KR101434458B1 - Radioactive waste packing container - Google Patents

Abstract

Discloses a radioactive waste packaging container. The radioactive waste packaging container according to the present invention includes a body portion and a sealing portion.
The body portion is formed in a cylindrical shape and has an upper end opened to receive high level radioactive waste therein, and a bottom surface has a polygonal protrusion. The hermetically sealed portion is formed with a first screw thread on the inner side so as to be engaged with the upper end portion and is rotated in the rotating direction of the first screw thread to seal the upper end portion.

Description

[0001] RADIOACTIVE WASTE PACKING CONTAINER [0002]

The present invention relates to a receptacle for receiving radioactive waste, and more particularly to a radioactive waste packaging container.

Generally, radioactive waste is an unnecessary radioactive material generated during the process of using nuclear energy in a nuclear power plant, etc., and it is a kind of radioactive material such as various waste coming from a workplace or a laboratory handling a nuclear power plant or a radioactive material such as waste water, fission products, cooling water, And the like.

In the disposal and disposal of such radioactive waste, it is legally stipulated that the effect on the surrounding natural radioactivity should be less than 1/10 of the maximum allowable dose (allowable dose).

The treatment of radioactive waste is different according to the state of the waste, and the explanation is as follows.

First, gaseous waste is stored in a sealed tank, and if the radioactivity falls below the reference value, it is filtered with a high-performance filter (HEPA filter) and then released to the atmosphere. At this time, it is confirmed that the concentration of radioactive material in the air is less than 1/10 of the maximum allowable concentration, and then the radioactive material is released from the exhaust system. Filtration removes more than 99.99% of gaseous waste, and the filter used for filtration is treated as solid waste after the end of its life.

In addition, the liquid waste is collected in a storage tank at a weight concentration of ppb (one billionth or less), the clean water is recycled by using an evaporator, and the residue is made into a stable solid, sealed in an iron drum and stored. At this time, a waste liquid having a low radioactive level and low salinity is filtered and then diluted with a large amount of dried water.

Solid waste can be divided into incombustible and combustible materials. Burned materials are incinerated and then made into ash. They are then put into drums together with incombustibles to be solidified in concrete and stored. The incombustibles are compressed or solidified with a solidifying agent, then put in a steel drum and stored in a power plant or a storage room in a sealed state.

Recently, as the use of nuclear energy has increased, the problem of disposal of waste generated in nuclear power plants has become an important issue.

The above-mentioned methods of disposing of radioactive wastes include a full-layer disposal method of piling up a soil drum by accumulating a waste drum, and a deep disposal method of accumulating a waste drum by digging a cave deep underground, in mountains or under the sea.

These radioactive waste disposal sites should be constructed in solid rock masses or geologically stable areas free from the risk of earthquakes, no risk of subsidence, and no flow of groundwater. Also, there should be a lot of material that can avoid the densely populated areas and areas where resources can be developed, and that can dissipate the heat from the waste.

Since the radioactive waste is stored in an iron container, the storage container in which the radioactive waste is stored is specified to satisfy a specific condition. That is, the content of the container should be 1400L or more, and the container should not be deformed even if it is lifted up to three times its contents.

In addition, there should be no deformation even under a load of 10 Ton, and a remote operation type structure in which fastening, handling, and movement can be operated by an automatic machine. In addition, the deformation of the outer shape should be minimized at the time of disposal, and after the contents are injected, the upper lid should maintain the airtightness.

1 is an exemplary view showing a conventional radioactive waste storage container.

Referring to FIG. 1, a high-level radioactive waste generated from a pyro-processing apparatus when performing pyro-processing in a hot cell, a cathode basket, an inner reactor, a heater, Reactor and the like are loaded into the radioactive waste storage container described in Fig.

However, conventionally, the radioactive waste storage container used in the hot cell is not a sealing structure, and thus the inert gas is leaked out to the storage container, and the integrity of the radioactive waste loaded therein is lost. Therefore, there is a need for a container for storing radioactive waste in a sealed form.

Korean Patent Publication No. 1999-017157 Korean Patent No. 10-0967391

Disclosure of Invention Technical Problem [8] The present invention provides a radioactive waste packaging container capable of shutting out an outflow of an inert gas contained in a closed container together with a radioactive waste.

Another object of the present invention is to provide a radioactive waste packaging container capable of maintaining a sealing force even after long-term storage of the radioactive waste.

According to an aspect of the present invention, there is provided a packaging container for a radioactive waste, comprising: a body portion having a cylindrical shape and having an upper end opened to receive high-level radioactive waste therein and having a bottom with a polygonal protrusion; And a sealing part formed on the inner side surface so as to be engaged with the upper part of the body part and sealing the upper part by rotating in the rotating direction of the first screw thread.

The radioactive waste packaging container according to the present invention can be stored in an inert gas atmosphere by sealing without leakage of an inert gas so as to secure the integrity of the cathode basket which is the high level radioactive waste to be loaded therein and can maintain the integrity of the cathode basket during storage have.

1 is an exemplary view showing a conventional radioactive waste storage container.
2 is an exemplary view showing a radioactive waste packaging container according to an embodiment of the present invention.
FIG. 3 is a view showing the coupling between the enclosure and the body shown in FIG. 2. FIG.
4 is a vertical sectional view of Fig.
5 is another vertical sectional view of Fig.

Hereinafter, a radioactive waste packaging container according to an embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 2 is a view showing a packaging container for a radioactive waste according to an embodiment of the present invention, FIG. 3 is a coupling diagram showing the combination of the enclosure and the body shown in FIG. 2, FIG. 4 is a vertical cross- 5 is another vertical sectional view of Fig.

2 to 4, the radioactive waste packaging container 100 of the present invention includes a sealing portion 110 and a body portion 120.

The radioactive waste packaging container 100 may further include a fixing unit 130 fixed to the bottom surface of the hot cell. The fixing portion 130 will be described in more detail below.

The body portion 120 is formed in a cylindrical shape and includes an upper end portion 120a to receive the high level radioactive waste 300 therein and a polygonal protrusion 135 on the bottom side. In the embodiment of the present invention, the protrusion is a square protrusion, but the protrusion is not limited to a square shape.

Also, a surface of the lower end portion 120b of the body 120 is fastened to the fixing portion 130.

More specifically, the upper end portion 120a is provided with a receiving groove 121 having a "C" shape in cross section so as to receive the sealing portion 110. [ The inner side surface of the receiving jaw 121 is formed with a second thread B to be fastened to the first thread A formed on the outer side surface of the sealing portion 110.

The receiving jaw 121 may further include an O-ring 122 made of rubber at the upper end of the inner bottom so as to increase the sealing force when the receiving jaw 121 is fastened to the sealing portion 110. At this time, the O-ring 122 may be inserted into the inner bottom.

A first thread A is formed on an inner side surface of the sealing part 110 so as to be fastened to the upper end 120a of the body part 120. The upper thread part 121 is rotated in the first thread B direction, As shown in Fig.

The first plate 113 and the second plate 114 may be integrally formed on one another and the first plate 113 and the second plate 114 may be integrally formed. (A) may be formed.

The second plate 114 is formed below the first plate 113 and has a smaller diameter than the first plate 113. The diameter of the second plate 114 may be less than the diameter of the first plate and may be designed to be equal to or greater than the diameter of the O-ring 122.

Referring to FIG. 5, the second plate 114 may be designed to be inserted into an insertion groove (or hole) including an O-ring 122.

When the first plate 113 is rotated and fastened to the receiving jaw 121, the second plate 114 is moved in the height direction to be in contact with the O-ring. The material of the first plate 113 and the second plate 114 may be bentonite.

The first handle 111 and the second handle 112 may be disposed on the upper portion of the sealing portion 110. The first handle 111 may be integrally formed with the second plate 114 And the second handle may be designed to be formed integrally with the first plate 113. [

The first handle 111 is used for fastening the body part 120 to the fixing part 130 and the second handle 112 is used for fastening the body 110 to the body part 120. [ Is used for fastening.

The first handle 111 of the present invention is protruded from the center of the upper portion of the sealing portion 110 and the second handle 112 is formed on the upper surface of the sealing portion 110, And is formed in a cross shape between the handles 111, but the present invention is not limited thereto.

The locking part 110 and the body part 120 are coupled through a remote controller provided from the outside, and preferably the remote controller (not shown) locks the second knob 112 1 in the threaded direction A to fasten the sealing part 110 to the upper end 120a of the body part 120. [

The first handle 111 is used when the body 120 and the fixing part 130 fastened with the sealing part 110 are fastened.

Here, the bentonite forming the closure 110 represents a mineral that has been chemically and radiatively changed to the most stable state through various mineral alteration processes for millions of years.

Such bentonite is excellent in the ability to adsorb water and radioactive materials. In this embodiment, the dry density of the bentonite forming the closed portion 110 is 1.2 Mg / m 3 or more.

Herein, the high-level radioactive waste 300 is a radioactive waste having a high radiation intensity of radiation, such as a concentrated waste solution of a fission product separated from spent nuclear fuel or a waste containing a large amount of ultra-uranium element such as plutonium. In contrast, what emerges from nuclear power plants or factories / laboratories dealing with radioactive materials is called low-level radioactive waste.

Alkaline wastes from these high level radioactive wastes are stored in the form of concentrated salt or salt lumps in softened tanks and acid wastes are stored in stainless steel tanks. In other words, waste is stored for 30 to 50 years, then buried in the sea or stored in layers several hundred meters deep.

High-level waste disposal containers that are currently being stored at nuclear power plants meet the "High-Level Disposal Guidelines" stipulating the conditions of disposable wastes due to the occurrence of rinsing water due to long-term storage, container corrosion, deterioration of solid waste, etc. And special wastes such as dehydrated wastewater and waste filters.

The radioactive waste packaging container 100 further includes a fixing part 130 which is fastened to the lower end part 120b of the body part 120. The fixing part 130 is fixed to the bottom surface of the hot cell. The fixing part 130 includes a hot cell fixing plate 133 and a receiving part 131.

More specifically, the hot cell fixing plate 133 has a plurality of fixing holes 135 to be fixed to the bottom surface of the hot cell through fixing means (for example, bolts), and the receiving unit 131 is fixed to the hot cell fixing plate 133 The hot cell fixing plate 133 and the receiving portion 131 are formed integrally with each other.

4, the receiving part 131 further includes a receiving frame 132 having the same shape as the protruding part 136 so that the protruding part 136 of the body part 120 is drawn in. Referring to FIG.

The radioactive waste packaging container according to the present invention can securely load the negative basket, which is the high-level radioactive waste produced through the pyro-processing in the hot cell, into the packaging container by remote operation.

In addition, as the body 120 of the radioactive waste packaging container and the sealing portion 110 are tightly sealed, leakage of the inert gas remaining in the radioactive waste packaging container can be prevented. Thereby, the cathode basket can be stored in an inert gas atmosphere, and the integrity of the cathode basket can be maintained during storage.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. The present invention is not limited to the drawings.

100: Radioactive waste packaging container 110: Sealing part
111: first handle 112: second handle
113: first plate 114: second plate
120: Body part 120a:
120b: lower end portion 121: receiving jaw
122: O-ring 130:
132: receptacle 133: hot cell fixing plate
135: fastening hole 136:
A: first thread B: second thread

Claims (9)

A radioactive waste packaging container sealingly accommodating radioactive waste,
A body portion 120 formed in a cylindrical shape and having a second thread on an inner side surface of an upper portion 120a opened to receive a high level radioactive waste therein and having a polygonal protrusion 136 on the bottom side;
A sealing part 110 formed on the inner side surface so as to be coupled with the second screw thread and having a first thread A and being rotated in a rotating direction of the first screw thread A to seal the upper end part 120a of the body part; And
And a fixing part (130) fastened to a lower end part (120b) of the body part (120)
The hermetic sealing part 110 includes a first plate 113 having a second handle 112 for fastening the hermetic seal part 110 and the body part 120 together. A first plate 113 formed below the first plate 113 and having a diameter smaller than a diameter of the first plate 113 and having a first handle 113 for fastening the body 120 and the fixing unit 130, 11) are integrally formed; Wherein the radioactive waste is packaged in a container.
The method according to claim 1,
Wherein the sealing part (110) and the body part (120) are fastened through a remote controller provided from the outside.
The method according to claim 1,
The upper portion 120a,
Characterized in that the receptacle (121) has a " C "-shaped vertical cross section to receive the enclosure (110).
The method of claim 3,
The receiving jaw (121)
And an O-ring (122) made of rubber at the upper end of the inner bottom surface to increase the sealing force when the sealing part (110) is tightened.
5. The method of claim 4,
The diameter of the second plate (114)
(122) is greater than or equal to the diameter of the O-ring (122).
delete The method according to claim 1,
The fixing portion (130)
Is fixed to the bottom surface of the hot cell through fastening means.
The method according to claim 1,
The fixing portion (130)
A hot cell fixing plate 133 fixed to the bottom surface of the hot cell through the fixing means; And
And a receptacle (131) in the form of a bowl formed on the hot cell fixing plate.
9. The method of claim 8,
The accommodating portion (131)
And a receptacle (132) having the same shape as the protrusion (136) is provided so that the protrusion (136) is inserted and fixed.

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