KR20210072296A - An In-house disposal method for temporary stored powder-particle form wastes in the nuclear power plant less than disposal limit - Google Patents

Abstract

The present invention relates to a self-disposal method for a waste temporarily stored in a nuclear power plant in a granule form less than a disposal limit, which prevents spread of contamination due to the dispersion of a waste. The self-disposal method of the present invention comprises: a fine powder waste generating step; a hydrous fine powder waste generating step; a compressed molded article waste molding step; a step of measuring and classifying a radioactive contamination level of the compressed molded article; a self-disposal step; and a radioactive waste disposal step.

Description

An In-house disposal method for temporary stored powder-particle form wastes in the nuclear power plant less than disposal limit

The present invention relates to a self-disposal method for wastes in the form of granules that are temporarily stored in a nuclear power plant, which are less than the disposal limit, and more particularly, have high dispersibility among wastes generated during operation or dismantling of a nuclear power plant, and it is possible to collect an even and accurate representative sample. It can greatly improve the handling of wastes in the form of difficult separation (powder and particles), and radioactive waste can be treated by classifying and disposing non-radioactive wastes as general industrial wastes through a complete investigation of the wastes. It relates to a self-disposal method for wastes in the form of granules that are less than the disposal limit temporarily stored in a nuclear power plant, which can greatly reduce the amount of waste and, in particular, dramatically shorten the time required for waste sorting and classify wastes very accurately.

In general, a large amount of waste is generated when operating or dismantling a nuclear-related facility such as a nuclear power plant (nuclear power plant).

Radioactive waste and non-contaminated general industrial waste are mixed in these wastes, and disposing of all these wastes as radioactive waste requires enormous disposal costs. It is possible to reduce the disposal cost by classifying the waste as general industrial waste with low disposal cost and disposing of it.

Therefore, various attempts have been made in the art to increase the cost of reducing radioactive waste among wastes generated during the operation or dismantling of nuclear-related facilities, and as a result, Korean Patent Application Laid-Open No. 1986-0000671 (Jan. 1986. 01. 30. Publication) and Korean Patent No. 10-1291393 (registered on July 24, 2013).

Korean Patent Application Laid-Open No. 1986-0000671 relates to "Method and Apparatus for Melting and Solidification of Radioactive Waste", in which a container is installed in a furnace having an induction heating coil, the container is heated by the induction heating coil, and the container It is intended to reduce radioactive waste by melting the radioactive waste having a small bulk density into the melt obtained by melting the granular radioactive waste in the interior, and then cooling it to obtain a solidified body immobilized in the container.

Korean Patent Registration No. 10-1291393 relates to "a method for treating waste from a cement solidification process", comprising: inserting a waste mold into a lower portion of a first container; inserting the impeller of the agitator to which the waste is attached into the first container into the upper part of the waste mold; separating the attached waste from the impeller and introducing it into the waste mold; curing the introduced waste into the waste mold; and stacking the cured waste mold on top of the solid waste material filled in the second container, recycling secondary waste that is difficult to process, and improving the filling rate of the waste drum to reduce radioactive waste and dispose of it is to cut costs.

This conventional treatment method is only a method for solidifying radioactive waste or increasing the recycling and filling rate, and it is one of the wastes generated when operating or dismantling nuclear-related facilities such as nuclear power plants. It is not intended to dispose of waste.

Since the present invention relates to a method for treating waste in the form of granules that is less than the disposal limit temporarily stored in a nuclear power plant, please note that hereinafter, only the treatment of waste in the form of granules is described in this specification.

Conventional treatment methods for wastes in the form of granules that are less than the disposal limit generated during the operation or decommissioning of nuclear-related facilities, such as nuclear power plants, are classified as radioactive waste and general industrial waste by determining the presence or absence of contamination due to the characteristics of waste in the form of granules with very high dispersibility. Waste classified as radioactive waste should be disposed of as radioactive waste, and waste classified as general industrial waste should be self-disposed as general industrial waste, but it is difficult to handle, and it is introduced into the body through the worker's respiratory system during work, resulting in internal exposure. Because there is a risk of becoming damaged, it is collected and stored in a temporary storage without additional processing.

The present invention was devised in consideration of the problems of the prior art, and its purpose is to accurately and quickly measure and classify contamination by processing the temporary stored waste in the form of granules that is less than the disposal limit into an easy-to-handle form. By classifying non-radioactive wastes as general industrial wastes so that they can be disposed of on the body, the cost of reducing radioactive wastes is significantly increased, while preventing the spread of contamination due to the dispersion of wastes in the form of granules during handling. It is to provide a self-disposal method for wastes in the form of granules that are less than the disposal limit temporarily stored in a nuclear power plant that can also prevent internal exposure of workers during waste handling.

An object of the present invention is a fine powder waste generation step of pulverizing the waste in the form of powder to generate fine powder waste; a hydrous fine powder waste generation step of generating hydrous fine powder waste by stirring while supplying moisture to the fine powder waste generated through the crushing of the granular waste; a compression molded product waste molding step of generating a compression molded product waste having a predetermined size using a compression molding machine for the hydrous fine powder waste generated through the hydrous fine powder waste generation step; measuring and classifying the radioactive contamination level of the compression molded article waste for measuring the radioactive contamination level of the compressed molded article waste molded through the compression molding waste molding step, and classifying the compression molded article waste based on the measurement result; a self-disposal step of disposing of the compressed molded body waste that has been confirmed and classified as a self-disposal target waste through the measurement and classification step of radioactive contamination of the compressed molded body waste; The waste in the form of granular material stored temporarily in the nuclear power plant, characterized in that it consists of a radioactive waste disposal step of disposing of the compressed compact waste that has been confirmed and classified as radioactive waste as radioactive waste through the radioactive contamination level measurement and classification step of the compressed compact waste. This can be achieved by a self-disposal method for

The self-disposal method for granular waste that is temporarily stored in a nuclear power plant is less than the disposal limit according to the present invention by molding the temporarily stored granular waste into a compression molded body to facilitate handling, accurately and promptly whether or not radioactive contamination of waste By conducting a full investigation and classifying radioactive waste and general industrial waste as radioactive waste and general industrial waste so that they can be disposed of appropriately, the operation of temporary storage in nuclear-related facilities such as nuclear power plants can be performed more efficiently, and the cost of reducing radioactive waste can be reduced. It has the effect of greatly reducing the disposal cost of radioactive waste by increasing it, and protecting workers who handle waste in the form of separation more safely from radiation exposure.

1 is a block diagram illustrating a process of constructing a self-disposal method for waste in the form of granules that is less than a disposal limit temporarily stored in a nuclear power plant according to the present invention;
2 is a flowchart illustrating the configuration of the radioactive contamination level measurement and classification step in the process of the self-disposal method for the waste in the form of granules that is less than the disposal limit temporarily stored in the nuclear power plant according to the present invention as expected in FIG. 1,
3 is one of the self-disposal methods for wastes in the form of granules that are temporarily stored in the nuclear power plant according to the present invention, the waste in the form of granules is molded into a compression molded body, arranged on a tray, and the degree of radioactive contamination is measured and classified and disposed It is explanatory drawing explaining a process.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

Prior to this, the terms or words used in the present specification and claims should not be construed as being limited to their ordinary or dictionary meanings, and the inventor should properly understand the concept of the term in order to best describe his invention. Based on the principle that it can be defined, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

Accordingly, the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiment of the present invention, and do not represent all the technical spirit of the present invention, so at the time of the present application, they can be replaced It should be understood that there may be various equivalents and variations.

An embodiment of the self-disposal method for the waste in the form of granules that is less than the disposal limit temporarily stored in the nuclear power plant according to the present invention will be described in detail with reference to the accompanying drawings 1 to 3 .

1 to 3, the self-disposal method for the waste in the form of granular waste that is temporarily stored in the nuclear power plant according to the present invention is less than the disposal limit of the fine powder waste generation step (S100), the hydrous fine powder waste generation step (S200) and , Compression molded body waste forming step (S300), radioactive contamination level measurement and classification step (S400) of the compression molded body waste, self-disposal step (S500), and radioactive waste disposal step (S600).

The fine powder waste generation step (S100) generates fine powder waste by pulverizing the waste in the form of granules.

The hydrous fine powder waste generation step (S200) generates a hydrous (含水) fine powder waste by stirring while supplying moisture to the dry fine powder waste generated through the granular waste crushing step (S100). The moisture supply is carried out by spraying water while stirring, and at this time, it is preferable to have a moisture content of 16±4% by weight.

The compression molded body waste molding step (S300) generates a compression molded body waste having a predetermined size using a compression molding machine for the hydrous fine powder waste generated through the hydrous fine powder waste generation step (S200). At this time, the compression molded product waste is molded into a cylindrical shape having a diameter of 3 to 13 mm and a height of 3 to 20 mm.

The radioactive contamination level measurement and classification step (S400) of the compression molded product waste measures the radioactive contamination level of the compression molded product waste molded through the compression molding waste molding step (S300), and the compression molding waste is classified based on the measurement result. .

The self-disposal step (S500) disposes the compressed molded body waste that has been confirmed and classified as a self-disposal target waste through the measurement and classification step (S400) of radioactive contamination of the compressed molded body waste as general industrial waste.

The radioactive waste disposal step (S600) disposes the compressed molded body waste classified as radioactive waste as radioactive waste through the radioactive contamination level measurement and classification step (S400) of the compressed molded body waste.

Referring back to FIG. 2, the radioactive contamination level measurement and classification step (S400) includes a total radioactive contamination level measurement step (S410), a compression molded body waste classification step (S420), and a representative sample collection step of the compressed molded body waste subject to self-disposal ( S430) and a detailed analysis step (S440) of a representative sample of compressed molded body waste subject to self-disposal.

The total radioactive contamination level measurement step (S410) is to align and mount the compressed molded article waste on the tray, and then measure the total surface radiation rate of the aligned compressed molded article waste.

The compression molded body waste classification step (S420) classifies each compression molded body waste into a group less than the natural counting rate (BKG) and a group exceeding the natural counting rate (BKG) based on the measurement result through the radioactive contamination level measurement step (S410).

The representative sample collection step (S430) of the compression molded body waste subject to self-disposal is a representative sample of the compression molded body waste subject to self-disposal among the compression molded body waste classified as less than the natural counting ratio (BKG) in the compression molded body waste classification step (S420). harvest At this time, the representative sample collection method is to collect the representative sample by dividing the area formed by the compression molded waste to be disposed of on the tray by 4 or equally designating four or more points, and the amount of representative sample is 200 It is collected so as to be 1 kg per kg or 1 liter per 200 ℓ.

In the precise analysis step (S440) of the representative sample of the compression molded body waste subject to self-disposal, a detailed analysis is performed on the representative sample collected in the representative sample collection step (S430) of the compression molded body waste subject to self-disposal, and the precise analysis is collected Gamma nuclide analysis and total alpha/beta radioactivity analysis are performed on the representative sample.

In the self-disposal step (S500), only when the precision analysis result in the precision analysis step (S440) of the representative sample of the compressed molded article for self-disposal is less than the disposal limit, the waste for the compressed molded body subject to self-disposal is disposed of as general industrial waste. .

In the radioactive waste disposal step (S600), when the precision analysis result in the precise analysis step (S440) of the representative sample of the compressed molded article for self-disposal is more than the disposal limit, the waste for the compressed compact for self-disposal is disposed of as radioactive waste.

The self-disposal method for the waste in the form of granules that is less than the disposal limit temporarily stored in the nuclear power plant according to the present invention having the above configuration is the waste in the form of granules stored in the temporary storage in the nuclear power-related facility, such as a nuclear power plant, through a crushing and stirring process to a certain extent After processing into water-containing fine powder waste having a moisture content, and molding the water-containing fine powder waste into a cylindrical extruded product waste having a certain size using a compression molding machine, the molded compression molded product waste is arranged on the tray and mounted on the tray The radioactive contamination level of the compressed molded article waste is measured entirely, and the compressed molded article waste is classified as radioactive waste and general industrial waste based on the measurement result, and the compressed molded article waste classified as radioactive waste is placed in a packaging drum and disposed of as radioactive waste. , When a representative sample is evenly and accurately collected from among the compressed molded waste classified as general industrial waste, gamma nuclide analysis and total alpha/beta radioactivity analysis are performed on the collected representative sample, and the analysis result is less than the disposal limit The classification of compressed compact waste is finally determined as general industrial waste and self-disposal. If the analysis result is above the disposal limit, the compacted compact waste classification group is classified as radioactive waste and disposed of as radioactive waste. In addition to preventing the spread of radioactive contamination and safely protecting workers from radiation exposure, it can classify and dispose of them quickly and accurately. After classifying by car, the compressed molded waste classified as general industrial waste is divided into a plurality of groups in a manner such as area division while mounted on a tray, and each representative sample is collected from each group, and the precision of each representative sample is obtained. It is possible to reliably prevent radioactive waste from being self-disposing as general industrial waste by self-disposing only the compressed molded product waste of the group to which the sample belongs by conducting the analysis and disposing of it as general industrial waste. There is a point.

As described above, the present invention has been described with specific matters such as specific components and limited embodiments and drawings, but these are provided to help a more general understanding of the present invention, and the present invention is not limited to the above embodiments. , various modifications and variations are possible from these descriptions by those skilled in the art to which the present invention belongs.

Therefore, the spirit of the present invention should not be limited to the described embodiments, and not only the claims to be described later, but also all those with equivalent or equivalent modifications to the claims will be said to belong to the scope of the spirit of the present invention.

10: granular waste 20: fine powder waste
30: hydrated fine powder waste 40: compacted compact waste
50: tray 60: representative sample
S100: Fine powder waste generation step
S200: Hydrous fine powder waste generation step
S300: Compression molding waste molding step
S400: Measuring and classifying radioactive contamination level of compressed molded product waste
S410: radioactive contamination level measurement step
S420: Compression molding waste sorting step
S430: Representative sample collection step of compressed molded product waste subject to self-disposal
S440: Precise analysis step of a representative sample of compressed molded product waste subject to self-disposal
S500: Self-disposal stage
S600: Radioactive waste disposal stage

Claims (4)

A fine powder waste generation step (S100) of pulverizing the powdered waste to generate fine powder waste;
A water-containing fine powder waste generation step (S200) of generating water-containing fine powder waste by stirring while supplying moisture to the fine powder waste generated through the granular waste crushing step (S100);
A compression molded product waste molding step (S300) of generating a compression molded product waste having a predetermined size using a heat compression molding machine for the hydrous fine powder waste generated through the hydrous fine powder waste generation step (S200);
Measuring the radioactive contamination of the compression molded product waste molded through the compression molding waste molding step (S300), and measuring and classifying the radioactive contamination level of the compression molding waste to classify the compression molding waste based on the measurement result (S400);
A self-disposal step (S500) of disposing of the compressed molded body waste that has been confirmed and classified as a self-disposal target waste through the radioactive contamination level measurement and classification step (S400) of the compressed molded body waste;
Disposal limit value temporarily stored in a nuclear power plant, characterized in that it consists of a radioactive waste disposal step (S600) of disposing of the compressed molded body waste classified as radioactive waste as radioactive waste through the measurement and classification step (S400) of radioactive contamination of the compressed molded body waste A self-disposal method for waste in the form of granular waste.
According to claim 1,
The radioactive contamination level measurement and classification step (S400) is,
After arranging and mounting the compression molded article waste on the tray, a total radioactive contamination level measurement step (S410) of measuring the radioactive contamination level of the aligned compressed molded article waste;
Compressed molded article waste classification step of classifying each compressed molded article waste into a group less than the natural counting rate (BKG) and a group exceeding the natural counting rate (BKG) based on the measurement result through the radioactive contamination level measurement step (S410) (S420) and;
In the compression molded body waste classification step (S420), a representative sample collection step of the compressed molded body waste subject to self-disposal of collecting a representative sample of the compression molded body waste subject to self-disposal among the compression molded body waste classified as a group less than the natural counting rate (BKG) (S430) Wow;
It consists of a detailed analysis step (S440) of the representative sample of the compressed molded body waste subject to self-disposal, which performs a precise analysis on the representative sample collected in the representative sample collection step (S430) of the compressed molded body waste subject to self-disposal;
The self-disposal step (S500),
Only when the precision analysis result in the precision analysis step (S440) of the representative sample of the compressed molded body waste subject to self-disposal is less than the disposal limit value, the self-disposal target compression molded body waste is disposed of as general industrial waste;
The radioactive waste disposal step (S600),
When the precision analysis result in the precision analysis step (S440) of the representative sample of the compressed molded body waste subject to self-disposal is greater than the disposal limit, the disposal limit value temporarily stored in the nuclear power plant, characterized in that the waste of the compression molded body subject to self-disposal is disposed of as radioactive waste A self-disposal method for waste in the form of granular waste.
3. The method of claim 2,
The representative sample collection step (S430) of the compression molded product waste subject to self-disposal,
Collecting representative samples in a way that divides the area formed by the compression molded waste to be disposed of on the tray and evenly designates four or more points;
A self-disposal method for wastes in the form of granules that are less than the disposal limit temporarily stored in a nuclear power plant, characterized in that the sampling amount of representative samples is 1 kg per 200 kg or 1 ℓ per 200 ℓ.
According to claim 1,
The compression molded product waste is
A self-disposal method for wastes in the form of granules that are less than the disposal limit temporarily stored in a nuclear power plant, characterized in that they are formed in a cylindrical shape with a diameter of 3 to 13 mm and a height of 3 to 20 mm.

Images