JP2013160754A - Treatment method for waste containing radioactive substance and corrosion resistant tank used in treatment method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a treatment method for waste containing radioactive substances and a corrosion resistant tank applied to the treatment method which can easily and efficiently treat massive waste comprising incineration ash, sludge or soil containing radioactive substances at low cost.SOLUTION: The present invention is a treatment method for waste containing radioactive substance comprising the steps of: collecting radioactive wastes and storing them in flexible container packs; storing one or more of the flexible container packs in a corrosion resistant tank; transporting the corrosion resistant tank to a predetermined storage site; and storing two or more of the corrosion resistant tanks at the storage site together. The corrosion resistant tanks storing the flexible container packs are stored in a region surrounded on four sides by tanks that are empty tanks that are in the same shape as the corrosion resistant tanks which are filled with water, soil or concrete not containing radioactive substances. The inside of the corrosion resistant tanks is coated with a paint containing a shielding material or formed of synthetic resin or concrete containing the shielding material.

Description

  The present invention relates to a radioactive material-containing waste treatment method for isolating incineration ash, sludge, or soil contaminated with a radioactive material as waste, and a corrosion-resistant container used in the treatment method.

  Conventionally, radioactive waste is treated by a method of storing or preserving in a state where a solidified material such as cement or mortar is put into a waste container and solidified (see, for example, Patent Document 1). . In Patent Documents 2 and 3, in order to suppress corrosion and self-destructive action due to long-term storage of a container enclosing radioactive waste, the waste container is installed in a water-stopping container made of plastic resin, or a sealed container. A method of coating the reinforced concrete with reinforced concrete has been proposed.

  As described in Patent Document 4, a waste container containing radioactive waste has a different storage method and storage location depending on the radioactive level. For example, it is described that the medium and low level radioactive waste is covered with a waste container in a concrete sealed chamber and covered with bentonite mixed soil around the sealed chamber. Patent Document 5 discloses that a bentonite-based material is sprayed on radioactive waste placed in a mine shaft to provide a water-stopping layer, so that a large-scale device is not required and a narrow portion can be easily obtained. A method for creating a waste treatment facility capable of forming a water blocking layer is disclosed.

  As radioactive waste, not only the nuclear power generation related facilities as described above, but also incineration ash (after incineration) adhering to radioactive materials leaked or scattered in large quantities from the nuclear power generation facility for some reason. ), Sludge (including sewer sludge) or soil. For these radioactive wastes, methods such as reclamation by installing an isolation layer and covering the upper part of the isolation layer on the bottom surface have been proposed. Among them, the waste made of incinerated ash is the solidified material by the solidifying material, depending on the radiation dose, by landfill by installing an isolation layer, landfill by durable containers such as concrete, Or the method of processing by the landfill in a covered disposal site for preventing rainwater invasion is proposed.

  On the other hand, waste containers used for radiation waste treatment are mainly made of metal, concrete, or the like, but various other materials and shapes have been proposed. For example, Patent Document 6 discloses a cylindrical container made of synthetic resin for low cost and light weight. Patent Document 7 discloses a rectangular radioactive waste disposal container in which square-shaped shielding plates are assembled at the bottom, sides and top of a container body made of carbon steel plates. The containers described in Patent Documents 6 and 7 are devised in shape and structure so that they can be stacked.

JP 60-150879 A JP 2000-24611 A JP-A-8-47679 JP-A-9-288200 JP 2007-50381 A JP 11-319749 A JP 2003-344588 A

  Since wastes composed of incinerated ash, sludge, or soil containing radioactive substances are discharged in large quantities, the processing weight and processing volume are enormous. Therefore, it becomes difficult to secure a vast place for storing and preserving these radioactive wastes isolated from people's houses and farmland. In addition, in order to process a large amount of radioactive waste, a rapid and efficient process is required, and a significant cost reduction required for the process is required.

  The method described in Patent Document 1 requires a treatment step for solidifying radioactive waste. In the methods described in Patent Documents 2 and 3, it is necessary to use a special waste container in order to suppress corrosion and self-destructive action. These methods are unsuitable as a method for treating a large amount of radioactive waste because it increases the time and cost required for the treatment.

  In addition, the processing methods described in Patent Documents 4 and 5 above, or various conventionally proposed processing methods, have been proposed with a focus on the technical problem of complete isolation of radioactive waste. The technical problem of speeding up and reducing processing costs has hardly been recognized.

  On the other hand, the waste container described in Patent Document 6 is used for filling low-level nuclear waste by heating, compression, solidification, molding, and filling the waste. Become. Furthermore, it cannot be said that the structure has a sufficient shielding effect against radiation from radioactive waste, and improvement is necessary for use as a container for low to medium level nuclear waste. In addition, the container described in Patent Document 7 needs to be provided with a rectangular shielding plate inside, so that an increase in cost is unavoidable and a large volume container capable of storing a large amount of radioactive waste is produced. Is difficult. In the inventions described in Patent Documents 6 and 7, no consideration is given to the structure for improving the strength of the container, and it is determined whether a large-capacity container can be obtained at low cost. It is unknown. In addition, when two or more waste containers are stacked in order to reduce the area of storage and storage location, sufficient consideration is given to a structure that allows stacking operations to be performed easily and quickly. Not.

  The present invention has been made to solve such a problem, and after collecting a large amount of waste composed of incinerated ash, sludge or soil containing radioactive materials, it is transported to a place where it is isolated and stored there. Containing radioactive materials that can be easily and efficiently processed at low cost, using limited storage locations, while preventing leakage and scattering of radiation to the outside. It is an object of the present invention to provide a waste treatment method and a corrosion-resistant container used in the treatment method.

  The present inventor has comprehensively studied a collection process, a storage process in a waste container, a transport process, and a storage process for a method for treating a large amount of radioactive waste. As a result, the flexible container pack, the collection method using the corrosion-resistant container for storing the flexible container pack, and the storage using the same shape of the container as the corrosion-resistant container when placing radioactive waste in the storage place The present inventors have found that the problems can be solved by adopting the method and further optimizing the material and structure of the corrosion-resistant container.

That is, the configuration of the present invention is as follows.
(1) The present invention is a process of collecting waste containing incinerated ash, sludge or soil containing radioactive substances and storing it in a flexible container pack, storing one or more of the flexible container packs in a corrosion-resistant container, A method for treating radioactive material-containing waste, comprising the steps of transporting a corrosion-resistant container to a predetermined storage location, and storing two or more of the corrosion-resistant containers together in the storage location, the flexible container pack Corrosion-resistant containers containing the above-mentioned anti-corrosion containers in an area where at least the four sides of the storage area are surrounded by an empty container having the same shape as that of the above-mentioned corrosion-resistant container and filled with water, soil or concrete that does not contain radioactive substances. Provided is a method for treating radioactive material-containing waste which is stored.
(2) In the present invention, the inside of the corrosion-resistant container contains one or more selected from the group of elemental units of Pb, Ba, W, Cr, Co, Cu, Fe, Mn, Mo, and Sn, or a compound thereof. The method for treating a radioactive material-containing waste according to the above (1) is characterized in that it is coated with a resin paint or a concrete paint.
(3) In the wood invention, the corrosion-resistant container contains one or more selected from the group of element units of Pb, Ba, W, Cr, Co, Cu, Fe, Mn, Mo, Sn, or a compound thereof. The method for treating a radioactive material-containing waste according to the above (1), characterized in that it is formed of synthetic resin or concrete.
(4) The present invention measures the radiation dose of the flexible container pack after collecting the waste made of incinerated ash, sludge or soil containing the radioactive substance and storing it in the flexible container pack, (1) to (3), wherein the flexible container packs having a predetermined radiation allowance (8000 becquerel) are selectively distinguished, and only the selected flexible container packs are collectively stored in the corrosion-resistant container. (3) A radioactive material-containing waste disposal method according to any one of (1) is provided.
(5) In the present invention, after the step of storing one or more of the flexible container packs in a corrosion-resistant container, water, soil or concrete containing no radioactive substance is injected into the corrosion-resistant container from the inlet. Then, the method for treating a radioactive material-containing waste according to any one of the above (1) to (4), comprising a step of closing the input port.
(6) According to the present invention, the corrosion-resistant container containing the flexible container pack is an outer circumference of at least four sides of the storage place by a container in which an empty container having the same shape as the corrosion-resistant container is filled with water that does not contain a radioactive substance. The method for treating a radioactive material-containing waste according to any one of (1) to (5), wherein the waste material is stored in a region surrounded by
(7) According to the present invention, at least one of the above-mentioned containers installed on the outermost periphery is regularly selected from among the containers filled with water that does not contain the radioactive substance, which are installed on the outer periphery of at least four sides of the storage place. And continuously monitoring the scattering or leakage of radiation that may occur during the storage period by measuring the radiation dose of water contained in the container. A method for treating radioactive material-containing waste as described in 6) is provided.
(8) According to the present invention, in any one of the above (1) to (7), the waste containing the radioactive material is incinerated fly ash collected as the incinerated ash. A method for treating radioactive material-containing waste is provided.
(9) The present invention includes a step of collecting waste containing incinerated ash, sludge or soil containing radioactive material and storing it in a flexible container pack, a step of storing one or more of the flexible container packs in a corrosion-resistant container, The above-mentioned corrosion-resistant container used in the method for treating radioactive material-containing waste comprising the steps of transporting the corrosion-resistant container to a predetermined storage location and the step of storing two or more of the corrosion-resistant containers together in the storage location The corrosion resistant container is formed of synthetic resin, metal or concrete, and the inside is made of an element unit of Pb, Ba, W, Cr, Co, Cu, Fe, Mn, Mo, Sn, or a group of these compounds. Coated with resin paint or concrete paint containing one or more selected, or elements of Pb, Ba, W, Cr, Co, Cu, Fe, Mn, Mo, Sn Providing a corrosion-resistant container, characterized in that position or has been molded from a synthetic resin or concrete containing one or more compounds selected from the group of those compounds.
(10) According to the present invention, the corrosion-resistant container according to (9) includes a closing port for storing the flexible container pack in one of the peripheral surfaces, and legs that can be stacked and engaged with each other on the upper and lower surfaces. And a recess capable of receiving the leg, and a recess provided for improving strength or lifting the corrosion-resistant container on a peripheral surface and a lower surface where the inlet is not provided. Provide a container.
(11) In the present invention, the corrosion-resistant container is formed of a synthetic resin, metal or concrete, and the inside is an element unit of Pb, Ba, W, Cr, Co, Cu, Fe, Mn, Mo, Sn, or their The corrosion-resistant container as described in (10) above, which is coated with a resin paint or a concrete paint containing at least one selected from the group of compounds.

  According to the present invention, after using a flexible container pack that can easily store a large amount of waste consisting of incinerated ash, sludge, or soil containing radioactive substances, the flexible container pack is stored in a corrosion-resistant container having radiation shielding ability. By adopting the process of transporting to the storage location, it is possible to collect waste with high safety, simple and quick. Furthermore, when placing a corrosion-resistant container having radioactive waste in a storage place, a container having the same shape as the corrosion-resistant container and filled with water, soil or concrete that does not contain radioactive substances is placed around the storage place. By doing so, the radioactive waste is isolated and stored, so that the storage operation can be speeded up and made efficient. Furthermore, since the radioactive waste can be stacked and stored by stacking the corrosion-resistant containers when storing the radioactive waste, an effect that the storage space can be made narrower than before can be obtained. As a result, it is possible to sufficiently secure a place where a large amount of waste can be processed, and as a result, a highly safe method for processing radioactive material-containing waste can be constructed at a low cost.

  Further, the corrosion-resistant container according to the present invention is made of a material having radiation shielding ability, has sufficient strength as a large-capacity container, and has a container structure that can be easily transported and stacked. , High handling and durability. Therefore, the corrosion-resistant container according to the present invention is preferentially used in a method for treating radioactive material-containing waste with high safety and low cost as in the present invention.

It is a figure which shows the process of the processing method of the radioactive substance containing waste by this invention. It is a figure which shows the structure of the corrosion-resistant container by this invention. It is sectional drawing which looked at the corrosion-resistant container by this invention from the left side surface. It is a figure which shows the storage method of another form in the processing method of the radioactive substance containing waste by this invention.

  In the present invention, the radioactive material-containing waste is specifically a waste made of incinerated ash, sludge or soil containing a radioactive material. Incineration ash includes not only ash that remains when incineration of garbage and waste that has been discarded, but also incineration ash that is collected by collecting ash that is volatilized or scattered during incineration. Sludge includes not only sludge scattered in people's houses, roads, fields, forests, etc., but also sludge discharged from sewers. Moreover, soil exists in people's houses, roads, fields, forests, and the like, and is recovered by removing surface soil containing radioactive substances from soil to which radioactive substances have adhered or permeated.

  Next, an embodiment of the present invention will be described. In FIG. 1, the process of the radioactive substance decontamination method using the radioactive substance decontamination solution by this invention is shown.

  As shown in FIG. 1 (a), the incinerated ash, sludge or soil 1 containing the collected radioactive material is packed in a flexible container pack 3 from a stock hopper 2 and stored in various cleaning factories. . At that time, it is important to take measures between the outlet of the hopper 2 and the flexible container pack 3 to prevent the incineration ash, sludge or soil from being scattered and the worker from being exposed to radiation. In particular, when collecting and storing incinerated fly ash, scattering and leakage are likely to occur.

The flexible container pack has a capacity of, for example, 1 m ³ , but in order to actually store incinerated ash, sludge, or soil, it is about half of 400 to 500 kg. As shown in Fig. 1 (b), whether the radioactive material-containing waste stored in the flexible container pack has a radiation dose exceeding 8000 becquerels per kg, which is proposed as the landfill standard concentration in Japan, or less than that value Radiation measurement is performed for the determination. As shown in FIG. 1 (c), the high-activity level waste 5 having a radiation dose exceeding 8000 becquers is stored in two layers in a corrosion-resistant container made of high-density polyethylene (HDPE), for example. The corrosion-resistant container has a size of 1 m × 1 m × 1 mm, a thickness of 3 mm, and an internal volume of 1.0 m ³ . In the present invention, the number of flexible container packs stored in the corrosion-resistant container is not limited to two. One or three or more flexible container packs may be stored. Further, not only the flexible container pack 5 that stores waste having a radiation dose exceeding 8,000 becquerels, but also the flexible container pack that stores low-level radioactive wastes 6 having 8000 becquerels or less, if necessary, in the corrosion-resistant container 7. Can be stored.

  As the corrosion-resistant container 7, a coating material obtained by spraying a substance having radiation shielding ability inside the HDPE container, for example, a paint obtained by uniformly mixing 100 parts by weight of barium sulfate fine particles with 100 parts by weight of a resin paint using a spray device. Can be used. The coating thickness can be adjusted to an arbitrary range of 1 to 50 mm in the dried and solidified state, but here the coating layer was formed with a thickness of 3 mm. The container made of HDPE having the coating layer formed in this manner has a radiation dose of 70% higher than that of the HDPE container that is not coated when two flexible container packs containing waste having a radiation dose exceeding 8000 becquerel are stored. It turns out that it can be reduced. In the present invention, in addition to barium (Ba), at least one selected from the group of Pb, W, Cr, Co, Cu, Fe, Mn, Mo, Sn element units having radiation shielding ability or a compound thereof. It is possible to use those coated with a resin paint or a concrete paint containing In addition to barium sulfate, examples of the metal compound having radiation shielding ability include oxides of Pb, Ba, W, Cr, Co, Cu, Fe, Mn, Mo, Sn, and hydroxides of these metals.

  Further, the corrosion-resistant container 7 is selected from the above-mentioned Pb, Ba, W, Cr, Co, Cu, Fe, Mn, Mo, Sn element unit or a group of these compounds in addition to those coated inside. You may use the corrosion-resistant container shape | molded with resin or concrete containing 1 or more types. These corrosion resistant containers, for example, melt metal compounds such as barium oxide, lead oxide or tungsten oxide into thermoplastic resins such as polyethylene (PE), polypropylene (PP), polyphenylene sulfide (PPS), polybutylene terephthalate (PBT). After mixing, it is obtained by molding into a container shape by an injection molding machine. In addition, using a thermosetting resin such as an epoxy resin, a phenol resin, a urea resin, or an unsaturated polyester resin instead of the thermoplastic resin, the container is uniformly mixed with the metal compound at room temperature or under heating, It can also be molded by pouring into a shaped mold and thermosetting.

  In the present invention, the corrosion resistant container obtained by the former coating method is preferable in that not only the selection range of materials is widened, but also various shapes can be handled and the manufacturing cost can be reduced. The former coating method may be applied to a corrosion-resistant container formed of resin or concrete containing a metal having radiation shielding ability of the latter.

  After the flexible container pack is stored in the corrosion-resistant container, the cover on the flexible container pack inlet side is closed, and the joint part between the container storage side and the cover is applied with the eyes (attachment part 4). Prevent radiation leakage. In the present invention, after storing one or more of the flexible container packs in a corrosion-resistant container, water, soil, or concrete containing no radioactive substance is further injected into the corrosion-resistant container from an inlet, and then the charging is performed. You may perform the process of plugging and closing the mouth. As a result, the airtightness and strength of the corrosion resistant container are increased, and the effect of preventing radiation scattering and leakage from the radioactive waste to the surrounding area is ensured.

  In the present invention, as shown in FIG. 1 (c), after measuring the radiation dose of the flexible container pack, the flexible container pack is selectively distinguished according to the radiation dose and stored in the corrosion-resistant container. In addition, information relating to the measured radiation dose of the flexible container pack and / or comments relating to the influence of the radiation dose on the human body is provided on the outside of the corrosion-resistant container 7 and displayed on that portion. Also good. As a result, the radiation dose of the corrosion-resistant container containing the flexible container pack can be clearly grasped during the treatment process, which makes management and handling very easy.

  As shown in FIG. 1 (d), when transporting the corrosion-resistant container containing the above flexible container pack, a space is provided in the lower part of the corrosion-resistant container for the filling of the lift 9 for transportation, and the transport truck is loaded. Use a container with an easy structure. As the corrosion resistant container used here, as shown in FIG. 2, as shown in a specific structure, an inlet (not shown) for housing the flexible container pack on one of the peripheral surfaces, and the inlet is closed. The strength of the lid 14 for carrying out, the leg 15 that can be stacked and engaged with each other on the upper and lower surfaces, the recess 16 that can receive the legs, and the peripheral surface and the lower surface (bottom surface) where the insertion port is not provided It is preferable to use one having a recess 17 provided for the purpose of fishing or for fishing of the corrosion-resistant container. The structure shown in FIG. 2 not only can sufficiently retain strength when the capacity of the container is increased, but also greatly improves handling in the process of transporting the corrosion-resistant container and stacking the corrosion-resistant containers described later. It has the necessary functions.

  In the corrosion-resistant container 7 of the present invention, the surface of the lid 14 is preferably flat as shown in FIG. This is because, when a part of the lid has a protrusion, the protrusion becomes an interference when the flexible container pack is inserted or when the corrosion resistant container is stacked, and the flexible container pack is broken or the corrosion resistant container is unstable. This is to prevent this problem. Therefore, in the present invention, it is necessary to adopt a structure in which the lid 14 is not easily removed from the inlet of the corrosion resistant container 7. An example of the structure of the lid of the present invention is shown in FIG. 3 is a cross-sectional view of the corrosion-resistant container according to the present invention shown in FIG. 2 as viewed from the left side. FIG. 3 (a) shows a state immediately after the lid is joined to the main body of the corrosion-resistant container, and FIG. ) Is a diagram showing a state in which eyes are attached. As shown in FIG. 3 (a), the corrosion-resistant container of the present invention has a structure in which a coating layer 19 is formed inside and the lid 14 is jointed with the insertion port 18 in a snap manner. Thereafter, as shown in FIG. 3B, the eye-pasting portion 4 is subjected to the eye-pasting process. In the present invention, the main body and the lid of the corrosion-resistant container may be completely closed by a method such as welding or welding by heating or vibration instead of the stitching process. By adopting such a structure, it is possible to prevent the waste in the flexible container pack from leaking when the corrosion-resistant container 7 is transported or stored.

  As shown in FIG. 1E, the conveyance of the corrosion-resistant container 7 containing the flexible container pack is performed by, for example, a 10-ton truck 10. Here, since the corrosion-resistant container is made of the above-mentioned HDPE plastic, the truck 10 with 10 tons can be loaded with 8 to 10 pieces. On the other hand, when a concrete container is used as the corrosion-resistant container, loading of two pieces is the limit in terms of weight. When the corrosion resistant container is made of metal, the number of loaded containers can be increased as compared with the case of concrete. As described above, although the plastic or metal corrosion resistant container is excellent in cost effectiveness, a plastic corrosion resistant container that is particularly effective in reducing the weight is suitable. In the present invention, concrete may be used when importance is attached to reliably preventing radiation scattering and leakage during conveyance.

  The transport of the above-mentioned corrosion-resistant container is in the form of a flexible container pack containing radioactive waste sealed in a corrosion-resistant container. Safety is ensured compared to the method. In particular, it is an effective method in the treatment of incinerated fly ash, which has a high radiation concentration as radioactive waste and is easily scattered.

  The transported radioactive waste is either buried in an isolated final disposal site or temporarily placed if the concentration of radioactive material such as cesium exceeds 8000 becquerels per kg as described above. . In the case of temporary placement, as described above, a resin containing at least one selected from the group of Pb, W, Cr, Co, Cu, Fe, Mn, Mo, Sn element units or their compounds as a corrosion resistant container By using a material coated with a paint or a concrete paint, it is possible to reduce the radiation and to take measures to prevent the radiation from being scattered and leaked to the minimum. In this case, Pb, Ba, W, Cr, Co, Cu, Fe, Mn, Mo, Sn, or a corrosion-resistant container formed of resin or concrete containing one or more selected from the group of compounds is used. May be.

  As shown in FIG. 1 (f), when temporarily storing a sealed corrosion-resistant container containing radioactive waste, the corrosion-resistant container 7 is stacked in two or more stages, and the above-mentioned corrosion-resistant container and An empty container 11 having the same shape is laid with a container 11 filled with water, soil or concrete not containing a radioactive substance. In that case, the radiation shielding cover 12 and the prevention sheet 13 are disposed on the top and bottom of the corrosion-resistant containers to be laminated, respectively. After that, it is raised to ensure radiation shielding. In the present invention, instead of the radiation shielding cover and the prevention sheet, at least one of them may be provided with a corrosion resistant container filled with water, soil or concrete not containing the radioactive substance. Thus, the present invention has an advantage that continuous monitoring of radiation can be omitted because the radiation dose rate and groundwater contamination are different from the temporary placement of the flexible container pack, because radiation is shielded in a triple and triple manner. There is.

  FIG. 4 is a diagram showing another form of storage method in the method for treating radioactive material-containing waste according to the present invention. As shown in FIG. 4, by installing the heat resistant containers 7 up and down alternately, the stacked corrosion resistant containers can be fixed more firmly than the storage method shown in FIG.

  In the present invention, if the corrosion-resistant container disposed around the temporary storage is reduced in weight, the handling and workability can be greatly improved. Therefore, the corrosion-resistant container filled with water not containing a radioactive substance is disposed. Is preferred.

  In addition, from the container filled with water that does not contain the radioactive substance installed at least at the outer periphery of the storage place, periodically remove at least one of the containers installed at the outermost periphery, By measuring the radiation dose of water contained in the container, it is possible to continuously monitor the scattering or leakage of radiation that may occur during the storage period. The treatment method according to the present invention has an advantage that the monitoring of radiation can be usually omitted, but this method is continued when it is necessary to check the scattering and leakage of radiation by radioactive waste for safety confirmation. Monitoring.

  As described above, the radioactive material-containing waste processing method according to the present invention is free from air pollution, exposure to residents on the transport route, and health damage, and is safer than conventional transport methods. Furthermore, because it is excellent in workability and handling, it is possible to handle a large amount of radioactive waste easily and efficiently at low cost, and in addition, the space for isolation storage is narrower than conventional methods. can do. In addition, the corrosion-resistant container according to the present invention has a structure capable of ensuring not only the radiation shielding ability but also ensuring the strength and improving the handling property and workability at the time of transportation. It becomes a useful jig in the processing method.

DESCRIPTION OF SYMBOLS 1 ... Radioactive substance containing waste, 2 ... Hopper, 3 ... Flexible container pack, 4 ... Sticking part, 5 ... High radioactive level waste, 6 ... Low radioactive level Waste: 7 ... Corrosion-resistant container, 8 ... Display, 9 ... Packing of lift, 10 ... Truck, 11 ... Corrosion-resistant container filled with water, soil or concrete, 12 ... Radiation shielding cover, 13 ... tarpaulin, 14 ... lid, 15 ... engageable leg, 16 ... recess capable of receiving leg, 17 ... for strength improvement or A recess provided for fishing of a corrosion-resistant container, 18... Inlet, 19.

Claims (11)

Collecting incinerated ash, sludge or soil waste containing radioactive material and storing it in a flexible container pack;
Storing one or more of the flexible container packs in a corrosion-resistant container;
A method for treating radioactive material-containing waste, including a step of transporting the corrosion-resistant container to a predetermined storage location, and a step of storing two or more of the corrosion-resistant containers together in the storage location,
The corrosion-resistant container containing the flexible container pack is surrounded by an outer container having the same shape as the corrosion-resistant container and filled with water, soil or concrete that does not contain radioactive substances, at least on the outer periphery of the storage place. A method for treating radioactive material-containing waste, characterized by being stored in an area where   The corrosion resistant container is a resin paint or concrete paint containing at least one selected from the group consisting of elemental units of Pb, Ba, W, Cr, Co, Cu, Fe, Mn, Mo, Sn, or a compound thereof. The method for treating a radioactive material-containing waste according to claim 1, wherein the radioactive material-containing waste is coated.   The corrosion-resistant container is formed of a synthetic resin or concrete containing one or more selected from the group of elemental units of Pb, Ba, W, Cr, Co, Cu, Fe, Mn, Mo, and Sn, or a compound thereof. The method for treating radioactive material-containing waste according to claim 1, wherein:   After the step of collecting incinerated ash, sludge or soil waste containing radioactive material and storing it in a flexible container pack, the radiation dose of the flexible container pack is measured, and the radiation dose is a predetermined radiation tolerance ( 4. The radioactive container according to claim 1, wherein the flexible container packs exceeding 8,000 becquers are selectively distinguished, and only the selectively differentiated flexible container packs are preferentially stored in the corrosion-resistant container. Disposal method of waste containing substances.   After the step of storing one or more of the flexible container packs in a corrosion-resistant container, water, soil or concrete containing no radioactive substance is further injected into the corrosion-resistant container from the inlet, and then the inlet is The method for treating radioactive material-containing waste according to any one of claims 1 to 4, further comprising a blocking step.   The corrosion-resistant container containing the flexible container pack is stored in an area in which at least the outer circumference of the storage place is surrounded by a container filled with water containing no radioactive substance in an empty container having the same shape as the corrosion-resistant container. The radioactive substance containing waste processing method in any one of Claims 1-5 characterized by the above-mentioned.   At least one of the above-mentioned containers installed at the outermost periphery is periodically withdrawn from the container filled with water that does not contain the radioactive material, which is installed at the outer periphery of at least four sides of the storage place, and the container The radioactive substance-containing substance according to claim 6, wherein radiation or leakage of radiation that may occur during the storage period is continuously monitored by measuring the radiation dose of water contained in the container. Waste disposal method.   The radioactive material-containing waste processing method according to any one of claims 1 to 7, wherein the waste containing the radioactive material is incinerated fly ash collected as the incinerated ash. Collecting incinerated ash, sludge or soil waste containing radioactive material and storing it in a flexible container pack;
Storing one or more of the flexible container packs in a corrosion-resistant container;
The above-mentioned corrosion-resistant container used in a method for treating radioactive material-containing waste, comprising the steps of transporting the corrosion-resistant container to a predetermined storage location, and storing two or more of the corrosion-resistant containers together at the storage location Because
The corrosion resistant container is made of synthetic resin, metal or concrete, and the inside is selected from the group of elemental units of Pb, Ba, W, Cr, Co, Cu, Fe, Mn, Mo, Sn, or their compounds. Coated with resin paint or concrete paint containing more than one species, or one selected from the group of elemental units of Pb, Ba, W, Cr, Co, Cu, Fe, Mn, Mo, Sn or their compounds A corrosion-resistant container characterized by being formed of synthetic resin or concrete containing the above.   The corrosion-resistant container according to claim 9 receives (inserts) a closing port for storing the flexible container pack in one of the peripheral surfaces, legs that can be stacked and engaged with each other on the upper and lower surfaces, and the legs. And a recess provided on the peripheral surface and the lower surface (bottom surface) where the inlet is not provided for improving strength or lifting the corrosion-resistant container. .   The corrosion-resistant container is made of synthetic resin, metal or concrete, and the inside is selected from the group of elemental units of Pb, Ba, W, Cr, Co, Cu, Fe, Mn, Mo, Sn or their compounds The corrosion-resistant container according to claim 10, wherein the container is coated with a resin paint or a concrete paint containing at least a seed.

Images