JP3043086B2 - Radioactive waste treatment and disposal system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system for treating and disposing of radioactive waste generated from nuclear facilities such as nuclear power plants, and more particularly to a radioactivity level generated in large quantities due to decommissioning of nuclear power plants and the like. The present invention relates to a radioactive waste treatment and disposal system which is capable of safely and efficiently disposing of extremely low level radioactive waste.

[0002]

2. Description of the Related Art The life of a nuclear facility is generally 30 to 40.
It is said that the nuclear facilities that have reached their end of life are demolished and removed after being sealed and closed for a predetermined period. Along with the decommissioning of nuclear facilities, a large amount of radioactive waste is generated in a relatively short period of time, and furthermore, the generated radioactive waste is generated in the form, dimensions and radiation of heat exchangers, tanks, pipes, valves, etc. It has the feature that the performance levels are extremely diverse.

[0003] For these wastes, the radioactivity level is measured and discriminated according to the material, shape, etc., and then packed in containers.
Further, studies have been made to perform a process such as solidification by filling with grout material or the like and bury the material in a shut-off (pit) type disposal site. However, storing these radioactive wastes,
In the case of storage or burial disposal, there is a problem that an extremely large-scale storage facility or burial disposal facility is required.

On the other hand, radioactive waste similar to that described above is also generated from maintenance and improvement of nuclear facilities during operation, and similar problems occur in the treatment and disposal of these wastes.

[0005] Therefore, radioactive waste, which is generated by the decommissioning of nuclear facilities and the maintenance / improvement of nuclear facilities during operation, has a large amount and is characterized by a wide variety of materials and shapes. Extremely low-level radioactive waste, which accounts for the majority of the generated amount, can be treated safely and more efficiently, as in the case of solid-contained containers and buried disposal. The development of things was strongly desired.

[0006]

With regard to radioactive waste associated with the decommissioning of nuclear facilities and the maintenance and improvement of nuclear facilities in operation, measurement of radioactivity levels, discrimination,
The work related to treatment, transportation and burial disposal is under individual consideration, and a series of work related to discrimination, treatment, transportation and disposal based on the radioactivity level, material, shape, etc. of the generated radioactive waste However, although safety and efficiency were taken into consideration, systematization was not studied.

The present invention has been made in view of the above circumstances, and its purpose is to generate a large amount in a short period of time due to decommissioning of nuclear facilities, maintenance and improvement of nuclear facilities during operation, and the like. In addition, among radioactive wastes having characteristics such as various materials and shapes, especially radioactive wastes with extremely low radioactivity levels, which occupy most of the generated amount, have a reasonable configuration. It is an object of the present invention to provide a product capable of safely and efficiently treating and disposing of waste by combining discrimination, treatment, and disposal processes.

[0008]

To achieve the above object, a radioactive waste treatment and disposal system according to the present invention comprises:
A sorting process to select extremely low-level radioactive waste from radioactive waste generated from nuclear facilities, and a very low-level radioactive waste
A discriminating process of discriminating between metal and concrete, and further discriminating between metal waste with and without hollow, and concrete waste into block-shaped and other materials; For low-level radioactive waste, cut, reduce or fill hollow metal waste to eliminate hollows, block concrete waste to surface fixation, and others. For concrete waste in the form of crushing, the crushing process is performed separately, and the extremely low-level radioactive waste after the treatment is stored in a dedicated container for transport and transported to a prescribed burial site, where it is transported. And a disposal process of taking out from a dedicated container and burying it.

[0009]

[0010]

In the disposal step, the extremely low-level radioactive waste that has been transported is taken out of a transport container in a mobile type scatter-prevention burial facility that keeps the waste burial site at a negative pressure. In this case, the mobile scatter-prevention buried facility has a configuration in which a buried work place is shut off from the outside.
An exhaust system for maintaining the inside of the facility at a negative pressure, a filter installed upstream of the exhaust system, and a mechanism for moving the facility may be provided.

[0012]

According to the present invention constructed as described above, radioactive wastes generated in a large amount in a short period of time due to the decommissioning of nuclear facilities and the maintenance and improvement of nuclear facilities during operation, etc. Very low levels of radioactive waste are sorted out. This very low level radioactive waste is
According to the material and shape, for example, for metal and concrete, metal waste is further distinguished into hollow waste and other waste, and concrete waste is classified into block-shaped waste and other waste.

The discriminated ultra-low-level radioactive waste is treated according to its material and shape. For example, with respect to metal waste having a hollow, harmful voids such as depressing the covering soil after the embedding process are obtained. Cutting to eliminate,
Processing such as volume reduction and filling, concrete waste, etc., for block-shaped materials, such as surface coating to prevent the scattering of contamination, and non-block concrete waste of non-uniform size Therefore, processing such as crushing for making the shape uniform is performed.

[0014] The discarded material after this process is stored in a container exclusively for transportation without being solidified into a container. Extremely low-level radioactive waste stored in a dedicated container for transport is removed from the transport container as necessary at a buried work site in a mobile scatter-prevention buried facility that is maintained at a negative pressure in the buried work site. Buried in a state where it is isolated from the outside,
Thus, the radioactive waste can be safely and efficiently buried without being scattered outside.

[0015]

An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is an overall flowchart of a radioactive waste treatment and disposal system according to an embodiment of the present invention.

That is, in FIG. 1, radioactive waste 1 generated due to decommissioning of a nuclear facility or maintenance / improvement of a nuclear facility in operation is subjected to non-destructive measurement (for example, a Ge semiconductor detector) in a sorting step 2. And NaI scintillation detector), the radioactive concentration is measured, and the radioactive waste 3 is extremely low according to the radioactive level of the radioactive waste.
And other radioactive waste 4. For radioactive waste 4 other than extremely low level radioactive waste 3,
According to the radioactivity level, it is stored in a container for disposal, processed such as solidification, and buried.

On the other hand, the extremely low-level radioactive waste 3 is first discriminated into a metal waste 6 and a concrete waste 7 in a discrimination step 5, and further, a hollow metal waste (for example, piping or the like). ) 8 and solid waste 9 (for example, plate material). Further, the concrete waste 7 is discriminated into a block-shaped waste 10 and other debris concrete 11 and the like. The extremely low-level radioactive wastes thus discriminated are subjected to an appropriate treatment in the treatment step 12 in accordance with the material and shape of each waste.

First, the hollow metal waste 8 is cut (for example, a cylindrical waste having a hollow portion therein, such as a heat exchanger, a pipe, a tank, etc., is cut in half or a strip). Wastes such as thin-walled piping, etc.)
Processing 13 such as crushing the hollow portion by a high compression press or filling (for example, for a waste such as a valve, pouring a fluid or the like having high fluidity into the hollow portion and closing the hollow portion) is performed, and the disposal 13 is performed. Harmful voids that would sink later soil cover are eliminated. No special treatment is required for the metal waste 9 such as a plate material having no hollow, but when the shape or the like is large, a treatment such as a cutting treatment 14 is performed as necessary to be shredded.

On the other hand, the block-like concrete waste 1
For No. 0, the concrete surface has a scattering prevention treatment 1 to prevent radioactive waste from scattering during transportation and burial disposal.
5 (for example, an epoxy resin is applied to a concrete surface to fix the surface). Since the size of the waste 11 such as debris concrete other than the block-shaped concrete waste 10 is not uniform, the size of the crushed pieces is adjusted by crushing treatment 16 or the like (for example, crushing using a crusher). (For example, it is crushed to a size of about 20 cm).

Each of the treated wastes is accommodated in a dedicated container for transportation without being solidified in the container in the accommodation step 17 in the transportation container in the processing step 12, and is buried through the transportation step 18. Transported to disposal site.

The extremely low-level radioactive waste transported to this landfill disposal site may be buried in the landfill disposal process 19 because powder or the like containing radioactive substances may be scattered into the atmosphere when buried. It is taken out of the transport container 21 and disposed of in a movable type underground equipment 25 with scattering prevention (see FIGS. 2 and 3) in which the work place is maintained at a negative pressure. This makes it possible to safely and efficiently bury and dispose of powders and the like containing radioactive substances without scattering to the outside of the burying work place.

Next, FIGS. 2 and 3 show a more detailed configuration example of the movable type buried facility 25 with scattering prevention.

The transport vehicle 20 loaded with the extremely low level radioactive waste 22 in the transport container 21 is moved from the vehicle exit 24 of the mobile buried facility 25 with shatterproof to the burial work site 23.
to go into. The buried work place 23 is isolated from the outside by a mobile buried facility 25 with scattering prevention. Further, an exhaust device 26 is attached to the movable scattering prevention buried facility 25, and the pressure of the buried work place 23 (inside the buried facility) is always maintained at a negative pressure as compared with the outside. This can prevent powder or the like containing a radioactive substance from scattering to the outside when burying the extremely low-level radioactive waste 22.

Further, a filter 27 for capturing powders and the like containing radioactive substances is mounted on an upstream portion of the exhaust device 26, and the powders and the like containing radioactive substances scattered at the time of burial disposal are filtered by this filter. 27 to be captured. Therefore, powder or the like containing a radioactive substance scattered at the time of burial disposal is not released to the outside, and it is possible to completely capture the powder in the buried facility 25 with scattering prevention.

A moving wheel 28 is attached to the lower part of the buried facility 25 with shatterproof. After the earth covering work 30 is completed by buried disposal, the buried facility 25 is moved to the next new buried work place. Can be easily moved in the direction of arrow 29.

As described above, according to this embodiment,
It is possible to safely and efficiently dispose of extremely low level radioactive waste generated from nuclear facilities with extremely low radioactivity.

Next, the specific effects of this embodiment will be described below.

For example, with the decommissioning of a 1.1 million KWe class light water reactor type nuclear power plant, approximately 20,000 tons
Assume that 10,000 tons of radioactive waste is generated (this value is 10 ⁴ Bq / t, the classification value of radioactive waste and non-radioactive waste).
This is a trial calculation value. For these radioactive wastes, for example, when the upper limit of the concentration of the extremely low level radioactive waste is set to 10 ⁹ Bq / t, about 98
Very low levels of radioactive waste will account for more than one percent.

Therefore, by employing the treatment and disposal system of the present invention, it is possible to safely and efficiently treat extremely low-level radioactive waste, which accounts for most of the radioactive waste generated by decommissioning, without storing it in a container. It is possible to dispose of it.

Further, the processing and disposal system of the present invention
By applying this method to extremely low-level radioactive waste generated from the decommissioning of a 10,000 KWe-class light water reactor-type nuclear power plant, the size of the landfill site can be reduced compared to the method of solidifying the waste in a container and burying it. It is possible to make it smaller.
That is, the method of storing extremely low-level radioactive waste in a disposal container and burying it is as described above, in which the waste is stored in a disposal container (for example, a 200-liter drum) and solidified and buried. The burial efficiency is high in terms of the efficiency of waste storage in the building (for example, the filling rate is about 20% for metal waste and about 50% for concrete waste) and the container burying efficiency relative to the capacity of the landfill site. descend. Therefore, the method of storing extremely low-level radioactive waste in a container and disposing of it by burial greatly increases the capacity of the disposal container and the disposal site compared with the present disposal treatment system in which the disposal is performed without using the container.

Further, according to the present invention, compared to a method of solidifying waste in a container and disposing the waste, operations such as filling and solidification of the container can be eliminated, thereby simplifying the operation relating to the treatment and disposal. It is possible to do.

In the above embodiment, the block-shaped concrete is treated for preventing scattering of contamination, etc., and is disposed of by burying the concrete. It can also be implemented.

[0034]

As described above, according to the present invention, a large amount of materials and radioactive forms are generated in accordance with the decommissioning of nuclear facilities and the maintenance and improvement of nuclear facilities during operation. Extremely low levels of radioactive waste can be safely and rationally disposed of. In addition, the size of the disposal site for disposing of radioactive waste can be significantly reduced, the amount of work involved in the treatment and disposal can be significantly reduced, and the disposal costs can be significantly reduced. Has the effect.

[Brief description of the drawings]

FIG. 1 is a flowchart showing an embodiment of the present invention.

FIG. 2 is a schematic sectional view of a mobile buried facility with shatterproofing.

FIG. 3 is an overall perspective view of the same.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Radioactive waste 2 Sorting process 5 Discrimination process 12 Processing process 17 Transport container storage process 18 Transport process 19 Buried disposal process 20 Transport vehicle 24 Vehicle entrance / exit 25 Buried facility with scattering prevention 26 Exhaust device 27 Filter

────────────────────────────────────────────────── ─── Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI G21F 9/34 G21F 9/34 EZ (72) Inventor Hiroaki Kato 8 Shinsugita-cho, Isogo-ku, Yokohama-shi, Kanagawa Prefecture Toshiba Corporation Inside Yokohama Works (72) Inventor Takao Hatakeyama 2-5-1 Marunouchi, Chiyoda-ku, Tokyo Inside Mitsubishi Heavy Industries, Ltd. (72) Inventor Masato Ohura 3-1-1 Sachicho, Hitachi City, Hitachi, Ibaraki, Ltd. Hitachi, Ltd. Hitachi Plant (56) References JP, A 64-84199 (JP, A) Tsutomu Fukumoto, “Industrial / Urban / Radioactive Waste Disposal Technology” (January 5, 1977, Revised Edition No. 1st issue) Pages 260-261 (58) Fields investigated (Int. Cl. ⁷ , DB name) G21F 9/30 G21F 9/28 G21F 9/34

Claims (3)

(57) [Claims] Claims: 1. A sorting step of sorting extremely low level radioactive waste from radioactive waste generated from a nuclear facility, the method comprising: converting the selected extremely low level radioactive waste to a metal; A discrimination process in which concrete is discriminated, and metal waste is discriminated into hollow and non-hollow ones, and concrete waste is discriminated into block-shaped and non-concrete wastes. For the radioactive waste of the above, processing to eliminate the hollow by cutting, reducing or filling the hollow metal waste, surface fixing treatment for the block-shaped concrete waste, and other shapes Of concrete waste in the crushing process, and storing the extremely low-level radioactive waste in a dedicated container for transportation. Transported to the constant of the buried treatment plants, disposal system of radioactive waste, characterized in that it and a disposal burying disposal taken out from the container transport only in the treatment plants. 2. In the disposing step, extremely low-level radioactive waste transported is transported from a transport container into a mobile scatter-prevention buried facility in which a waste burial work place is maintained at a negative pressure. Characterized by taking out and burying,
The radioactive waste treatment and disposal system according to claim 1. 3. The mobile buried facility with shatterproofing, wherein the buried work site is configured to shut off a buried work place from the outside.
3. The radioactive waste treatment and disposal system according to claim 2, further comprising a filter installed on an upstream side of the exhaust device and a mechanism for moving the equipment.