KR102414774B1 - Method for obtaining layer strength of disposal container for radioactive waste near-surface disposal facility using assembly precast waffle slab - Google Patents

Abstract

The present invention relates to a method for securing the stacking strength of a disposal container in a surface-level disposal facility for radioactive waste. Specifically, a precast waffle slab is formed after arranging the disposal container in one stage and pouring the grout only to the middle height of the disposal container. The grout resists vertical load (compression) by placing it on the top of the grout and filling the gap between the bottom of the precast waffle slab and the disposal vessel with grout, then placing the disposal vessel on the top surface of the precast waffle slab and repeating the above process In addition, precast waffle slab provides structural performance to resist vertical load and bending and shearing of the slab end, thereby narrowing the disposition interval of disposing vessels relatively, increasing the amount of disposing vessels disposed of in the repository to increase disposal efficiency. It relates to a method for securing the stacking strength of a disposal container at a surface-level disposal facility for radioactive waste using a waffle slab.

Description

Method for securing the stacking strength of the disposal container of a surface-level disposal facility for radioactive waste using a prefabricated precast waffle slab

The present invention relates to a method for securing the stacking strength of a disposal container in a surface layer disposal facility for radioactive waste. Specifically, a precast waffle slab is prepared by arranging the disposal container in one stage and pouring the cement mortar up to the middle height of the disposal container. is placed on top of the grouting, then the void between the lower part of the precast waffle slab and the disposal container is filled with grout, and then the disposal container is placed on the upper surface of the precast waffle slab, and then the above process is repeated. The precast waffle slab provides structural performance that resists vertical loads and bending and shearing of the slab end, thereby narrowing the spacing of disposal containers relatively and increasing the amount of disposal containers in the repository to increase the disposal efficiency. It relates to a method for securing the stacking strength of a disposal container at a surface disposal facility for radioactive waste using a cast waffle slab.

Radioactive waste is waste from nuclear facilities and work places or laboratories dealing with radioactive materials, and is classified into low and medium level radioactive waste and high level radioactive waste according to the degree of contamination with radioactive materials. The definition of radioactive waste is a radioactive material or a material contaminated by it, which is to be disposed of in the relevant laws and regulations. In the case of a nuclear power plant, there is a work product that is contaminated during maintenance, and in the case of a hospital, it is a product that is contaminated during treatment, and there is a non-destructive test in an industry. In addition, high-level radioactive waste includes nuclear fuel remaining after electricity is generated in a nuclear power plant. That is, radioactive waste is generated in all fields that use nuclear power, such as schools, hospitals, research institutes, industries, and nuclear power generation.

In the case of the disposal method of low- and medium-level radioactive waste, it is disposed within several hundred meters underground, taking into account the topographical characteristics. Near Surface Disposal is a method of burying concrete by installing a concrete disposal shed on the surface of the earth. A method of landfilling and disposal. In the case of high-level radioactive waste, Deep Geological Disposal is carried out in the rock within 500~1,000m underground.

Disposal methods for low- and medium-level radioactive waste vary by country, but are determined by considering public sentiment, economic feasibility, constructability, and safety in a complex manner. When a disposal facility is exposed to the air, shielding is required to attenuate and block radiation existing inside the disposal facility, and it is necessary to upgrade the shielding structure to reduce exposure to terrorism and residents, and to consider public sentiment.

These radioactive wastes are placed in a disposal container of a concrete structure having a rectangular shape according to the standard and placed inside the disposal facility.

To explain the surface disposal in more detail, a new disposal facility is being planned and constructed at the Gyeongju Waste Disposal Facility to dispose of a large amount of nuclear power plant decommissioning waste. , is currently in the process of licensing.

The second-stage surface disposal facility is operated by constructing a rectangular concrete disposal shed above the ground, and then placing the disposal container containing waste materials inside the disposal bin. are buried

In this method of operating the repository for shallow disposal, the disposal container (P) is placed inside the repository (S) and then grouted until the disposal container (P) is covered using cement mortar, after the grouting is hardened. There is a case where the repeated steps of stacking containers on top and grouting are used in similar types of repositories overseas.

However, since only internal grouting is cast in this repository operation method, there is no reinforcement or aggregate, and a structural function to bear the weight of the disposal container is required. Performance may be granted, but when the arrangement conditions according to various disposal container standards are taken into account, excessive structural performance is required for grouting, which increases the container placement interval, which leads to a decrease in the disposal efficiency due to a decrease in the amount of disposal containers in the repository. There is a problem.

The present invention is to solve the above problems, in which the disposal container is arranged in one stage in the disposal warehouse, the grout is poured only up to the middle height of the disposal container, and then the precast waffle slab with the legs formed vertically on the bottom is placed on the top of the grout. Then, the grout resists vertical load (compression) by filling the gap between the bottom of the precast waffle slab and the disposal container with grout, then placing the disposal container on the upper surface of the precast waffle slab and repeating the above process, Precast waffle slab that provides structural performance that resists vertical load and bending and shearing of the slab end, thereby reducing the spacing between disposal containers and increasing the amount of disposal containers in the repository to increase disposal efficiency. The purpose of this is to provide a method for securing the stacking strength of the disposal container of a surface-level disposal facility for radioactive waste using

In addition, the present invention facilitates quality control by pre-fabricating the precast waffle slab at the factory, can separate or remove the structural function of the grouting if necessary, and enhance the concrete strength and radiation shielding performance, so that the safety of the worker is improved. Surface layer of radioactive waste using precast precast waffle slabs that can be secured, can respond to various disposal container standards, and can be manufactured into various types of cells depending on location to increase the amount of disposal containers disposed of within a limited repository standard Another object is to provide a method of securing the stacking strength of the disposal container of the disposal facility.

Features of the present invention for achieving the above object,

A disposal container stacking process of stacking the disposal containers in which at least one or more radioactive waste drums are stored on the floor of the disposal facility at the surface disposal facility and stacking them in one stage; a grouting process of grouting by filling cement mortar up to the middle of the disposal container stacked in one step; A prefabricated precast waffle slab installation process in which a leg is provided vertically on the bottom and reinforcing bars are reinforced to place a precast precast waffle slab manufactured in the form of a unit module on the top surface of the grouting cast in the first stage; and a repeated installation process of stacking the disposal container on the upper surface of the prefabricated precast waffle slab to a design height by repeating the grouting process and the precast precast waffle slab installation process after stacking the disposal container spaced apart from each other; and filling the upper surface of the precast precast waffle slab installed at the top with cement mortar and performing grouting to seal the repository.

Here, in the prefabricated precast waffle slab installation process, the gap between the bottom surface of the prefabricated precast waffle slab and the disposal container and the gap between the neighboring precast precast waffle slabs are grouted.

Here, also, the legs of the precast precast waffle slab are formed in any one shape selected from a cross shape, a T shape, an L shape, and an 11 shape.

Here again, the precast precast waffle slab is provided with a lifting ring at the center of gravity and other parts.

Here, in the precast precast waffle slab, a measurement hole for radioactivity measurement is formed vertically through a portion partitioned by the legs.

Here, the precast precast waffle slab has a mortar injection hole in the portion partitioned by the legs to grout by injecting cement mortar through the upper surface into the gap between the bottom surface of the prefabricated precast waffle slab and the disposal container. formed vertically.

According to the method of securing the stacking strength of the disposal container of the surface-level disposal facility for radioactive waste using the precast precast waffle slab of the present invention, which is configured as described above, the disposal container is arranged in one stage and the cement mortar is poured only up to the middle height of the disposal container. After that, the precast waffle slab is placed on top of the grouting, and the void between the lower part of the precast waffle slab and the disposal container is filled with grout, and then a disposal container is placed on the upper surface of the precast waffle slab, and then the process is repeated. By providing structural performance to resist this vertical load (compression) and the precast waffle slab resists vertical load and bending and shearing of the slab end, the spacing between disposing containers is relatively narrowed and the amount of disposal containers in the repository is increased and disposed of. efficiency can be increased.

In addition, according to the present invention, the precast waffle slab is pre-fabricated at the factory, so quality control is easy, the structural function of the grouting can be separated or removed if necessary, and the concrete strength and radiation shielding performance can be improved, so the safety of the worker is possible. can be secured, it is possible to respond to various disposal container standards, and it is possible to manufacture various types of cells depending on the location, so it is possible to increase the amount of disposal containers disposed of within the limited specifications of the repository.

1 is a process explanatory diagram for explaining a method of operating a repository of a conventional radioactive waste surface disposal facility.
Figure 2 is a perspective view showing the configuration of the precast precast waffle slab according to the present invention.
3 is a bottom view of FIG. 2 ;
4 is a perspective view showing the configuration of a prefabricated precast waffle slab according to another embodiment of the present invention.
5 is a process schematic diagram for explaining a method for securing stacking strength of a disposal container of a surface-level disposal facility for radioactive waste using a prefabricated precast waffle slab according to the present invention.
6 is a process explanatory diagram for explaining the method of securing the stacking strength of the disposal container of the surface layer disposal facility for radioactive waste using the prefabricated precast waffle slab according to the present invention.

Hereinafter, the configuration of the prefabricated precast waffle slab according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, if it is determined that a detailed description of a related well-known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. And, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users and operators. Therefore, the definition should be made based on the content throughout this specification.

2 is a perspective view showing the configuration of a prefabricated precast waffle slab according to the present invention, FIG. 3 is a bottom view of FIG. 2, and FIG. 4 is a perspective view showing the configuration of a prefabricated precast waffle slab according to another embodiment of the present invention to be.

2 to 4 , the precast precast waffle slab 1 according to the present invention includes a body 10 and a leg 20 .

First, the main body 10 has a rectangular flat plate shape by reinforcing the reinforcing bar (A), pouring concrete, and is manufactured as a unit module.

The body 10 is provided with a lifting ring 11 at the center of gravity and other parts.

In the body 10, a hole 13 for measurement for radioactivity measurement is formed vertically through the portion partitioned by the leg 20, and the upper surface is formed in the gap between the bottom surface of the main body 10 and the disposal container (P). The mortar injection hole 15 is formed vertically through the portion partitioned by the leg 20 so as to have structural performance by injecting the cement mortar 30 through the grouting process.

And, the leg 20 is vertically integrally formed with the bottom surface of the body 10 . At this time, the leg 20 is preferably reinforced with reinforcing bars.

The leg 20 is preferably formed in any one shape selected from a cross shape, a T shape, an L shape, and an 11 shape as shown in FIG. 4 .

Hereinafter, with reference to the accompanying drawings, the method of securing the stacking strength of the disposal container of the radioactive waste surface layer disposal facility using the prefabricated precast waffle slab according to the present invention will be described in detail as follows.

5 is a process schematic diagram illustrating a method for securing stacking strength of a disposal container of a surface disposal facility for radioactive waste using a prefabricated precast waffle slab according to the present invention, and FIG. 6 is a radioactive waste using a prefabricated precast waffle slab according to the present invention. It is a process explanatory diagram for explaining the method of securing the stacking strength of the disposal container of the surface disposal facility.

5 to 6 , the method for securing the stacking strength of the disposal container of the radioactive waste surface layer disposal facility using the prefabricated precast waffle slab according to the present invention is a disposal container stacking process (S100), a grouting process (S110), and a prefabricated method It consists of a precast waffle slab installation process (S120), a repeated installation process (S130), and a sealing process (S140).

《Disposal container lamination process-S100》

First, the disposal container (P) in which at least one or more radioactive waste drums (not shown) are stored are spaced apart from each other on the floor of the disposal facility (S) of the surface disposal facility and stacked in one stage. In this case, the disposal container (P) is preferably formed in a rectangular parallelepiped shape, and the spacing of the disposal container (P) is spaced apart by the width into which the leg 20 is inserted.

《Grouting process-S110》

Grouting is performed by pouring the cement mortar 30 up to the middle part of the disposal container P stacked in one step.

《Precast precast waffle slab installation process-S120》

When the curing of the cement mortar 30 is completed, a plurality of prefabricated precast waffle slabs 1 are placed on the top surface of the grouting cast in the first stage. At this time, if you want to arrange the precast precast waffle slab 1 at the end of the disposal facility (S), it is formed in a T-shape, an L-shape, and an 11-shape as shown in FIG. 4 .

Then, the cement mortar 30 is poured in the gap between the bottom surface of the prefabricated precast waffle slab 1 and the disposal container P and the gap between the adjacent precast precast waffle slab 1 .

《Repeat installation process-S130》

After stacking the disposal containers (P) spaced apart from each other on the top surface of the prefabricated precast waffle slab (1), repeat the grouting process (S120) and the precast precast waffle slab installation process (S120) to achieve the design height (2 to N stages) The disposal container (P) is stacked until

《Sealing process-S140》

Finally, the upper surface of the precast precast waffle slab (1) installed at the top is filled with cement mortar (30), and grouting is performed to seal the disposal (S).

The present invention can be variously modified and can take various forms, and in the detailed description of the invention, only specific embodiments thereof have been described. However, it is to be understood that the present invention is not limited to the particular form recited in the detailed description, but rather, it is to be understood to cover all modifications and equivalents and substitutions falling within the spirit and scope of the present invention as defined by the appended claims. should be

10: body 11: lifting ring
13: hole for measurement 15: mortar injection hole
20: leg 30: cement mortar
A : Rebar P : Disposal container
S: disposal

Claims (6)

A disposal container stacking process of stacking the disposal containers in which at least one or more radioactive waste drums are stored on the floor of the disposal facility at the surface disposal facility and stacking them in one stage;
a grouting process of grouting by filling cement mortar up to the middle of the disposal container stacked in one step;
A leg is provided on the bottom surface vertically, a measurement hole for radioactivity measurement is formed vertically through the part partitioned by the leg, and a prefabricated precast waffle slab manufactured in the form of a unit module with reinforcing bars is placed in the first stage. A precast precast waffle slab installation process placed on the top surface of the cast grouting;
A repeated installation process of stacking the disposal container on the upper surface of the prefabricated precast waffle slab to a design height by repeating the grouting process and the precast precast waffle slab installation process after stacking the disposal container spaced apart from each other; and
A method of securing the stacking strength of a disposal container in a surface disposal facility for radioactive waste using a prefabricated precast waffle slab, characterized in that it consists of a sealing process of sealing the disposal by filling the upper surface of the precast precast waffle slab installed at the top with cement mortar and grouting it. . The method of claim 1,
The precast precast waffle slab installation process is
Disposal container stacking history of a surface layer disposal facility for radioactive waste using a prefabricated precast waffle slab, characterized in that grouting is performed in the gap between the bottom surface of the prefabricated precast waffle slab and the disposal container and the gap between the neighboring precast precast waffle slabs securing method. The method of claim 1,
The legs of the prefabricated precast waffle slab,
A method of securing the stacking strength of the disposal container of a surface-level disposal facility for radioactive waste using a precast precast waffle slab, characterized in that it is formed in any one of a cross shape, a T-shape, an L-shape, and an 11-shape. The method of claim 1,
The prefabricated precast waffle slab,
A method of securing the stacking strength of a disposal container at a surface disposal facility for radioactive waste using a precast precast waffle slab, characterized in that a lifting ring is provided at the center of gravity and other parts. delete The method of claim 1,
The prefabricated precast waffle slab,
The mortar injection hole is formed vertically through the part partitioned by the bridge so that cement mortar is injected through the upper surface into the gap between the bottom surface of the precast waffle slab and the disposal container to grout. A method of securing the stacking strength of the disposal container of a surface-level disposal facility for radioactive waste using a cast waffle slab.

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