KR101743204B1 - Compressing device of loading container for storage of low and intermediate-level radioactive waste - Google Patents

Abstract

The present invention relates to a method for re-expansion of a low-level radioactive waste compacting apparatus that reduces the volume of the radioactive waste by pressing the radioactive waste inside the drum with a compression plate at the end of the piston rod of a compression cylinder installed in the main body after the radioactive waste is received in the drum More particularly, the present invention relates to a method of inserting a re-expansion chamber when compressing a radioactive waste in order to efficiently block the property of returning undamaged state after the radioactive waste in the drum is compressed by a compression plate, This system is designed to prevent the re-expansion of the radioactive waste by compressing the radioactive waste in a state where the radioactive waste is compressed, thereby maximizing the compression effect and the reducing effect of the radioactive waste in the drum for storing radioactive waste at home and abroad. To provide a re-expansion zone.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a radioactive waste disposal apparatus,

The present invention relates to a method for re-expansion of a low-level radioactive waste compacting apparatus that reduces the volume of the radioactive waste by pressing the radioactive waste inside the drum with a compression plate at the end of the piston rod of a compression cylinder installed in the main body after the radioactive waste is received in the drum In particular, in order to efficiently prevent the radioactive waste inside the drum from being compressed after being compressed by the compression plate and returning to the original state after being compressed, the re-expansion chamber is inserted when the radioactive waste is compressed After re-expansion of the radioactive waste, the re-expansion of the medium and low-level radioactive waste compressing system maximizes the compression effect and the silencing effect of the radioactive waste in the drum for radioactive waste storage at home and abroad by preventing the re- It is about the earth.

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.

Lastly, solid waste can be divided into incombustible and combustible materials. Burned materials are incinerated and then made into ash, put together with incombustible material in a drum, and then solidified into concrete. 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 drum or the like, 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.

In addition, although it is preferable to store as much radioactive waste as possible in the drum, there is a problem that the amount of radioactive waste is limited.

In nuclear power plants, there is a method of treating a radioactive waste by a compression drum treatment. In case of vinyl, cotton, paper, etc., which are problematic in the gripping and compressing drum processing method, the 200 liter drum can not be efficiently treated with radioactive waste due to the nature of returning to the original state when it is out of the compression state.

That is, as shown in FIG. 1, conventionally, the compression cylinder 24 of the compression processor 10 is used to compress the radioactive waste 30 in the drum 28 to enhance the depressing effect. However, When the radioactive waste 30 in the drum 28 is compressed by the compression plate 20 using the compression cylinder 24 after one drum 28 is filled with the radioactive waste 30 as shown in the figure, 2b, the radioactive waste 30 is largely compressed to obtain a maximized depilatory effect. However, after the compression plate 20 is removed, the depilatory effect re-expands as shown in FIG. 2c I will not.

In addition, if the radioactive waste 30 is further received in the drum in the state of FIG. 2C, the radioactive waste 30 must be treated after receiving the amount smaller than the initial compressed state (state shown in FIG. 2B) There is a problem that the efficiency is necessarily reduced.

In other words, even if the radioactive waste 30 is compressed by the compression processor 20, there is a chronic problem that the inherent elasticity of the waste and the elasticity between the waste are inevitably small.

In order to solve the above-mentioned problems, the present invention, which has been devised to solve the problems described above, can prevent the radioactive waste from re-expanding due to the elasticity inherent to the radioactive waste and the elasticity between the waste after the radioactive waste inside the drum is compressed by the compression plate of the compression processor, The present invention provides a reexpansion zone for a low-level radioactive waste compression treatment apparatus that maximizes the effect of reducing the radioactive waste generated by the radioactive waste, thereby reducing the processing cost of the radioactive waste.

The above object is achieved by a spinning reel according to the first aspect of the present invention, comprising: a circular plate-shaped bull's-proof plate 104 having an outer diameter comparatively smaller than the inner diameter of the drum 102 for treating the radioactive waste 100 and having at least one through- When the radioactive waste 100 in the drum 102 is compressed, it is protruded to the outer diameter of the bulging preventing plate 104 so as to be downwardly bent while being closely adhered to the inner diameter surface of the drum 102, And is coupled and fixed along the outer circumference of the upper surface of the bulging prevention plate 104 to elastically interfere or support the inner diameter surface of the drum 102 when the radioactive waste 100 is re-expanded after decompression of the radioactive waste 100. [ A lift preventing portion 106 made of a rubber material; And an engaging means of an ascent / descent inhibiting portion for engaging the lifting restraining portion 106 with the bulging preventing plate 104. The reexpanding prevention portion of the middle-

The engaging means of the lifting inhibiting portion includes a plurality of polygonal or accidental holes 108 perforated in the circumferential direction on the outer surface of the upper surface of the bulging preventing plate 104; A fixing bolt 110 inserted into the threaded hole 108 at a lower portion of the bulging prevention plate 104 and having a head 110a corresponding to a polygon of the threaded hole 108; A first coupling hole 112 formed in the lift-up restraining portion 106 so as to be inserted into the fixing bolt 110 passed through the threaded hole 108; A fixing bracket 116 having a second coupling hole 114 to be inserted into a fixing bolt 110 passing through the first coupling hole 112 of the elevation suppression unit 106; A fixing nut 118 fastened to the fixing bolt 110 passing through the second coupling hole 114 of the fixing bracket 116; A fixing piece 120 extending downward from at least one end of the fixing bracket 116; And a fixing hole 122 formed in the bulging preventing plate 104 for inserting the fixing piece 120.

The fixing bracket 116 may further include a bending restricting portion 124 extending upward at a predetermined angle from the end of the fixing bracket 116 to limit an upward bending angle of the lift preventing portion 106.

According to the present invention, when the bulb-preventing plate is placed on the upper portion of the radioactive waste accommodated in the drum and then compressed, the radioactive waste is compressed and falls down inside the bulb-preventing plate drum. At this time, Therefore, when the force for compressing the radioactive waste is released, when the radioactive waste tries to re-expand due to the elasticity of the radioactive waste, the rubber material, which is interfered with the inner diameter surface of the drum, The lifting and lowering portion of the radioactive waste is interfered with the inner surface of the drum again to elastically support the bulging preventing plate, thereby preventing re-expansion due to the elasticity of the radioactive waste.

Therefore, since the radioactive waste is re-expanded in the state where the radioactive waste is not re-expanded, the radioactive waste can be compressed into a larger amount of the radioactive waste, and the effect of compressing can be maximized.

1 is a conceptual diagram of a radioactive waste compression processor.
Figure 2a shows radioactive waste contained in a conventional drum.
FIG. 2B is a view showing a state in which radioactive waste accommodated in a conventional drum is compressed. FIG.
FIG. 2B is a view showing a state in which the radioactive waste accommodated in the conventional drum is compressed, the compression force is released, and the radioactive waste is re-expanded. FIG.
3 is an exploded perspective view showing the configuration of a re-expansion chamber of a low-level radioactive waste compression processor according to the present invention.
4 is a perspective view showing the construction of a re-expansion chamber of a low-level radioactive waste compression processor according to the present invention.
5 is a view showing an operation state of a re-expansion chamber of a low-level radioactive waste compression processor according to the present invention;

The construction and operation of the re-expansion chamber of the low-level radioactive waste compression processor according to the present invention will be described with reference to FIGS. 3 to 5.

The re-expansion preventing member of the middle- and low-level radioactive waste compression treatment apparatus according to the present invention includes a bulging preventing plate 104, an elevation restraining portion 106, and a lifting / lowering portion for coupling the lifting restraining portion 106 to the bulging preventing plate 104 And a coupling means of the restraining portion.

The bulging prevention plate 104 is formed into a disk having an outer diameter comparatively smaller than the inner diameter of the drum 102 for processing the radioactive waste 100 to compress the radioactive waste 100 inside the drum 102 Is inserted into the upper portion of the radioactive waste (100).

The blast prevention plate 104 is provided with a penetration hole 104a for identifying the radioactive waste 100 under the bullfight prevention plate 104 so that the radioactive waste 100 It is possible to visually recognize the contents.

As shown in FIG. 3, a plurality of lift preventing portions 106 are coupled along the circumferential direction to the outside of the upper surface of the bulging preventing plate 104. The lift preventing portions 106 are formed of rubber And has a property of being flexibly bent as shown in Fig.

3 to 5, when the lifting restraining portion 106 is engaged with the bulging preventing plate 104, the inner diameter of the drum 102 When the anti-foaming plate is lowered so as to interfere with the surface of the anti-foaming plate, the lifting suppressing unit 106 is bent upward, and when the lifting suppressing unit 106 tries to re-expand the radioactive waste 100 compressed at the lower portion thereof by elasticity The re-expansion of the radioactive waste 100 can be suppressed by the interference force and the elastic supporting force generated on the inner surface of the ascending / descending section 106 and the drum 102.

Therefore, as described above, the coupling means of the ascent / descent suppression unit for suppressing the re-expansion of the radioactive waste 100 by the ascent / descent suppression unit 106 is as shown in Fig.

That is, a plurality of threaded holes 108 formed in a polygonal shape along the circumferential direction are formed on the outer surface of the upper surface of the bulging prevention plate 104, and the bulged prevention plate 104 The fixing bolt 110 is inserted upward in the lower portion of the fixing bolt 110.

At this time, when the head portion 110a of the fixing bolt 110 is formed into the same shape and shape as the polygon of the threaded hole 108 and the fixing nut 118, which will be described later, is rotated to disassemble the screw coupling structure It is preferable that the fastening bolt 110 is prevented from being interfered with by the threaded hole 108 and is prevented from being transferred to the threaded hole 108, so that the screw fastening or the screw disassembly can be easily made.

When the fixing bolt 110 is inserted into the screw hole as described above, the fixing bolt 110 passed through the screw hole of the bulging preventing plate 104 is provided with the first coupling hole 112 formed in the lift- 3 is inserted into the fixing bolt 110 passed through the first fixing hole 112 and the second fixing hole 114 of the fixing bracket 116 is inserted as shown in FIG. The fixing bolt 110 passing through the second coupling hole 114 is finally fixed with the fixing nut 118 so that the lift preventing portion 106 and the fixing bracket 116 are coupled and fixed to the bulging preventing plate 104 do.

3 to 5, at one of the ends of the fixing bracket 116 (for example, at the end of the fixing bracket 116 near the projection 104a as shown in the drawing) The fixing piece 120 is extended downward and the fixing piece 120 is inserted into the fixing hole 122 formed in the bulging preventing plate 104 so that the bulging preventing plate 104 is inserted into the fixing hole 122 formed in the drum 102 , It is possible to prevent the lift preventive unit 106 from rotating or turning when the lift preventive unit 106 is lowered in a state in which it is in close contact with the inner diameter surface of the drum 102 so that these interference forces can be maintained desirable.

The bending restricting portion 124 may be formed at an end of the fixing bracket 116 at an inclination of a predetermined angle upward (for example, at the end of the fixing bracket 116 close to the inner diameter surface of the drum 102) The lift suppressing portion 106 bent in a state of being closely attached to the drum 102 is excessively bent to prevent the interference force between the inner diameter surface of the drum 102 and the lift suppressing portion 106 from being lowered or slipped .

5 is a sectional view taken along the line A-A of Fig. 4, showing a re-expansion chamber inserted and pressed by the drum 102. Fig.

According to the present invention, the re-expansion preventing member of the low-level radioactive waste decompression apparatus according to the present invention has a structure in which the radioactive waste 100 is received in the drum 102, and a re- And then pressurizes the radioactive waste 100 downward at the top of the re-expansion chamber.

Therefore, as shown in Fig. 5, the lifting restraint 106 of the re-expansion chamber interferes with the inner diameter surface of the drum 102, and is bent upward, and the re-expansion restraint is lowered in this state.

5, when the force for squeezing the re-expansion preventing member and the radioactive waste 100 is released, the re-expansion force is generated in the radioactive waste 100 due to the elasticity of the radioactive waste 100 and the elasticity therebetween At this time, the reexpanding force of the radioactive waste 100 acts on the bulging preventing plate 104, and the reexpanding force acting on the bulging preventing plate 104 acts as the lift preventing unit 106 again.

However, as shown in FIG. 5, since the elevation restraining portion 106 is bent in a state of being tightly adhered closely to the inner diameter surface of the drum 102, the elastic force for restoring the bent- The repulsive force acting on the part 106 simultaneously acts on the inner diameter surface of the drum 102 and also the bent up / The interference force generated in the inner surface of the lift preventing portion 106 and the drum 102 and the elastic force of the lift preventing portion 106 and the repulsive force in the inner diameter surface of the drum 102, 106, the bulging preventing plate 104 is maintained in the present state.

When the radioactive waste 100 is accommodated in a part of the drum 102 and then compressed and then the radioactive waste 100 is further received and compressed, The radioactive waste 100 may be accommodated and then compressed. However, in the present invention, the radioactive waste 100 may be further separated from the drum 102 after disassembling the fixing nut 118, separating the re- And then the re-expansion chamber may be placed on the top of the radioactive waste 100 to be compressed. The present invention is not limited to this, and can be variously changed and adopted.

100: radioactive waste 102: drum
104: bulging prevention plate 106:
108: Screw process hole 110: Fixing bolt
112: first coupling hole 114: second coupling hole
116: Fixing bracket 118: Fixing nut
120: Fixing piece 122: Fixing hole
124:

Claims (3)

A circular plate-shaped bulb preventing plate 104 having an outer diameter smaller than the inner diameter of the drum 102 for treating the radioactive waste 100 and having at least one through-hole 104a punctured, Is protruded to the outer diameter of the bulging preventing plate 104 and interferes with the inner diameter of the drum 102 so as to be lowered while being upwardly bent while being closely adhered to the inner diameter surface of the drum 102 when the radioactive waste 100 is compressed, 104 so as to elastically interfere with or support the inner diameter surface of the drum 102 when the radioactive waste 100 is re-expanded after decompression of the radioactive waste 100, And a coupling means for coupling an elevation suppressing portion (106) to the bulging preventing plate (104), wherein the reexpansion restricting portion of the low level radioactive waste compression processor
The engagement means of the lift-
A plurality of polygonal or punctured holes 108 perforated in the circumferential direction on the outer surface of the upper surface of the bulging preventing plate 104;
A fixing bolt 110 inserted into the threaded hole 108 at a lower portion of the bulging prevention plate 104 and having a head 110a corresponding to a polygon of the threaded hole 108;
A first coupling hole 112 formed in the lift-up restraining portion 106 so as to be inserted into the fixing bolt 110 passed through the threaded hole 108;
A fixing bracket 116 having a second coupling hole 114 to be inserted into a fixing bolt 110 passing through the first coupling hole 112 of the elevation suppression unit 106;
A fixing nut 118 fastened to the fixing bolt 110 passing through the second coupling hole 114 of the fixing bracket 116;
A fixing piece 120 extending downward from at least one end of the fixing bracket 116;
And a fixing hole (122) formed in the bulging prevention plate (104) to insert the fixing piece (120);
And a bending restricting portion (124) extending from an end of the fixing bracket (116) at an inclination of a predetermined angle upward to limit an upward bending angle of the lift preventing portion (106) Re-expansion zone of waste compactor.

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