KR101920736B1 - Method for decontamination of radioactive concrete waste - Google Patents

Abstract

The present invention relates to a method for decontaminating the surface of radioactive concrete wastes. In order to remove the radioactive material penetrating deep into the surface of the waste concrete block generated from the facility handling the radioactive material, And at the same time to minimize the amount of radioactive waste generated.

Description

The present invention relates to a method for decontamination of radioactive concrete waste,

The present invention relates to a method for decontaminating a surface of a radioactive concrete waste, and more particularly, to a method for decontaminating a radioactive concrete waste, in which a part of a surface is shaved to remove radioactive material penetrating deep into a concrete surface.

Generally, even if a substance contaminated with a radioactive substance is contained locally, the whole is treated as a radioactive contaminant. Therefore, it is very important to safely isolate or treat radioactive contaminants such as radioactive contaminants, radioactive waste, or materials containing radioactive materials generated in facilities handling radioactive materials such as nuclear facilities and safely dispose of them . Therefore, in order to dispose of all of the radioactive materials, enormous expense and storage facilities are required, and most of them require very long storage and storage. Therefore, when substances or radioactive waste polluted with radioactive materials are to be treated or disposed of, they must first be examined for their ability to be reduced or decontaminated and treated for removing radioactive materials.

For example, in the case of solid radioactive contaminants, if the surface is contaminated only by the surface, it is treated with a treating agent. When the surface contamination is metallic contaminants, it is subjected to decontamination treatment only by electrolytic polishing or the like. For example, a solution in which a radioactive substance is dissolved, an ion exchange resin, a method of precipitation or a method of heating by a heating and concentration method, and the like .

However, in the case of solid radioactive contaminants, which are dispersed throughout the radionuclide species, or waste, it is necessary to dissolve the radioactive contaminants or the entire waste and separate and recover the radioactive materials contained therein.

On the other hand, in Japanese Patent Laid-Open No. 10-2011-0026642, a radioactive decontamination method for treating radioactive concrete is proposed. However, even when the above-mentioned method is used, it is often difficult to treat the waste, and when the operation for dissolving the solid radioactive contaminants or waste is required once, if the operation for removing the radioactive substance is incompletely performed, There is a danger that the pollutants are further increased, the storage facilities are expanded, the cost for disposal increases, and there is still a lot of problems such as securing stability while maintaining and managing a large amount of radioactive waste for a long period of time.

Therefore, in the case of solid waste in which the radioactive material is dispersed as a whole, it is common to dispose the waste in a state of solidifying and storing in a solidified state by performing solidification with cement, concrete, or asphalt.

It is an object of the present invention to ensure the safety of an operator who decontaminates the waste concrete block contaminated with radiation (radioactivity) by smoothly decontaminating the surrounding environment and decontamination operation.

The present invention proposes a radioactive concrete waste decontamination method for safely removing radioactive material by chipping off a part of the surface of concrete contaminated with radiation (radioactivity) to achieve the object.

According to the present invention, the waste concrete block generated from the facility handling the radioactive material can be disposed of and the amount of generated radioactive waste can be minimized.

FIG. 1 is a flowchart illustrating a process of decontaminating a radioactive concrete waste according to the present invention.
Fig. 2 shows a work tent for decontamination of the decontamination object of the present invention.
3 shows that the decontamination object of the present invention is decontaminated inside the work tent.
Fig. 4 shows a state in which the decontamination object of the present invention is put on a work support.
5 shows that the decontamination object of the present invention is cut by a cutting machine.
Figure 6 shows that the decontamination object of the present invention is chipped by a chipping machine.
FIG. 7 shows a state where the decontamination object of the present invention is wrapped with a vinyl sheet after decontamination.

The present invention relates to a process for decontaminating a decontamination object such as a waste concrete block generated in a waste disposal building or the like to prevent the contamination from spreading to the surrounding environment by the waste, It is possible to remove only the contaminated surface of the decontamination object and to minimize the amount of waste to be disposed of separately and to remove the decontaminated object to the outside to prevent contamination of the environment .

In the present invention, the decontamination object is firstly subjected to a step of selecting or selecting a decontamination object to be decontaminated. That is, in some waste treatment buildings within a radiation management area such as a reactor facility or a power plant, contamination sources may exist at all times. Therefore, in the process of dismantling or demolishing decontamination objects, The worker must be thoroughly familiar with the workplace's prior knowledge of radiation (radioactivity) levels.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in the following description of the operation procedure according to the preferred embodiment of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, The elements of the decontamination equipment which can be used in each step of the present invention can be modified or modified in various forms, And should not be construed to be interpreted in any detail as an embodiment of the invention.

1 is a flowchart illustrating a method of decontaminating radioactive concrete waste according to an embodiment of the present invention. In the present invention, a decontamination object (A) disassembled from a waste treatment building contaminated with radiation (radioactivity) is brought into the worksite where the clean work is separated from the waste treatment building, and is prepared for the decontamination operation. That is, the decontamination object is decontaminated through the decontamination facility and equipment in the clean area through the bringing-in step (S100) of bringing the decontamination object into the workplace, whereby the decontamination object (A) and the worker are not exposed further from the radiation And it is also possible to prevent the pollutants in the waste disposal building from contaminating the air in the work space.

In the carrying-in step S100, the decontamination object A is moved to a clean area by using heavy equipment such as a forklift or a ceiling crane. In one embodiment, a safety facility is installed in the clean area and an obstacle in the traveling direction of the decontamination subject A is removed before moving the decontamination object A, B) is prepared, and the decontamination object (A) is placed on the pedestal (B) so as to be separated from the floor, thereby preparing a decontamination operation.

3 and 4, the pedestal B can be stably placed horizontally with a height sufficient for the operator to perform the decontamination operation in the lower portion of the decontamination object A. So that a sufficient working space is provided when an operator decontaminates the lower end surface of the decontamination object (A).

When the decontamination object (A) is transferred to the clean area, a work tent (10) provided around the decontamination object (A) is installed to prevent the contamination from spreading to the area where the decontamination operation is performed. 2, the tent 10 is installed around the decontamination object A, and the tent installation step S200 for preventing the dust generated during the decontamination process is performed (step S200). As a result, And the space for decontamination operation is divided by using the work tent 10.

In the tent installing step (S200), a column is placed around the decontamination object (A) and covered with a vinyl sheet (C) to form a separate working space (12) in the clean area. That is, the work tent 10 is formed so as to facilitate disassembly after the decontamination operation and to prevent diffusion of the concrete dust that may occur in the decontamination operation of the decontamination object A.

Here, the work tent (10) is formed with an entrance through which the worker (12) enters and exits the work space (12). In order to prevent the dust from escaping to the outside, it is preferable that a partition such as a double door is provided at the entrance so that the clean area and the work space are continuously separated even when the operator enters / leaves the room. In addition, the air cleaner is installed in the work space 12 to maintain a certain level of air quality even when the dust is continuously generated and diffused into the air during the operation. Even if the operator decontaminates for a long time, It is possible to perform decontamination without difficulty in the space 12.

Meanwhile, the installing step (S200) may be performed prior to the carrying-in step (S100) of the decontamination object. That is, the work tent 10 is installed in the clean area, and the decontamination object A can be transferred to the work space 12 of the work tent 10.

When the decontamination object A is provided in the work space 12 of the work tent 10 and is disconnected from the outside, the radioactivity is measured before the decontamination object A is decontaminated. That is, it is possible to set the repetition frequency or the degree of difficulty of decontamination by measuring the degree of contamination of the decontamination subject A before the decontamination in the decontamination radioactivity (radioactivity) measuring step S300.

The radiation dose (radioactivity) measuring step (S300) before the decontamination measures the radiation dose rate at a distance of 1 m from the surface and the surface of the decontamination object (A). The contamination degree of the concrete is inspected using a smear paper, And so on.

When radiation (radiation) is measured on the decontamination object (A), each surface of the decontamination object (A) is subjected to block dry decontamination with a special vacuum decontamination equipment. That is, the contaminated portion of the surface of the decontamination object A is subjected to a chitin step S400 for cutting the groove a at a predetermined depth as in a checkerboard pattern and a chipping step S500 for cutting the surface along the groove a, .

5, the cutting step S400 is performed by first marking the surface of the decontamination object A at intervals of 30 cm and 30 cm so as to include the identified contamination site, ) To a predetermined depth in a straight line. Here, the depth of the groove (a) to be cut may vary depending on the degree of contamination to be measured, and may be usually cut to about 1 cm or so.

Therefore, since the joint formed by cutting the contaminated surface of the decontamination object A is formed into a lattice pattern, the surface can be divided and blocked, and the contaminated portion can be located in the blocked region, The surface is easily separated from the concrete debris at the stage of scraping.

Meanwhile, in the cutting step S400, when a commercial vacuum cleaner is attached to the cutter, the contaminated dust, which is broken by the cutting edge of the cutter x and is scattered, is immediately sucked into the vacuum cleaner, In the air. Also, after cutting, it is preferable to use an industrial vacuum cleaner or the like to remove dust that has not been sucked into the vacuum cleaner, and to keep the work space 12 in a clean state.

When the surface of the decontamination object A is cut and partitioned at a predetermined interval to be blocked, a portion of the blocked surface of the decontaminated object A from a point cut at the cutting step S400 or adjacent to the groove a Chipping is performed to cut the surface toward the center. That is, the contaminated surface is completely peeled off from the decontamination object A by going through a chipping step (S500) of cutting off the contaminated surface of the decontamination object (A).

6, the surface of the decontamination object A is cut using a chipping machine y such as a hemmer drill to remove a contaminated portion of the object A will be.

When the primary decontamination operation for removing the contaminated portion of the surface of the decontamination object (A) is completed, the free pollution degree of the portion where the surface is scraped off is measured, and the radiation (radiation) (Step S600). That is, when radiation (radioactivity) is detected from the decontamination object A, repetitive decontamination is repeated in which the cutting step S400 and the chipping step S500 are repeatedly performed until the contamination degree is not detected (Not Detectable) do.

On the other hand, if radiation (radioactivity) is not detected in the decontamination object A through the inspecting step S600 after the chipping step S500 or is lower than the reference value, as shown in FIG. 7, the decontamination object A ) Is lapped with a vinyl sheet (C) and is taken out to a place where it is stacked or a predetermined place. That is, through the lapping step S700 in which the decontaminated object A is wrapped, the object A can be prevented from secondary contamination.

On the other hand, if no free pollution degree is detected in the decontamination object (A) after the chipping step (S500), the decontamination object (A) is taken out to the outside of the working tent (10) It is possible to increase the accuracy. That is, the decontamination object (A) taken out from the work space (12) and transferred to the clean area is subjected to sticking contamination inspection using a contamination inspection equipment. If there is a contaminated part, the contaminated part is marked, To the work space (12) of the work tent (10) so that decontamination is performed again.

50mm로 채취하여 핵종분석을 별도로 실시하고 핵종분석 후, 방사선(방사능)의 측정값이 자체처분 제한치 미만이면 상기 제염 대상물(A)의 제염을 완료로 판정하는 것이다.When the decontamination object (A) is decontaminated and the contaminated portion is not detected after the fixation contamination inspection, the sample on each surface of the decontamination object (A) is cleaned in the clean area to a depth of 100/200 /

50 mm to perform nuclide analysis separately. After the nuclide analysis, if the measurement value of the radiation (radioactivity) is less than the self-disposal limit, the decontamination of the decontamination object A is determined to be completed.

Then, the decontamination object A having been decontaminated is moved to a predetermined position or a temporary yard where it can be loaded, and finally it is taken out (S800).

In addition, the method of decontaminating radioactive concrete waste according to the present invention measures the air pollution degree of the clean area and the work space 12 at every step to prevent pollutants from being discharged outside the work area, It is possible to consider the safety of the operator.

10: work tent (10) 12: working space
A: Decontamination object a: Home
B: pedestal C: vinyl sheet
x: Cutter y: Chipper

Claims (6)

A carrying-in step of bringing the decontamination object into a work space provided with a pedestal prepared at a height at which a worker can decontaminate the decontamination object, and placing the decontamination object on the pedestal;
A tent installation step of installing a work tent around the decontamination object to prevent the dust from flowing out during decontamination;
Measuring the radioactivity of the decontamination subject before decontamination using smear paper to check the degree of surface contamination;
A cutting step of forming, on the surface of the decontamination object, a groove forming a parser lattice pattern at a predetermined depth determined according to the degree of surface contamination by using a cutting machine to form a straight groove in a predetermined transverse direction and a longitudinal direction;
The surface of the decontaminated object is cut and the surface is divided and blocked by the formation of the grooves, the chipped material is chipped by using a chipping machine and is chipped from a point adjacent to the groove to a central portion of the blocked surface of the decontaminated object, step;
An inspection step of measuring the free pollution degree of the portion of the decontamination subject having the surface cut off and measuring whether radioactivity is detected in the decontamination subject;
Repeating the cutting step and the chipping step when the radioactivity is detected in the inspecting step;
If the radioactivity is not detected in the inspecting step, wrapping the decontaminated object with a vinyl sheet and carrying it out;
Performing a sticking contamination test on the decontaminated object taken out using the contamination testing equipment;
A step of bringing the decontamination object having a portion contaminated by the sticking contamination inspection into the work space;
Measuring the radioactivity of the decontamination object by performing a nuclide analysis on the decontamination object when the contaminated portion does not exist in the fixation contamination inspection; And
If the radioactivity measured by the nuclide analysis is less than the disposal limit, determining that the decontamination of the decontaminated object is completed
Wherein the radioactive concrete waste is decontaminated. delete delete delete delete delete

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