JP5965237B2 - Transport / storage containers - Google Patents

Description

  The present invention relates to a transport / storage container in which a radioactive contaminant containing a radioactive substance is filled in a container body.

  2. Description of the Related Art Conventionally, as described in Patent Document 1 below, a two-layered container constituted by a lead outer container and a glass inner container is known. In this container, radioactive contaminants are accommodated in the inner container, the opening of the inner container is sealed with a lid, and mortar or the like is further filled on the lid. In this way, by using an outer container made of lead and having a sealed structure, the outside of the container and the radioactive pollutant are cut off to prevent leakage of radioactivity.

  Moreover, as described in Patent Document 2 below, a container including an inner container and a shield provided so as to cover the outer periphery of the side part of the inner container is known. The inner container is made of plastic and the shield is made of concrete. In this container, radioactive contamination is contained in the inner container, and radiation is shielded by attaching a lid. In addition, a shield is provided on the upper surface of the lid.

JP-A-8-036094 Utility Model Registration No. 3174865

  In recent years, with the decontamination of areas contaminated with radioactive substances, radioactive pollutants that are soil or waste contaminated with radioactive substances have been generated. In areas where decontamination takes place, radioactive pollutants are removed. The removed material is filled in a container and is first transported to a “temporary storage location”. After that, they are transported to “temporary storage (about 3 years)” and finally to “intermediate storage facilities (about 30 years)”.

  However, in the conventional container described above, since the lead outer container or the concrete shield is used to shield radiation, the weight of the entire container increases with respect to the amount of radioactive contaminants to be stored. End up. Therefore, even if radioactive contaminants can be stored, they are not suitable for transporting containers. Therefore, a transport / storage container suitable for both transport and storage of radioactive pollutants is required.

  An object of the present invention is to provide a transport / storage container suitable for both transport and storage of radioactive contaminants.

The transport / storage container of the present invention is a transport / storage container in which radioactive contaminants containing radioactive substances are filled in the container body, and is disposed in the container body so as to be separated from the side surface of the container body. A partition portion, an inner filling portion surrounded by the partition portion and filled with a high-concentration pollutant having a predetermined radioactive contamination level, and formed between the partition portion and the side portion. An outer filling portion that is filled with a low-concentration contaminant having a low radioactive contamination level, and positioning means that secures a predetermined filling thickness in the outer filling portion by positioning the partition portion within the container body. The container body is a flexible container that has a predetermined flexibility and strength and can be self-supported and can be lifted by filling with radioactive contaminants .

According to this transport / storage container, the inner filling portion is formed which is surrounded by the partition portion arranged in the container body and filled with the high-concentration contaminant. Further, an outer filling portion filled with the low-concentration contaminant is formed between the partition portion and the side surface portion of the container body, that is, around the inner filling portion. The partition portion disposed so as to be separated from the side surface portion of the container body is positioned by the positioning means, and a predetermined filling thickness in the outer filling portion is ensured. This filling thickness corresponds to the separation distance between the partition portion and the side surface portion of the container body. In this way, by ensuring a predetermined filling thickness in the outer filling portion, even when the inner filling portion is filled with the high concentration contaminant, the radiation from the high concentration contaminant is filled in the outer filling portion. Shielded by low-concentration contaminants. Therefore, even if the worker works near the side surface of the transport / storage container, the exposure of the worker is suppressed. In this way, radioactive pollutants are classified into high-concentration pollutants and low-concentration pollutants, and by surrounding high-concentration pollutants with a predetermined filling thickness with other low-concentration pollutants, other shielding members (concrete or This makes it possible to perform appropriate and safe filling work and storage without using lead or the like. Furthermore, the container body is only filled with a relatively low density substance such as soil, vegetation, or sludge, and has a high density shielding member (such as concrete or lead, which is heavier than the volume). The shielding member is not filled. Therefore, the transport / storage container of the present invention is also suitable for transport. Therefore, a transport / storage container suitable for both transport and storage is realized. A flexible container used as a container body can be easily stored because it can stand on its own, and can be transported because it can be lifted. Furthermore, since the flexible container itself is light, the weight during transportation can be minimized, transportation of radioactive contaminants can be further facilitated, and transportation efficiency can be improved.

The transport / storage container of the present invention is a transport / storage container in which radioactive contaminants containing radioactive substances are filled in the container body, and is disposed in the container body so as to be separated from the side surface of the container body. A partition portion, an inner filling portion surrounded by the partition portion and filled with a high-concentration pollutant having a predetermined radioactive contamination level, and formed between the partition portion and the side portion. An outer filling portion that is filled with a low-concentration contaminant having a low radioactive contamination level, and positioning means that secures a predetermined filling thickness in the outer filling portion by positioning the partition portion within the container body. The partition part is a bag body having an opening part for introducing a high-concentration pollutant and a closing part for closing the opening part.

  Further, in the transport / storage container, the high-concentration pollutant filled in the inner filling portion is coagulation sedimentation sludge generated with the coagulation sedimentation treatment of water containing a radioactive substance. The aggregated sediment sludge generated with the aggregated sedimentation treatment of the water containing the radioactive substance contains the radioactive substance in a concentrated manner. Therefore, the radioactive contamination level of the coagulated sediment sludge is particularly high as compared with other radioactive contaminants. By filling the inner packed part with coagulated sediment sludge and filling the outer packed part with low-concentration pollutants, radiation from the coagulated sediment sludge can be reliably shielded, and decontamination work and subsequent transportation can be done safely and efficiently. Can proceed.

  In the transport / storage container, the partition portion is a cylindrical portion standing in the container main body, and the positioning means is a plate-shaped portion that is joined to the cylindrical portion and extends toward the side surface portion. . According to this configuration, the inner filling portion in the tubular portion is filled with the high concentration contaminant, the tubular portion is positioned by the plate-like portion, and the filling thickness of the outer filling portion is ensured. Therefore, a transport / storage container suitable for both transport and storage is realized with a simple configuration.

  In the transport / storage container, the partition part is a bag body having an opening part for introducing a high-concentration contaminant and a closing part for closing the opening part. In this case, a high-concentration contaminant is introduced from the opening of the bag body, and the opening is closed by the closing part. Furthermore, if the bag is positioned so as to be positioned at the center of the container body, radiation from high-concentration contaminants is reliably shielded.

  According to the present invention, a transportation / storage container suitable for both transportation and storage is realized.

(A) is a figure which shows notionally one Embodiment which concerns on the transport / storage container of this invention, (b) is a figure which shows notionally other embodiment. (A)-(c) is a figure which shows the procedure which fills the transportation and storage container of Fig.1 (a) with a radioactive contaminant. (A) And (b) is a figure which shows the procedure following FIG. (A)-(c) is a figure which shows the procedure following FIG. It is a perspective view of the partition part and positioning part which are used for the transport and storage container of Fig.1 (a). It is a frequency distribution of the surface dose rate of radioactive pollutants discharged with decontamination. (A)-(d) is a figure which shows the procedure which fills the transportation and storage container of FIG.1 (b) with a radioactive contaminant.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the description of the drawings, the same elements are denoted by the same reference numerals, and redundant descriptions are omitted.

As shown in FIG. 1 (a), the transport / storage container 1 is filled with a radioactive pollutant containing a radioactive substance to store the radioactive pollutant. The radioactive pollutant filled in the transport / storage container 1 is a removed matter such as soil generated by decontamination in an area where environmental pollution is caused by the radioactive substance. In other words, radioactive pollutants are discharged along with the purification treatment of stripped topsoil, bottom mud removed from lakes, pruned branches, weeded grass, fallen leaves, incineration ash, and radioactive material-containing water. Such as sludge. The radioactive substance, for example, include radioactive cesium ⁽¹³⁷ Cs) is.

  The transport / storage container 1 is suitable not only for storing radioactive pollutants but also for transporting in a state filled with radioactive pollutants. The transport / storage container 1 filled with the radioactive pollutant is transported from the decontamination site to a temporary storage site for the radioactive pollutant. Further, the transport / storage container 1 is stored in a temporary storage place, then transported to a temporary storage place, and finally transported to an intermediate storage facility.

  The transport / storage container 1 includes a container main body 2 filled with radioactive contaminants, and a cylindrical partition portion 3 disposed in the container main body 2 so as to be separated from the side surface portion 2 a of the container main body 2. Inside the partition part 3 is formed an inner filling part 4 filled with a high-concentration pollutant having a predetermined radioactive contamination level. Between the partition part 3 and the side part 2a, the outer filling part 5 filled with a low-concentration pollutant having a radioactive contamination level lower than that of the high-concentration pollutant is formed.

  The partition part 3 is positioned in the container body 2. By positioning the container main body 2, a predetermined filling thickness d in the outer filling portion 5, that is, a horizontal distance between the partition portion 3 and the side surface portion 2a is secured. The value of the filling thickness d is appropriately set depending on, for example, the contamination level of the high-concentration contaminants filled in the inner filling portion 4 or the volume of the inner filling portion 4.

As described above, the types of radioactive pollutants vary, and the level of radioactive contamination varies depending on the type and location of discharge. The radioactive contamination level is the degree of contamination determined by the value of the surface dose rate (μSv / h), for example. In addition to the surface dose rate, the radioactive contamination level may be determined by a value such as surface contamination density (cmp, Bq / m ² ) or radioactive concentration (Bq / kg). A method of sorting the high-concentration contaminants filling the inner filling portion 4 and the low-concentration contaminants filling the outer filling portion 5 will be described later.

  A method for filling the transport / storage container 1 with radioactive pollutants will be described. In the following description, the case where the transport / storage container 1A is used as the transport / storage container 1 will be described as an example. As shown in FIGS. 2 to 4, specifically, a cross-type flexible container 6 is used as the container body 2 of the transport / storage container 1 </ b> A. The flexible container 6 is a bag called a large sandbag, a flexible container bag, or a flexible container for short. The flexible container 6 is made of polyethylene, for example. The flexible container 6 has predetermined flexibility and strength, and can be self-supported and can be lifted by filling with radioactive contaminants. The term “self-supporting” as used herein means that the shape can be maintained. Moreover, lifting is possible means that it can be suspended. The flexible container 6 may have water permeability or may be impermeable.

  First, as shown in FIG. 2A, a flexible container 6 in a folded state is prepared. Next, as shown in FIG. 2B, the flexible container 6 is expanded. Next, as shown in FIG. 2C, the high-concentration contaminant container 20 is put into the flexible container 6 through the opening 6 b at the top of the flexible container 6.

  As shown in FIG. 5, the high-concentration contaminant container 20 is, for example, a polyethylene container. The high-concentration contaminant container 20 includes a cylindrical tubular portion 21 standing in the flexible container 6 and a disk-shaped bottom plate portion (plate-shaped portion) 22 joined to the lower end of the tubular portion 21 by welding. It consists of. The bottom plate portion 22 is placed on the bottom portion 6 c of the flexible container 6, and the cylindrical portion 21 stands up inside the flexible container 6. The height of the cylindrical part 21 is lower than the height of the flexible container 6 when the inside is filled with radioactive contaminants.

  The cylindrical portion 21 of the high-concentration contaminant container 20 is disposed away from the side surface portion 6 a of the flexible container 6. This corresponds to the partition 3 of the transport / storage container 1A. In addition, the bottom plate portion 22 of the high-concentration contaminant container 20 extends in the horizontal direction from the lower end of the cylindrical portion 21 toward the side surface portion 6a. In the high-concentration contaminant container 20, the cylindrical portion 21 and the bottom plate portion 22 are disposed concentrically. The bottom plate portion 22 corresponds to positioning means for positioning the cylindrical portion 21 in the flexible container 6.

  In the high-concentration contaminant container 20, a columnar inner filling portion 4 filled with the high-concentration contaminant H is formed. A cylindrical outer filling portion 5 filled with a low concentration contaminant is formed around the high concentration contaminant container 20, that is, between the high concentration contaminant container 20 and the side surface portion 6a. The cylindrical part 21 stands upright, and a predetermined separation distance d is formed between the cylindrical part 21 and the side surface part 6a.

  Next, as shown in FIG. 3A, a cap 23 is attached to the upper end of the cylindrical portion 21 of the high concentration contaminant container 20. The cap 23 is for preventing low-concentration contaminants from entering the space in the cylindrical portion 21, that is, the inner filling portion 4. Next, as shown in FIG. 3B, the outer filling portion 5 is filled with a low-concentration contaminant L. The height at which the low concentration contaminant L is filled is lower than the upper end of the cylindrical portion 21.

  Next, as shown in FIG. 4A, the cap 23 is once removed, and the high concentration contaminant H is filled into the cylindrical portion 21, that is, the inner filling portion 4. Then, the cap 23 is attached to the container body 21. Further, the low concentration contaminant L is filled to the extent that the cap 23 is filled. Next, as shown in FIG. 4B, the opening 6b is closed by the closing portion 6e. And as shown in FIG.4 (c), hooks, such as a crane, are hooked on the loop part 6f, and the flexible container 6 is lifted.

  A method for sorting the high-concentration pollutant H and the low-concentration pollutant L when the flexible container 6 is filled with radioactive pollutants will be described. As shown in FIG. 6, there are radioactive contaminants with high and low radioactive contamination levels. Such a distribution of radioactive contamination levels may be obtained from past results of decontamination work, or may be grasped by sampling from an actual decontamination target area.

  Here, a predetermined threshold is set according to the distribution of the radioactive contamination level, a substance having a radioactive contamination level higher than the threshold is set as a high concentration contaminant H, and a substance having a radioactive contamination level lower than the threshold is set to a low concentration. It can be the pollutant L. For example, in the case of the example shown in FIG. 6, a substance having a radioactive contamination level with a surface dose rate higher than 10 μSv / h is defined as a high-concentration contaminant H, and a substance having a radioactive contamination level with a surface dose rate lower than 10 μSv / h is used. Low concentration contaminant L can be obtained. In addition, a radioactive contamination level substance having a surface dose rate higher than 20 μSv / h is designated as a high concentration contaminant H, and a radioactive contamination level substance having a surface dose rate lower than 20 μSv / h is designated as a low concentration contaminant L. it can. Although not shown, a surface dose rate of 15 μSv / h may be used as a threshold value.

  In addition, when the concentrations are different in two pollutants (for example, contaminated soil), the higher radioactive contamination level may be the high concentration contaminant H, and the lower radioactive contamination level may be the low concentration contaminant L. That is, the higher radioactive contamination level may be the high-concentration pollutant H, and the lower radioactive contamination level may be the low-concentration contaminant L. In addition, in the case of the frequency distribution as shown in FIG. 6, a contaminant that deviates to the right of the first mountain as seen from the lowest radioactive contamination level can be treated as a high concentration contaminant H.

  In the example shown in FIG. 6, there is a first peak having a peak near 10 μSv / h, and a contaminant having a surface dose rate of 100 μSv / h or more is deviated from the first peak. In this case, a contaminant having a surface dose rate of 100 μSv / h or more may be treated as a high concentration contaminant H.

  Moreover, it is good also considering the value which added 3 times of standard deviation (sigma) with respect to the average value of a surface dose rate as a threshold value.

  Examples of the material that is preferably filled in the inner filling portion 4 of the transport / storage container 1A as the high-concentration pollutant H include, for example, agglomerated sedimentation sludge generated with agglomeration and sedimentation of water containing a radioactive material. It is done. The water containing a radioactive substance is, for example, washing water used for decontamination. The agglomerated sedimentation sludge filled in the inner filling part 4 may be a sedimentation sludge discharged immediately after sedimentation separation, or agglomerated sludge concentrated by a concentrator or the like. Further, it may be agglomerated sludge dehydrated by a dehydrator or the like.

  Examples of substances that are preferably filled in the outer filling portion 5 of the transport / storage container 1A as the low-concentration contaminant L include soil and earth and sand. For example, soil has a shielding ability, for example, it is said that it has a shielding rate of 98% at a thickness of 30 cm, a shielding rate of 86% at 15 cm, a shielding rate of 74% at 10 cm, and a shielding rate of 51% at 5 cm. ing. Thus, the soil is suitable as the low concentration pollutant L filled in the outer filling portion 5.

  According to the transport / storage container 1 </ b> A and the filling method for the transport / storage container 1 </ b> A described above, the inner filling that is surrounded by the cylindrical portion 21 disposed in the flexible container 6 and filled with the high-concentration contaminant H is provided. Part 4 is formed. Further, the outer filling portion 5 filled with the low-concentration contaminant L is formed between the cylindrical portion 21 and the side surface portion 6a of the flexible container 6, that is, around the inner filling portion 4. The cylindrical portion 21 disposed so as to be separated from the side surface portion 6a of the flexible container 6 is positioned by the bottom plate portion 22, and a predetermined filling thickness d in the outer filling portion 5 is ensured. The filling thickness d corresponds to the separation distance d between the tubular portion 21 and the side surface portion 6a of the flexible container 6. As described above, the predetermined filling thickness d in the outer filling portion 5 is ensured, so that even if the inner filling portion 4 is filled with the high-concentration contaminant H, the radiation from the high-concentration contaminant H is filled outside. It is shielded by the low-concentration contaminant L filled in the part 5. Therefore, even if the worker works near the side surface of the transport / storage container 1A, the exposure of the worker is suppressed. In this way, radioactive pollutants are classified into high-concentration pollutants H and low-concentration pollutants L, and the high-concentration pollutants H are surrounded by a predetermined filling thickness d by the low-concentration pollutants L. An appropriate and safe filling operation and storage can be performed without using other shielding members such as lead. Furthermore, the flexible container 6 is only filled with a relatively low density material such as soil, vegetation, or sludge, and has a high density shielding member (such as concrete or lead). Large shielding members) are not filled. Therefore, the transport / storage container 1A is also suitable for transport. Therefore, the transport / storage container 1A suitable for both transport and storage is realized.

  Since the flexible container is not originally developed for transporting radioactive materials, it does not have a shielding function. In other words, since decontamination work is performed on soil containing radioactive cesium, workers may be exposed to external exposure not only during decontamination but also during transportation and storage after collection of decontaminated products. there were. Therefore, conventionally, in order to reduce the external exposure of the worker, there has been only means for reducing the work time of the worker. In recent years, a “radiation shielding sheet” has been developed, and it is said that a flexible container having a shielding function can be produced by using such a sheet. However, the actual shielding effect is 1 mm thick and the shielding rate is about 3%. Yes, it can be said that there is not much value to apply when considering the cost and weight of the seat.

  On the other hand, in the transport / storage container 1A, the outer filling portion 5 in the flexible container 6 is filled with a low concentration removed material, the inner filling portion 4 is filled with a high concentration removed material, and the outer filling portion 5 is filled. By securing the thickness d, the radiation exposure level can be sufficiently reduced without using a special shielding sheet or shielding member. Radioactive contaminants are typically transported from a decontamination site to a temporary storage location, from the temporary storage location to a temporary storage location, and from the temporary storage location to an intermediate storage facility. According to the transport / storage container 1A, the air dose rate on the surface of the transport / storage container 1A can be reduced, which can contribute to the reduction of the external exposure amount of all workers involved in the decontamination work. In the transport / storage container 1A, the cylindrical portion 21, that is, the inner filling portion 4 extends to the vicinity of the upper and lower ends of the flexible container 6 (see FIG. 4B). Since the worker approaches in the vicinity of the side surface portion 6a of the flexible container 6, the worker is not exposed.

  In addition, according to the transport / storage container 1A, the flexible container 6 used as the container body can be easily stored because it can stand on its own, and can be transported because it can be lifted. Furthermore, since the flexible container 6 itself is lightweight, the weight during transportation can be minimized, transportation of radioactive contaminants can be further facilitated, and transportation efficiency can be improved. That is, handling is improved in any of the filling operation, the installation operation, and the transportation operation. In addition, since a general-purpose product is used, the cost can be greatly reduced.

  In addition, the radioactive material is concentrated and contained in the coagulated sediment sludge generated with the coagulation sedimentation treatment of the water containing the radioactive material. Therefore, the radioactive contamination level of the coagulated sediment sludge is particularly high as compared with other radioactive contaminants. By filling the inner filling part 4 with coagulated sediment sludge as high-concentration pollutant H and filling the outer filling part 5 with low-concentration pollutant L, radiation from the coagulated sediment sludge can be reliably shielded, and decontamination work And the subsequent transportation can proceed safely and efficiently.

  Further, the inner filling portion 4 in the tubular portion 21 is filled with the high-concentration contaminant H, the tubular portion 21 is positioned by the bottom plate portion 22, and the filling thickness d of the outer filling portion 5 is ensured. Therefore, a transport / storage container suitable for both transport and storage is realized with a simple configuration.

  Further, since the soil is disposed in the outer filling portion 5 of the transport / storage container 1A, the soil filled in the inner filling portion 4 when a load is applied during storage or the storage container is deformed during transportation. It is possible to prevent the flexible container 6 from being damaged by a sharp dismantling material other than the above.

  Even if the flexible container 6 is water permeable, the radioactive cesium adsorbed in the soil or the like is not easily eluted, so that the radioactive substance does not leak out and the safety is maintained.

  Next, another embodiment will be described. As shown in FIG. 1B, a transport / storage container 10 using a partition 13 that is provided only at the center of the container body 2 and does not extend to the upper and lower ends can be provided. In this case, an upper filling height d1 is secured above the partition portion 13, and a lower filling height d2 is secured below the partition portion 13. The inner filling portion 14 in the partition portion 13 is surrounded by the outer filling portion 15 in the upper, lower, left and right directions.

  As shown in FIGS. 7A to 7D, in the transport / storage container 10A as a specific example of the transport / storage container 10, the flexible container 6 is used as the partition portion 13 as in the transport / storage container 1A. The bag 30 is used. The material of the bag 30 is the same as that of the flexible container 6. The bag body 30 has an opening 30a for introducing the high-concentration contaminant H and a closing portion 30b for closing the opening 30a.

  When the radioactive container is filled in the transport / storage container 10A, the bottom of the flexible container 6 is first filled with the low-concentration contaminant L, and then the low-concentration contaminant L placed in the bag 30 is placed on the low-concentration contaminant L. Finally, again, the low-concentration contaminant L is filled into the side and upper side of the bag 30 again. The height at which the low-concentration contaminant L is initially filled is set according to the required lower filling height d2. In the transport / storage container 10A, the low-concentration contaminant L itself surrounding the bag body 30 corresponds to the positioning means.

  According to the transport / storage container 10A and the filling method into the transport / storage container 10A, the same effects as those of the transport / storage container 1A are achieved. Furthermore, safety is ensured even when a worker approaches the top and bottom of the flexible container 6.

  As mentioned above, although embodiment of this invention was described, this invention is not limited to the said embodiment. For example, the cylindrical portion 21 of the high-concentration contaminant container 20 is not limited to a cylindrical shape, and may be a rectangular tube shape. The bottom plate portion 22 is not limited to a disc shape, and may be a rectangular plate shape.

  The form of the partition portion is not limited to the cylindrical portion 21 or the bag body 30 of the high concentration contaminant container 20. It may be a partition portion that is fixed in advance in the flexible container 6 (container body 2) or that can be attached later. Moreover, the high concentration pollutant H with which the inner filling part 4 is filled is not limited to coagulated sediment sludge. The low-concentration pollutant L filled in the outer filling portion 5 is not limited to soil or earth and sand. The low-concentration contaminant L may be a dismantled product other than soil.

    DESCRIPTION OF SYMBOLS 1,1A ... Transport / storage container, 2 ... Container main body, 2a ... Side surface part, 3 ... Partition part, 4 ... Inner filling part, 5 ... Outer filling part, 6 ... Flexible container (container main body), 6a ... Side part, DESCRIPTION OF SYMBOLS 10,10A ... Transport / storage container, 13 ... Partition part, 14 ... Inner filling part, 15 ... Outer filling part, 21 ... Cylindrical part (partition part), 22 ... Bottom plate part (plate-like part), 30 ... Bag (Partition part), 30a ... opening, 30b ... closing part, H ... high concentration contaminant, L ... low concentration contaminant.

Claims (5)

A transport / storage container filled with radioactive contaminants containing radioactive substances in the container body,
A partition portion disposed in the container body so as to be separated from a side surface portion of the container body;
An inner filling portion surrounded by the partition portion and filled with a high-concentration pollutant having a predetermined radioactive contamination level;
An outer filling part formed between the partition part and the side part and filled with a low-concentration contaminant having a lower radioactive contamination level than the high-concentration contaminant;
Positioning means for ensuring a predetermined filling thickness in the outer filling portion by positioning the partition portion in the container body ,
The transport / storage container , wherein the container body is a flexible container having a predetermined flexibility and strength and capable of being self-supporting and being able to lift by being filled with the radioactive pollutant . A transport / storage container filled with radioactive contaminants containing radioactive substances in the container body,
A partition portion disposed in the container body so as to be separated from a side surface portion of the container body;
An inner filling portion surrounded by the partition portion and filled with a high-concentration pollutant having a predetermined radioactive contamination level;
An outer filling part formed between the partition part and the side part and filled with a low-concentration contaminant having a lower radioactive contamination level than the high-concentration contaminant;
Positioning means for ensuring a predetermined filling thickness in the outer filling portion by positioning the partition portion in the container body,
The transport / storage container, wherein the partition part is a bag body having an opening part for introducing the high-concentration contaminant and a closing part for closing the opening part.   3. The transportation / sediment according to claim 1 or 2, wherein the high-concentration pollutant filled in the inner filling part is agglomerated sedimentation sludge generated with agglomeration and sedimentation of water containing the radioactive substance. Storage container. The partition part is a cylindrical part erected in the container body,
The transport / storage container according to claim 1 or 3 , wherein the positioning means is a plate-like part that is joined to the cylindrical part and extends toward the side part. The transport / storage container according to claim 1 or 3 , wherein the partition part is a bag body having an opening part for introducing the high-concentration pollutant and a closing part for closing the opening part.

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