; a second wire extending into the auxiliary space,
The second storage unit,
A nuclear power plant further comprising a passive catalytic coupler. delete delete delete delete delete

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