RU13719U1 - RADIOACTIVE WASTE CONTAINER - Google Patents

Abstract

1. Reinforced concrete container for the disposal of solid radioactive waste, containing a box in the form of a parallelepiped, the upper part of which is made with a recess under the cover, a cover mounted with a gap relative to the housing, and mounting units located on the housing, characterized in that the housing is made with beveled angular faces, the thickness of which is 1.2-1.5 of the wall thickness of the housing, the inner side of the lid is provided with locking tabs, its angles are beveled and it is set below the outer surface of the housing with a gap ohms between the lid and the housing in the bevel area greater than the gap on the sides of the cover and the housing at least in half, and on the upper surface of the housing cover are made from the level of the inclined vyemki.2. Reinforced concrete container for radioactive waste according to claim 1, characterized in that in the recess of the housing in the area of angular bevels are placed additional dismantled rigging nodes. Reinforced concrete container for radioactive waste according to claim 1, characterized in that the inner side of the lid is equipped with a mounting unit. Reinforced concrete container for radioactive waste according to claim 1, characterized in that the side recesses are made on the outer side of the casing in the upper and / or lower part of the beveled faces. Reinforced concrete container according to claims 1, 4, characterized in that the mounting nodes are located in the side recesses of the upper part of the housing.

Description

RADIOACTIVE WASTE CONTAINER

The invention relates to the field of radioactive waste management, in particular to containers for storing, transporting and disposing of solid and solidified radioactive waste.

A reinforced concrete container for radioactive waste is known, containing a two-layer cylindrical body, the inner layer of which is made of concrete, and the outer one is made of reinforced cement with a degree of reinforcement over the cross-sectional area of 3 to 12%, a lid with an integrated nozzle and means for attaching the lid to the case, the thickness ratio the inner and outer layers are selected in the range from 1: 5 to 1:11. (Russian Patent No. 2064695, 6 G 21 F 5/00, 1996).

The cylindrical shape of the container body does not ensure its rational use for placing barrels of radioactive waste, as well as the rational use of storage facilities and storage, which is one of the disadvantages of the known container.

Moreover, the absence of organized support on the upper and lower surfaces of the container makes it difficult to use for multi-tier transportation and storage, since the transfer of forces from the containers placed above to the lid can lead to depressurization of the container.

6 G 21 F 5/00

Also known is a reinforced concrete container for storing solid radioactive waste, comprising a box in the form of a parallelepiped with rounded corners, the upper part of which is made with a recess under the lid and mounting units located on the housing. The walls of the lid and the side walls of the recess of the casing have wedge-shaped protrusions, between which a gap is made for filling with sealing material, and the thickness of the lid and walls of the casing is at least 200 mm (Russian Patent No. 2056653, 6 G 21 F 5/00). The disadvantages of the known container design include the technological complexity of manufacturing tooling for the manufacture of containers with phased angles, as well as the presence of mounting units protruding on the side surface of the container, which does not ensure their safety in the event of a fall during transportation to the place of filling or storage, making it difficult to subsequently use load gripping devices and compact installation of containers for the rational use of vehicles and storage space. The absence of mounting nodes on the container lid requires the use of special load-gripping devices when moving the lid, both at the manufacturer and at the site of loading of radioactive waste. In addition, when grasping the side surfaces of the chip, the gap should be significant, which will lead to a significant decrease in the wall thickness of the container at the site of the recess of the housing and a decrease in its strength characteristics.

Known structural design of the lid of the container body allows you to exclude disorganized bearing in the case of multi-tier storage, but does not exclude the support of the upper containers on the bottom cover. In this case, the possible ingress of water into the recess of the lid during the intermediate stages of transportation to the burial place and its freezing can lead to destruction of the lid, depressurization of the seams and a violation of the radiation-protective qualities of the container.

The aim of the invention is to increase the strength and operational characteristics of the container for radioactive waste.

This goal is achieved by the fact that in a reinforced concrete container for the disposal of solid radioactive waste containing a casing in the form of a parallelepiped, the upper part of which is made with a recess under the lid, a lid installed with a gap relative to the casing and mounting units, according to the proposal, the casing is made with beveled corner edges , the thickness of which is 1.2-1.5 of the wall thickness of the case, the inner side of the lid is provided with locking tabs, its angles are beveled and it is set below the level of the outer surface of the core whisker with a gap between the housing and the cover in the area of the bevel angle greater than the gap on the sides of the cover and the housing at least in half, and on the upper surface of the housing cover are made from the level of the inclined recesses. In this case, in the recess of the housing in the area of the chamfered fan, additional dismountable mounting units a, c can be placed

the outer side of the housing in the upper and / or lower part of the beveled edges can be made of the side recesses in which mounting devices can be placed. In addition, mounting units can also be placed on the inside of the lid.

Such a structural embodiment of the container body for the disposal of radioactive waste by increasing the wall thickness in the area of bevels of angular faces provides the possibility of placing additional reinforcement in this zone, which allows to increase the strength of the container in the corner zones most susceptible to destruction during transportation, storage and possible fall. Moreover, the implementation of the cover with position-fixing protrusions simplifies the accurate installation of the sealing cover in the recess of the body in compliance with the specified size of the gap between the body and the cover along the entire perimeter, and the increased clearance in the area of the bevels of the cover facilitates the use of load gripping devices for installing the cover in the body, which greatly simplifies this operation.

The installation of the lid below the level of the outer surface of the housing is due to the need to transfer the weight of the higher container directly to the housing, and not to the lid, in the case of multi-tiered transportation or storage of containers, which prevents damage to the lid and the sealing joint, increases the service life of the containers and ensures the preservation of radiation protective properties in operation process. Moreover, the presence of recesses on the upper surface of the housing, made with a slope from the level of the cover

guarantees the creation of organized moisture removal from the surface of the container lid, which also improves its operational characteristics.

The increased gap between the body and the cover in the area of the bevels of the lid, as well as the increased thickness of the beveled faces of the casing, allow additional mounting units, for example, loops protruding above the upper surface of the casing, to be dismantled after intermediate transport operations, to be placed on the ledge of the casing. The presence of such mounting units will allow the use of conventional lifting devices for moving the container both at the factory and during transportation to the place of loading of radioactive waste.

The increase in the thickness of the beveled corners of the casing also allows them to carry out lateral recesses in the upper and / or lower parts of the casing without violating the radiation protection of the casing, which greatly simplifies the transportation and movement of the container due to the possibility of using various types of loading and unloading devices — automatic load-gripping when making recesses in the upper case and, for example, fork - when making recesses in the lower part of the case. Moreover, the placement in the lateral recesses of the mounting units ensures their recessed position, which ensures their safety during transportation and accidental fall, and also allows you to place containers in

close storage of radioactive waste, that is, to maximize the use of their area.

Placing the mounting unit on the inside of the lid also makes it possible to simplify intermediate loading and unloading operations, as it allows the use of conventional lifting devices at the factory. Moreover, the lid can be installed in the container during transportation with the bottom plane up, and the internal placement of the mounting unit does not prevent the multi-tiered placement of the containers and does not require its dismantling.

In FIG. 1 shows the proposed container, a longitudinal section;

figure 2 is the same plan view;

Fig.3 is a section aa of Fig.2;

figure 4 - mounting node located in the upper lateral recess;

5 is a view of B-BFIG. 1.

The proposed container contains a reinforced concrete case 1 in the form of a parallelepiped with beveled angular edges 2, bottom 3, walls 4 and a cover 5 installed in the recess 6 of the housing 1 with a gap 7. The inner side of the lid 5 is provided with locking tabs 8. The lid 5 is installed below the outer surface of the housing 1. At the same time, inclined recesses 9 are made on the outer surface of the housing 1 from the surface of the cover 5. The thickness of the beveled outer faces 2 is 1.2-1.5 of the wall thickness 4 of the housing 1, and

the gap 7 between the cover 5 and the housing 1 in the area of the bevels is at least one and a half times greater than the gap 7 on the sides of the cover. In the recess 6 of the housing 1 in the area of the angular bevels, additional dismountable mounting units 10 can be placed. The inner side of the cover 5 can also be equipped with a mounting unit 11. On the outside of the housing 1, side recesses 12 can be made in the upper part of the beveled edges 2 and in the lower parts - recesses 13. In the side recesses 12 can be placed mounting nodes 14.

In the manufacture of the body 1 of the container for radioactive waste, the reinforcement of the structure is performed by several layers of welded reinforcing meshes, which can be combined into a spatial reinforcing frame. In the area of the angled beveled faces 2, additional reinforcement is performed, designed to absorb shock loads in the event of a fall. The wall thickness 4 of the housing 1, the bottom 3 and the cover 5 is selected from the conditions of compliance with radiation protection for class A containers and is at least 150 mm. Moreover, the thickness of the beveled corner fan 2 can be 200-250 mm. For the manufacture of the container body, concrete of the brand 600-1000 can be used.

All movements of the manufactured container body 1 and cover 5 at the factory and during transportation to the place of loading with radioactive waste can be performed using additional mounting units 10, or recesses 12 and mounting units located in them 14, and when using forklifts with

fork grips - side recesses 13, made in the lower zone of the container. To move the cover 5, you can use the mounting unit 11, placed on its inner side. In this case, the cover 5 is installed upside down - node 11 up. After the housing 1 is delivered to the RW loading station, the cover 5 is removed, additional mounting units 10 are dismantled, for example, they are cut off and filled with housing 1 with radioactive waste. Then the cover 5 is installed in the design position and monolithic gaps 7 and 7, for example, concrete on a non-shrink binder. Moreover, the gap 7, which is 40-50 mm, does not complicate the use of load gripping devices for installing the cover 5. Further movement of the container is performed using the side recesses 13 or 12, or the mounting units 14 located therein.

Claims (5)

1. Reinforced concrete container for the disposal of solid radioactive waste, containing a box in the form of a parallelepiped, the upper part of which is made with a recess under the cover, a cover mounted with a gap relative to the housing, and mounting units located on the housing, characterized in that the housing is made with beveled angular faces, the thickness of which is 1.2-1.5 of the wall thickness of the housing, the inner side of the lid is provided with locking tabs, its angles are beveled and it is set below the outer surface of the housing with a gap ohms between the lid and the housing in the bevel area greater than the gap on the sides of the cover and the housing at least in half, and on the upper surface of the housing cover are made from the level of the inclined recesses.  2. Reinforced concrete container for radioactive waste according to claim 1, characterized in that in the recess of the housing in the area of angular bevels are placed additional dismantled rigging units.  3. Reinforced concrete container for radioactive waste according to claims 1, characterized in that the inner side of the lid is equipped with a mounting unit.  4. Reinforced concrete container for radioactive waste according to claim 1, characterized in that on the outer side of the housing in the upper and / or lower parts of the beveled faces made side recesses. 5. Reinforced concrete container according to claims 1, 4, characterized in that the mounting nodes are located in the side recesses of the upper part of the housing.