KR20220015537A - Method for repairing reactor containment - Google Patents

Abstract

A method for repairing reactor containment including a reactor containment liner plate (CLP) of which the inside faces the inside of reactor containment and a concrete protection wall enclosing the outside of the reactor containment liner plate comprises: a damaged portion checking step of checking a damaged area of the reactor containment liner plate; a damaged portion removal step of removing a portion of the reactor containment liner plate to include and remove the damaged area; a repair reactor containment liner plate manufacturing step of preparing a reactor containment liner plate for repair having a structure extended along the inside of the reactor containment liner plate such that one portion is inserted into a repair area which is the remaining portion after the portion is removed in the damaged portion removal step to fill the repair area, and another portion covers a portion of the inside of the reactor containment liner plate to block the gap formed between the repair area and the inserted and filled portion; and a repair reactor containment liner plate installation step of arranging the reactor containment liner plate for repair on the repair area to couple the reactor containment liner plate for repair to the reactor containment liner plate. Therefore, the present invention has the advantage of reducing installation material amounts and radioactive waste and reducing work time in comparison to a method of installing a back-up bar for welding to repair reactor containment.

Description

Method for repairing reactor containment

The present invention relates to a method for repairing a nuclear reactor containment building, and more particularly, a structure in which a damaged reactor containment building inner liner plate (CLP) is removed, and the removed and remaining repair area is filled while covering the inner side of the reactor containment building inner liner plate It relates to a repair method of a nuclear reactor containment building, which can simplify the process by combining the liner plate for the repair reactor containment building having a.

In general, a nuclear reactor containment building is a building in which a reactor and a reactor coolant system are installed in a nuclear power plant and constructed of concrete to prevent leakage of radioactive materials. A reactor containment building typically has a hemispherical roof and includes a reactor containment building liner plate that is about 6 mm thick, and a concrete barrier that surrounds the outside of the reactor containment building liner plate and is at least about 120 cm thick.

However, it takes a long time to install a building such as a nuclear reactor containment building, and foreign substances, seawater droplets, salt, etc. may enter between the reactor containment building liner plate and the concrete barrier during the installation process and use of the containment building. For this reason, the reactor containment building liner plate in contact with the concrete barrier may corrode. In addition, a hole such as a cavity may occur in the concrete protection wall of the nuclear reactor containment building due to the cause and unknown reasons.

Conventionally, from the outside of the nuclear reactor containment building, the outer wall concrete and reinforcing bars around the area requiring repair are removed, a part of the liner plate is cut to remove the repair area, a new liner plate is installed, and then concrete is poured in the removed area for repair or , a method of installing a backup bar on the liner plate that requires repair and attaching a replacement liner plate to the backup bar for repair is used, but these methods require additional installation of a backup bar, requiring additional time for repair work, There are problems such as an increase in the exposure dose of workers or the need to remove a large amount of concrete and reinforcing bars.

Republic of Korea Patent No. 10-1855038

The present invention removes a damaged reactor containment building inner liner plate (CLP), and combines the repair reactor containment building liner plate having a structure that covers the inside of the reactor containment building inner liner plate while filling the removed and remaining repair area, thereby performing a process. An object of the present invention is to provide a method for repairing a nuclear reactor containment building that can be simplified.

According to one aspect of the present invention, the present invention provides a reactor containment comprising a reactor containment building inner liner plate (CLP) whose inner side faces the inside of a nuclear reactor containment building and a concrete barrier wall surrounding the outside of the reactor containment building inner liner plate. A method for repairing a building, comprising: a damage site checking step of confirming a damaged area of a liner plate inside the reactor containment building; a damage site removal step of removing a part of the liner plate inside the reactor containment building to be removed including the damaged area; One part is inserted and filled in the repair area, which is the part remaining after the part is removed in the step of removing the damaged part, and the other part is inserted into the reactor containment building to close a gap formed between the inserted and filled part and the repair area. A nuclear reactor containment building inner liner plate manufacturing step for preparing a repair reactor containment building liner plate having a structure extending along the inner side of the reactor containment building inner liner plate so as to cover a portion of the inner side of the inner liner plate; Provided is a method for repairing a nuclear reactor containment building, comprising the step of installing a liner plate inside a reactor containment building for repair by arranging a liner plate inside the reactor containment building in the repair area to couple it with the liner plate inside the reactor containment building.

According to another aspect of the present invention, the present invention relates to a repair of a nuclear reactor containment building comprising a reactor containment building inner liner plate, the inner side facing the inside of the nuclear reactor containment building, and a concrete barrier surrounding the outer side of the reactor containment building inner liner plate. A method, comprising: a damage site checking step of confirming a damaged area of the concrete containment wall; removing a part of the liner plate inside the reactor containment building to expose a damaged area of the concrete barrier wall in contact with the liner plate inside the reactor containment building; In the step of removing the liner plate inside the building, the step of repairing the damaged area of the concrete protection wall exposed through the removed liner plate inside the reactor containment building, a part of which is removed in the step of removing the liner plate inside the reactor containment building The reactor containment is inserted and filled in the repair area, which is the remaining part, and the other part covers a part of the inner side of the liner plate inside the reactor containment building in order to close a gap formed between the inserted and filled part and the repair area. A reactor containment building inner liner plate manufacturing step for preparing a repair reactor containment building liner plate having a structure extending along the inner side of the building inner liner plate, and placing the repair reactor containment building inner liner plate in the repair area Provided is a method for repairing a nuclear reactor containment building, comprising the step of installing a liner plate inside the reactor containment building for repair to be coupled to the liner plate inside the reactor containment building.

The repair method of a nuclear reactor containment building according to the present invention has the following effects.

First, compared to the method of installing and repairing a back-up bar for welding, there is an advantage in that the amount of installation, radioactive waste reduction, and working time are reduced.

Second, there is an advantage in that it can reduce the amount of low and medium level radioactive waste caused by not installing a back-up bar for welding and not removing the concrete barrier.

Third, since it is possible to repair the liner plate inside the reactor containment building without removing the concrete barrier, there are advantages in shortening the process and reducing the amount of exposure of workers.

Fourth, there is an advantage of being able to visually identify the repair site after repair is complete.

Fifth, a liner plate inside the reactor containment building for maintenance is partially inserted into the repair area, and the other part is extended along a part inside the liner plate inside the reactor containment building, so that the repair reactor is inserted into the repair area and the repair area. There is an advantage in being able to block a gap formed between a portion of the liner plate inside the containment building.

1 is a schematic diagram schematically showing the structure of a nuclear reactor containment building, which is a target of a method for repairing a nuclear reactor containment building according to an embodiment of the present invention.
FIG. 2 is a schematic diagram schematically illustrating a process of performing a method for repairing an inner liner plate of a nuclear reactor containment building according to FIG. 1 .
FIG. 3 is a block diagram illustrating a process of performing a method for repairing an inner liner plate of a nuclear reactor containment building according to FIG. 2 .
FIG. 4 is an enlarged perspective view of an inner liner plate of a nuclear reactor containment building for repair used in the method for repairing an inner liner plate of a nuclear reactor containment building according to FIG. 1 ;
5 is a schematic diagram schematically illustrating a process of performing a method for repairing a concrete firewall of a nuclear reactor containment building according to another embodiment of the present invention.
FIG. 6 is a block diagram illustrating a process of repairing a concrete firewall of a nuclear reactor containment building according to another method shown in FIG. 5 .
7 is a schematic diagram schematically illustrating a process of performing a method for repairing an inner liner plate and a concrete barrier of a nuclear reactor containment building according to another embodiment of the present invention.
8 is a block diagram illustrating a process of performing a method for repairing an inner liner plate and a concrete barrier of a nuclear reactor containment building according to FIG. 7 .

Hereinafter, the present invention will be described in detail by describing preferred embodiments of the present invention with reference to the accompanying drawings.

1 to 4 , the repair method ( S100 ) of a nuclear reactor containment building according to an embodiment of the present invention includes a damaged portion confirmation step ( S110 ), a damaged portion removal step ( S120 ), and an inner liner of a nuclear reactor containment building for repair. Plate (CLP, Containment Liner Plate, hereinafter referred to as 'CLP') manufacturing step (S130), visual inspection step for concrete and CLP damage (defect) step (S140), CLP bonding step for repair in the repair area (S150) and repair For CLP welding step (S160). In this regard, first looking at the structure of the nuclear reactor containment building 100 through FIG. 1 , the reactor containment building 100 includes a CLP 110 forming an inner wall and a concrete protective wall 120 forming an outer wall. The concrete barrier wall 120 surrounds the outer surface of the CLP (110). In this embodiment, the thickness of the concrete barrier 120 is about 120 cm, but it can be changed.

The damage site confirmation step (S110) is a process of confirming the repair (damage, defect) site of the CLP 110 and the concrete protective wall 120 . In the step of confirming the damaged area ( S110 ), as an example, the damaged area of the CLP 110 and the concrete barrier 120 is checked using ultrasonic waves. However, the present invention is not limited thereto, and a method for checking the damaged portion of the CLP 110 and the concrete barrier 120 can be changed as much as possible. The repair method (S100) of the nuclear reactor containment building according to this embodiment can be used without limitation on the location of the damaged CLP 110, but in particular, when damage occurs in the portion where the CLP 110 and the concrete barrier 120 come into contact, efficient repair There are possible advantages.

The step of removing the damaged area (S120) is a process of removing a part of the CLP 110 so that the damaged area is removed when a damaged area occurs in the CLP 110 at the portion where the CLP 110 and the concrete barrier 120 contact each other. am. More specifically, the step of removing the damaged portion ( S120 ) is a process of removing a part of the CLP 110 from the inside of the nuclear reactor containment building 100 toward the outside. In this embodiment, the damaged portion of the CLP 110 identified using ultrasound is removed using a grinder, laser cutting, etc. as an example.

At this time, the removed CLP 110 is removed in a square (cube) or rectangular (cuboid) shape including the damaged area. In the present embodiment, the repair area 130 remaining after the CLP 110 including the damaged area is removed has a rectangular parallelepiped shape with flat upper and lower surfaces as shown in FIG. 2B . That is, it can be seen from the drawings that the upper and lower surfaces have a flat structure, but since the repair area 130 has a rectangular parallelepiped shape, the left and right sides also have a flat structure in the vertical direction parallel to the concrete protection wall 140 .

In this embodiment, it is exemplified that the repairing CLP manufacturing step (S130), which will be described below, is performed after the damaged portion removing step (S120), but the damaged portion removing step (S120) and the repairing CLP manufacturing step (130) ) may further include actually measuring the repair area 130 of the CLP 110 from which the damaged area has been removed. This is a preparation process to further increase efficiency when measuring the length of the removed CLP 110 and manufacturing the CLP 140 for repair according to the result.

In this embodiment, the remaining CLP 110 including the repair area 130 remaining after removing the damaged area includes the upper CLP 111 and the lower CLP 112 . The upper CLP 111 means an upper portion of the repair area 130 , and the lower CLP 112 means a lower portion of the repair area 130 . At this time, the removed CLP 110 has a rectangular parallelepiped shape. Therefore, the repair area 130 of the remaining CLP 110 removed to include the damaged area in the existing CLP 110 has a rectangular parallelepiped shape. That is, the lower surface 111a of the upper CLP 111 and the lower surface 112a of the lower CLP 112 are formed at right angles to the concrete barrier wall 120 . However, the present invention is not limited thereto, and the removed CLP 110 and the repair region 130 may have a cube shape or may have other polyhedral shapes.

The repair CLP manufacturing step ( S130 ) is a process of manufacturing the repair CLP 140 to be coupled to the repair area 130 . The repair CLP manufacturing step (S130) is a process of manufacturing the repair CLP 140 having a structure that covers the inside of the CLP 110 while filling the repair area 130 . That is, a portion of the CLP 140 for repair is inserted and filled in the damage repair area 130 , and the other portion of the CLP 140 for repair covers a portion of the inner side of the CLP 110 . It has a structure extending along the inside of the CLP (110). Accordingly, the repair CLP 140 fills the repair area 130 , and blocks a gap formed between the repair area 130 and the portion filled by the repair CLP 140 . The repair CLP 140 manufactured in this embodiment includes a base part 141 and an insertion part 142 . At this time, one part of the CLP 140 for repair corresponds to the insertion part 142 , and the other part corresponds to the base part 141 .

2 and 4 , the base part 141 and the insertion part 142 are integrally formed. The base part 141 has a cross-sectional area larger than the cross-sectional area (the area of the inner surface) of the maintenance area 130 , so that when the insertion part 142 is inserted into the empty space in the maintenance area 130 , the The entire repair CLP 140 does not enter the repair area 130 , but serves to be caught by the upper CLP 111 and the lower CLP 112 . Referring to (d) of Figure 2, the base portion 141 in this embodiment is the base portion upper surface 141a, the base portion lower surface 142b, the base portion outer surface upper portion 141c, the base portion outer surface lower portion ( 141d) and the inner surface of the base portion 141e.

The upper surface 141a of the base part and the lower surface 141b of the base part are portions coupled to the inner side of the CLP 110 through welding, respectively. The upper outer surface 141c of the base portion is a portion in close contact with the inner side of the upper CLP 111 when the insertion portion 142 is inserted into the maintenance area 130, and the lower portion 142c of the outer surface of the base portion. is a portion in close contact with the inner side of the lower CLP 112 when the insertion part 142 is inserted into the maintenance area 130 . The inner surface 141e of the base is a portion facing the inside of the nuclear reactor containment building 100 in a state where the repair CLP 140 is installed in the repair area. A vertical length of the inner surface 141e of the base portion is longer than a vertical length of the maintenance area 130 .

The insertion part 142 includes an insertion part upper surface 142a, an insertion part lower surface 142b, and an insertion part outer surface 142c. The upper surface 142a of the insertion part is connected to the upper part 141c of the outer surface of the base part, and when the insertion part 142 is inserted into the repair area, it is in close contact with the lower surface 111a of the upper CLP. The lower surface 142b of the insertion portion is connected to the lower portion 142d of the outer surface of the base portion, and is a portion in close contact with the upper surface 112a of the lower CLP when the insertion portion 142 is inserted into the repair area. The upper surface 142a of the insertion part and the lower surface 142b of the insertion part are respectively connected to the upper outer surface 141c of the base part and the lower outer surface lower part 141d of the base part in a perpendicular (intersecting) direction. Therefore, the upper surface 142a of the insertion part and the lower surface 142b of the insertion part are in close contact with the concrete protection wall 140 in a direction perpendicular (intersecting). And the outer surface 142c of the insertion part is parallel to the inner surface 141e of the base part and the outer surfaces 141c and 141d of the base part, and is a flat surface in the vertical direction, and the insertion part 140 is inserted into the repair area. When it becomes, it is a part in close contact with the concrete protective wall 140 .

The base part 141 includes the inner side of the upper CLP 111 and the lower CLP 112 in a state in which only the insertion part 142 of the repair CLP 140 is inserted into the repair area 130 . It is an over-wrapping structure. Of course, although not specifically shown in the drawing, the base part 141 has a structure that also covers the inside of the left side and the inside of the right side of the CLP 110 , that is, the edge of the base part 141 is the CLP 110 . It is a structure that covers the inside of

The insertion part 142 is a part that replaces the removed CLP 110 by being inserted into the maintenance area 130 . The insertion part 142 is connected to the outer surface, which is one side of the base part 141 , and has a cross-sectional area smaller than the cross-sectional area of the base part 141 . The insertion part 142 has a structure protruding from the center of the base part 141 . Therefore, the base portion 141, which has a larger cross-sectional area than the insertion portion 142, has an upper portion 141c on the outer surface of the base portion not covered by the insertion portion 412 and a lower portion 141d on the outer surface of the base portion along the periphery of the insertion portion 142. The same free space is created, and the free space is in close contact with the inside of the CLP 110 .

And the insertion part 142 has the same thickness as the CLP 110 . That is, the thickness of the insertion part 142 from one side connected to the base part 141 to the other side in close contact with the concrete protection wall 120 is the same as the thickness of the CLP 110 . Accordingly, in a state in which the insertion unit 142 is inserted into the repair area 130 , the inner side of the existing CLP 110 and the inner side of the insertion unit 142 among the repair CLP 140 form a flat surface. do.

The visual inspection step (S140) of whether the CLP and the concrete barrier is damaged (defective) is a process of visually confirming whether there are any defects in the remaining CLP 110 and the concrete barrier 120 before attaching the CLP 140 for repair. This can prevent a mismatch that may occur when the CLP 140 for repair is combined by visually checking the presence of defects again before assembling the CLP 140 for repair, and the repair of the nuclear reactor containment building 100 is This is to reduce the inefficiency of having to proceed with the process again if defects are found after completion.

The step of combining the repair CLP 140 into the repair area ( S150 ) is a process of inserting the repair CLP 140 into the repair area 130 . That is, it is a process of bringing the insertion part 142 of the CLP 140 for repair into close contact with the inside of the repair area 130 and the base part 141 on the inside of the CLP 110 .

The repair CLP welding step (S160) is a process of fixing the repair CLP 140 inserted into the repair area 130 and in close contact with the inside of the CLP 110 through welding. In this embodiment, the upper surface 141a of the base part of the CLP 140 for repair and the inner side of the upper CLP 111 are welded, and the lower surface 141b of the base part and the lower part of the CLP 140 for repair are welded. The inner side of the CLP 112 is welded. The welding method is not particularly limited, but GTAW (Gas Tungsten Arc Welding), FCAW (Flux Coreed Arc Wedling), or SMAW (Shielded Metal Arc Welding) welding methods may be used.

In this embodiment, as shown in (f) of FIG. 2, the thickness of the weld bead 150 by the welding is welded to become thicker from the other side of the base part 141 to one side. Accordingly, the cross-section of the weld bead 150 formed on the upper CLP 111 side increases from the other (inner surface) to one (outer surface) side of the base part 141 so that the thickness of the weld bead 150 increases. It has a right-angled triangular shape having an oblique inclination, and the cross section of the weld bead 150 formed on the side of the lower CLP 112 is thicker from the other side of the base part 141 to one side. It has the shape of a right-angled triangle with a downward slope. In the present embodiment, the thickness of the thickest portion of the weld bead 150 is exemplified as 6 mm, but the present invention is not limited thereto, and the thickness of the weld bead may be freely changed.

In this embodiment, it is exemplified that the entire upper surface 141a of the base part that is welded to the inside of the CLP 110 is welded to the inside of the CLP 110, but the present invention is not limited thereto. Only part of it may be welded. That is, the upper surface 141a of the base part may be coupled by welding only from a part in contact with the CLP 110 to a part spaced apart by a set interval in the inner direction of the base part 141 . This welding method may also be applied to the inner side of the CLP 110 and the lower surface 141b of the base part to be welded.

5 to 6 , the nuclear reactor containment building repair method (S200) according to another embodiment of the present invention includes a damaged part checking step (S210), a concrete protective wall defect (damaged) part visually checking step (S220), a concrete protective wall Defective part chipping and repair step (S230), CLP manufacturing step for repair (S240), concrete barrier repair part drying step (S250), and includes a CLP installation step for repair (S260). Since the damaged portion checking step S210 is similar to the damaged portion checking step S110 of the nuclear reactor containment building repair method S100 according to FIG. 2 , a detailed description thereof will be omitted.

In the step (S220) of visually confirming the defect portion of the concrete barrier wall, the CLP 210 inside the concrete barrier wall 220 is first removed for visual inspection of the concrete barrier wall 220 estimated to have a defect. The removal of the CLP 210 is performed in a similar manner to the damaged portion removal step S120 of the nuclear reactor containment building repair method S100 according to FIG. 2 . Through the part from which the CLP 210 has been removed, a defective portion generated in the concrete protective wall 220 is visually confirmed.

In the step (S230) of chipping and repairing the defective part of the concrete protective wall, the defective part (damaged area, repair part) of the concrete protective wall 220 confirmed with the naked eye is removed by chipping, and the removed part of the concrete protective wall 220 is mortared. It is a process of repair using etc. In the present embodiment, repair by the grouting method is exemplified, but the repair method can be changed any number of times.

The repair CLP manufacturing step (S240) is the CLP (210) and the removed CLP (210) repair area (230) remaining after some of the existing CLPs (210) are removed in the visual confirmation step (S220) of the defective part of the concrete barrier. It is a process of manufacturing the CLP 240 for repair to be placed in the . The repair CLP manufacturing step (S240) is similar to the repair CLP manufacturing step (S150) of the repair method (S100) of the nuclear reactor containment building according to FIG. 2 , and thus a detailed description thereof will be omitted.

In the concrete barrier wall repair part drying step (S250), before placing the repair CLP 240 in the repair area 240, the dry state of the mortar, etc. injected to repair the damaged area of the concrete barrier wall 220 is visually inspected. It is a verification process. In this embodiment, the drying step (S250) of the concrete barrier repair part is described as a process performed after the CLP manufacturing step (S240) for repair, but the process of visually checking the dry state of the mortar, etc. After that, it can be continuously performed until the CLP 240 for repair is coupled.

The CLP installation step (S260) for repair is a process of welding the existing CLP 210 and the CLP 240 for repair that have not been removed by welding. The repair CLP installation step (S260) is similar to the repair CLP installation step (S160) of the nuclear reactor containment building repair method (S100) according to FIG. 2 , so a detailed description thereof will be omitted.

7 to 8, the nuclear reactor containment building repair method (S300) according to another embodiment of the present invention includes the step of checking the damaged part (S310), the removal of the CLP damaged part, and the visual confirmation of the defect (damage) part of the concrete barrier ( S320), chipping and repairing the defective part of the concrete barrier (S330), manufacturing the CLP for repair (S340), drying the concrete barrier repair unit (S350), and installing the CLP for repair (S360). The nuclear reactor containment building repair method (S300) according to this embodiment is a damaged CLP (310) and concrete using both the reactor containment building repair method (S100) according to FIG. 2 and the nuclear reactor containment building repair method (S200) according to FIG. It relates to a method of repairing all of the protective walls (320). Since the damage site checking step S310 is similar to the damage site check step S110 of the nuclear reactor containment building repair method S100 according to FIG. 2 , a detailed description thereof will be omitted.

The removal of the damaged portion of the CLP and the step (S320) of visually confirming the defect portion of the concrete barrier is the step of removing the damaged portion (S120) of the method (S100) of the nuclear reactor containment building repair method (S100) according to FIG. 2 and the nuclear reactor containment building repair method according to FIG. 5 (S200) Since it is similar to sequentially proceeding with the visual confirmation step (S220) of the defective part of the concrete barrier, a detailed description will be omitted.

In the step (S330) of chipping and repairing the defective part of the concrete firewall, the defective part (damaged area, repair part) of the concrete protective wall 320 confirmed with the naked eye is removed by chipping, and the removed part of the concrete protective wall 320 is mortared. It is a process of repair using etc. In the present embodiment, repair by the grouting method is exemplified, but the repair method can be changed any number of times.

In the repair CLP manufacturing step (S340), some of the existing CLPs 310 are removed in the visual confirmation step (S320) of the defective parts of the concrete barrier, and the repair CLPs to be placed in the repair area 330 of the remaining CLP 310 ( 340) is the production process. Since the repair CLP forming step ( S340 ) is similar to the repair CLP manufacturing step ( S150 ) of the repair method ( S100 ) of the nuclear reactor containment building according to FIG. 2 , a detailed description will be omitted.

Since the drying step (S350) of the concrete barrier repair unit is similar to the drying step (S250) of the concrete barrier wall repair unit according to FIG. 5 , a detailed description thereof will be omitted. In addition, since the CLP installation step for repair ( S360 ) is similar to the CLP installation step ( S160 ) for repair of the method ( S100 ) of the nuclear reactor containment building repair method according to FIG. 2 , a detailed description thereof will be omitted.

Although the present invention has been described with reference to the embodiment shown in the drawings, which is merely exemplary, it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

100: reactor containment building
110: reactor containment building inner liner plate (CLP)
111: upper CLP
111a: upper CLP lower
112: lower CLP
112a: lower CLP upper surface
120: concrete barrier
130: repair area
140: CLP for maintenance
141: base part
141a: upper surface of the base part
141b: when the base part
141c: upper outer surface of the base part
141d: the lower part of the outer surface of the base part
141e: inner surface of the base part
142: insertion part
142a: upper surface of the insertion part
142b: when the insertion part
142c: the outer side of the insertion part
150: weld bead

Claims (13)

A method for repairing a nuclear reactor containment building comprising: a reactor containment building inner liner plate (CLP) whose inner side faces the interior of the reactor containment building; and a concrete barrier wall surrounding the outer side of the reactor containment building inner liner plate, the method comprising:
a damage site checking step of checking a damaged area of the liner plate inside the reactor containment building;
a damaged area removing step of removing a part of the liner plate inside the reactor containment building to include the damaged area;
One part is inserted and filled in the repair area, which is the part remaining after the part is removed in the step of removing the damaged part, and the other part is inserted into the reactor containment building to close a gap formed between the inserted and filled part and the repair area. a nuclear reactor containment building inner liner plate manufacturing step of preparing a nuclear reactor containment building liner plate for repair having a structure extending along the inner side of the reactor containment building inner liner plate to cover a portion of the inner side of the inner liner plate;
and installing a liner plate inside the reactor containment building for maintenance, wherein the liner plate inside the reactor containment building for maintenance is disposed in the maintenance area to be coupled with the liner plate inside the reactor containment building for maintenance.
A method of repairing a nuclear reactor containment building. The method according to claim 1,
In the step of removing the damaged area,
A portion of the removed reactor containment building inner liner plate is removed to have a rectangular parallelepiped shape,
A method of repairing a nuclear reactor containment building. The method according to claim 1,
In the manufacturing step of the inner liner plate of the containment building for the repair,
a base portion having a cross-sectional area greater than that of the repair area, and having one edge of the base unit in close contact with the inner side of the liner plate inside the reactor containment building; and
A liner plate integrally connected to one side of the base part and having a cross-sectional area smaller than the cross-sectional area of the base part, and comprising an insertion part protruding from the center of the base part so that it can be inserted in close contact with the repair area. preparing,
A method of repairing a nuclear reactor containment building. 4. The method according to claim 3,
The insert part,
The thickness from one side connected to the base part to the other side in close contact with the concrete protection wall is formed to be the same as the thickness of the inner liner plate of the reactor containment building,
A method of repairing a nuclear reactor containment building. The method according to claim 1,
In the stage of installing the liner plate inside the containment building for maintenance,
The base part and the inner side of the inner liner plate of the nuclear reactor containment building are welded together,
welding the upper surface of the base part and the inner side of the liner plate inside the reactor containment building, and welding the lower surface of the base part and the inner side of the liner plate inside the reactor containment building;
A method of repairing a nuclear reactor containment building. 6. The method of claim 5,
In the stage of installing the liner plate inside the containment building for maintenance,
Welding so that the thickness of the weld bead increases from the other side of the upper surface of the base part to one side,
A method of repairing a nuclear reactor containment building. The method according to claim 1,
Between the step of removing the damaged part and the step of installing the liner plate inside the containment building for repair,
Concrete protection wall repair step of confirming and repairing the defects of the concrete protection wall further comprising
A method of repairing a nuclear reactor containment building. A method for repairing a nuclear reactor containment building, comprising: a reactor containment building inner liner plate whose inner side faces the inside of the reactor containment building; and a concrete barrier wall surrounding the outer side of the reactor containment building inner liner plate,
a damage site confirmation step of confirming a damaged area of the concrete protective wall;
a reactor containment building inner liner plate removal step of removing a portion of the reactor containment building inner liner plate to expose a damaged area of the concrete barrier wall in contact with the nuclear reactor containment building inner liner plate;
a concrete barrier wall repair step of repairing a damaged area of the concrete barrier wall exposed through the removed inner liner plate of the reactor containment building;
One part is inserted and filled in the repair area that is the remaining part after the part is removed in the step of removing the liner plate inside the reactor containment building, and the other part is inserted to close a gap formed between the inserted and filled part and the repair area. A reactor containment building inner liner plate manufacturing step for preparing a repair reactor containment building liner plate having a structure extending along the inner side of the reactor containment building inner liner plate to cover a part of the inner side of the nuclear reactor containment building inner liner plate ;
and installing a liner plate inside the reactor containment building for maintenance, wherein the liner plate inside the reactor containment building for maintenance is disposed in the maintenance area to be coupled with the liner plate inside the reactor containment building for maintenance.
A method of repairing a nuclear reactor containment building. 9. The method of claim 8,
In the step of removing the liner plate inside the reactor containment building,
A portion of the removed reactor containment building inner liner plate is removed to have a rectangular parallelepiped shape,
A method of repairing a nuclear reactor containment building. 9. The method of claim 8,
In the manufacturing step of the inner liner plate of the containment building for the repair,
a base portion having a cross-sectional area greater than that of the repair area, and having one edge of the base unit in close contact with the inner side of the liner plate inside the reactor containment building; and
A liner plate integrally connected to one side of the base part and having a cross-sectional area smaller than the cross-sectional area of the base part, and comprising an insertion part protruding from the center of the base part so that it can be inserted in close contact with the repair area. preparing,
A method of repairing a nuclear reactor containment building. 11. The method of claim 10,
The insert is
The thickness from one side connected to the base part to the other side in close contact with the concrete protection wall is formed to be the same as the thickness of the inner liner plate of the reactor containment building,
A method of repairing a nuclear reactor containment building. 9. The method of claim 8,
In the stage of installing the liner plate inside the containment building for maintenance,
The base part and the inner side of the inner liner plate of the nuclear reactor containment building are welded together,
welding the upper surface of the base part and the inner side of the liner plate inside the reactor containment building, and welding the lower surface of the base part and the inner side of the liner plate inside the reactor containment building;
A method of repairing a nuclear reactor containment building. 13. The method of claim 12,
In the stage of installing the liner plate inside the containment building for maintenance,
Welding so that the thickness of the weld bead increases from the other side of the upper surface of the base part to one side,
A method of repairing a nuclear reactor containment building.

Images