RU104367U1 - UNIVERSAL LARGE-SCALE TRANSPORT CONTAINER FOR LOW-ACTIVE RADIOACTIVE WASTE - Google Patents

Abstract

 1. Universal large-tonnage transport container for low-level radioactive waste, having a shielding effect in relation to radioactive radiation, characterized in that the container is equipped with a door with seals around the perimeter, equipped with an outer coating to provide protection against atmospheric influences with the possibility of processing them with decontamination compositions, equipped with an internal coating, which is made of stainless steel sheet, and steel sheets of the floor of the coating are made with a flange for full of draining washing and decontamination of liquids and the lateral and longitudinal end cover sheets are provided with power components, mounted vertically, it is provided with fastening elements of the goods that are placed on the power components with equal pitch power adjustment element, and the loaded container is controlled to a transfer radiobezopasnost index. ! 2. The container according to claim 1, characterized in that the door is made end. ! 3. The container according to claim 2, characterized in that the end door is double-leaf with locking elements in the open and closed position. ! 4. The container according to claim 1, characterized in that the door is made in the form of a cover for the top loading. ! 5. The container according to claim 1, characterized in that the door is equipped with rubber seals. ! 6. The container according to claim 1, characterized in that the container is made with rectangular side and end walls. ! 7. The container according to claim 1, characterized in that the container is made in the form of a tank container of a cylindrical capacity with a top loading hatch. ! 8. The container according to claim 1, characterized in that the container is equipped with lower and upper corner fittings

Description

The utility model “Universal large-tonnage transport container for low-level radioactive waste (RAW)” is intended for the transportation of low-level metal waste, in particular, such as items of equipment, pipelines, and similar objects of nuclear energy, industry, and marine, by road, rail and sea. ships.

The purpose of the container is to transport materials with low specific activity of the LSA = II group (LSA-II) and objects with surface pollution of the OPRZ-II group (SCO-11) in accordance with the Safety Rules for the Transport of Radioactive Metals, IAEA ST-1, Vienna , 1996, with heavy RW.

The invention is known as "Heavy container", patent RU 2089481, publ. 09/10/1997, IPC B65D 88/12, containing a device for securing cargo in a transport position, a base with a floor, a door block, side and end walls and a roof. The invention allows to reduce the downtime of a container under loading and unloading operations and during customs inspections of cargo. However, it is not intended for the transportation of low-level radioactive waste and allows transporting only packaged goods.

The invention is known "Container for aggressive materials", patent RU 2095301, publ. 11/10/1997, IPC B65D 85/84, comprising a housing with a cover, the base of which is provided with gaskets and equipped with a protective sealing element. Allows you to ensure the integrity of the sealing element at any loading and unloading of the container with various forms and types of cargo and the ability to quickly replace failed container elements, designed to accommodate aggressive materials such as liquids, sandy, pasty and other garbage. However, it is not intended for transportation of radioactive waste and cannot ensure the stability and strength of the container during the transportation of large-capacity radioactive waste, such as items of equipment or pipelines, as uses elastic reinforced plastic film and allows transporting only bulk cargo.

The invention is known "Luggage container", patent RU 749035, publ. 09/20/1995, IPC B64D 9/00, comprising a housing with an aperture edged with vertical and horizontal beams and a locking device. The invention improves the usability of the container by locking the lid with one lock, and in it the direction of movement of the lid is carried out to increase the accuracy of its installation on the locking device. However, it can only be used in air transportation for the transportation of luggage.

The invention is known "Device for mounting an object on a vehicle", patent RU 2058237, publ. 04/20/1996, IPC ВРР 7/13, containing placed symmetrically relative to the longitudinal axis of the object, the locking elements and the linear elements covered by them, and the ends of the latter are fixed on the supporting surface. The invention allows to exclude the impact on the transported cargo of an unacceptable level of congestion in the direction of travel and in the opposite direction during accidents, as well as improving the reliability of fastening the transport object in the vertical and transverse directions, preventing tipping over (which is especially important when transporting explosive goods). However, the device is not intended for the transportation of large-capacity radioactive waste and does not facilitate the decontamination of the container after the transportation of waste, nor does it increase the protection of the internal cavity of the container from radiation dust due to the absence of the absorption capacity of the container lining material.

Closest to the proposed technical solution is the invention "System of transportation and storage and method of storage and transportation of radioactive waste", patent RU 2362224, publ. 01/27/2005, IPC G21F 5/14, in which the container for transportation has a shielding effect with respect to radioactive radiation. EFFECT: invention makes it possible to provide simplified and more economical storage, as well as simplified and more economical transportation, in particular, weakly and moderately active radioactive waste, as well as higher shielding effect in relation to radioactive radiation and mechanical stability than a storage container. However, this container provides these properties only with the simultaneous use of the storage container placed in it. But it does not provide directly in the container for transportation the facilitation of the decontamination of the container after waste transportation and the increase in the protection of the internal cavity of the container against radiation dust due to the absence of the absorbing ability of the container lining material, in addition, there is no protection against damage to the container walls during transportation of large-capacity radioactive waste, and stability is not ensured as the cargo itself in the container, and the container itself on the vehicle.

Currently, there is a need to use large containers for the transport of radioactive waste from the facilities where they are formed to specialized reprocessing plants. Moreover, the RW data can be oversized, with sharp corners, they can be heavy and pour into the container without strictly orienting them inside the container. This can lead to breakdown of the walls of the container by sharp angles, as well as to deformation of the container when the load is shifted due to force during the movement of the vehicle, which will lead to a weakening of the protection against environmental radionuclides. In addition, the inner lining of the container is difficult to handle with disinfectants that are aggressive after the transportation of waste, and also requires an internal coating that would not collect radiation dust generated from the friction of the cargo on the lining, as well as on the cargo as a result of or lining in the result of corrosion processes. A lack of absorption of the container liner material is required.

Also, in the process of obtaining energy from nuclear energy, a significant amount of radioactive waste occurs, which, along with burned-out fuel elements, also represent low-level and medium-active radioactive waste, such as a contaminated working environment. Often, liquid radioactive waste is poured in a cementing unit to a solid mass, which is loaded, for example, into barrels, which are also large-tonnage and require transportation in the proposed container.

The proposed technical solution ensures the expansion of the arsenal of technical means, providing:

- the strength of the container from external influences when loading waste and from violations of the casing (breakdowns) of the container when placing waste inside it

- the stability of the waste loaded into the container from the effects of static and dynamic loads arising during transportation

- the stability of the container, from the effects of static and dynamic loads arising during transportation, loading and unloading and storage

In addition, the technical result is provided:

- facilitating the decontamination of the container after the transport of waste,

- increasing the protection of the inner cavity of the container from radiation dust due to the lack of absorbing ability of the material of the casing of the container.

- In particular, the proposed container provides a level of surface contamination: non-removable (fixed) contamination with alpha - active radionuclides - minimum, and beta-active radionuclides - no more than 200 parts / (cm ² min) and removable (unfixed) contamination with alpha - active radionuclides - not more than 1 part / (cm ² min) and beta-active radionuclides - not more than 100 part / (cm ² min).

Due to the convenience of decontamination of the container and its repair, the operation of the container is cheaper.

This technical result is achieved due to the fact that the Universal large-tonnage transport container for low-level radioactive waste has a shielding effect in relation to radioactive radiation, this feature is common with the selected prototype. The proposed container differs from the prototype in that the container is equipped with a door with seals around the perimeter, which can be an end door, can be an end double-leaf door with fixation elements in the open and closed position, and the door can also be made in the form of a cover for the top loading. Around the door are seals, for example, rubber. Moreover, the shape of the container can be both with rectangular walls, and the container can also be made in the form of a tank tank, which has a cylindrical tank with an upper loading hatch. The container may be equipped with, for example, lower and upper corner fittings. The container is equipped with an external coating to provide weather protection with the possibility of processing them with deactivating compounds and is equipped with an internal coating that is made of stainless steel sheet, and steel sheets of the floor can be flanged to completely drain cleaning and deactivating liquids. Steel floor sheets, for example, are made in a thickness of 1 to 10 mm, and they may be provided with gaskets. Moreover, the gaskets can be placed between the floor and the outer skin of the container and act as shock absorbers, and gaskets can be placed on top of steel sheets of the floor with the possibility of their displacement. In this case, for example, steel floor sheets are designed for a load of not more than 1 kgf / cm ² . The lateral longitudinal and end sheets of the container cover are equipped with power elements mounted vertically and located under the flanging of the floor sheets or butt. They can be made of channels and / or brands and / or I-beams (standard profile). In addition, the power elements can be arranged in increments of 500 mm to 1000 mm and can be supported by the horizontal support beams of the container, respectively. For example, in different versions, the lateral longitudinal sheets of the inner coating are provided with gaskets that act as shock absorbers and protective elements of the side walls, the inner coating can be performed with a ceiling sheet and / or sheets placed on the container door. The container is equipped with load securing elements, which can be made as folding. The fastening elements are placed on the power elements with equal pitch along the height of the power element. Moreover, they can be placed on each power element or on the extreme power elements with the possibility of passing through the fastening elements of the load of rigging ropes and / or rigging tapes and / or wire strapping. The fastening element is made, for example, in the form of a bracket mounted on a loop welded to the power element, it can also be made removable and / or equipped with a lock. The inner coating can be made of one steel sheet or welded from steel sheets. In this case, the welds can be sealed. A loaded container is mandatory checked for radio security by transport index.

The proposed design using stainless steel for internal coating withstands well the aggressive environment of decontamination compounds that are used to decontaminate the container in accordance with the Sanitary Rules for Radioactive Waste Management (SPORO - 2002), the most applicable are alkaline solutions.

The container is checked according to the transport index, which is defined as the maximum level of gamma radiation in millisieverts per hour (sZa / h) at a distance of 1 m from the outer surface of the container, multiplied by 100 and with a cargo cross-sectional area of more than 5 m ² times 3. the container is also limited and controlled by permissible radiation levels, the permissible radiation level on the outer surface of the container should not exceed 2 mSv / h (200 mbar / h) at a distance of 1 m from the outer surface of the container - 0.033 mSv / h (3.3 mber / h) . Cargo securing is carried out in accordance with the Technical conditions of securing. It is possible to place four to six units of bulky equipment or non-separable bulky equipment of nuclear power plants in a container.

The utility model is illustrated by the following drawings.

Figure 1 - shows the appearance of the container

Figure 2 - shows a top view of the container with a cutout of the roof.

Figure 3 - shows the end of the container with a double door.

Figure 4 - shows a cross section of the power elements with fasteners

Figure 5 - shows the fastening elements in the form of cargo brackets.

The container is arranged as follows.

The outer coating (1), for example, made of corrugated metal sheets, forms the outer walls of the container. Figure 1 shows a rectangular container. Fittings are placed above and below the power angular racks of the container. (2). Inside the container there is an internal coating (3) made of stainless steel sheets. Stainless steel sheets form a continuous inner coating, which provides the convenience of decontamination of the container and drainage of the liquid when the container is tilted towards the doors (4). The applied decontamination compositions are selected in accordance with the Sanitary Rules for the Management of Radioactive Waste (SPORO - 2002), the most applicable are alkaline solutions. On the door there are locks (5), which act as fixing elements. In the open and closed position of the doors. Around the door around the perimeter is placed sealing rubber. (6 - conditionally not shown). The floor sheets of the inner cover (3) are flanged (7) for ease of discharge. The lateral longitudinal and end sheets of the coating are equipped with power elements (8), which are shown in the drawing in the form of channels. Power elements are arranged in increments from 500 mm to 1000 mm (see Figure 2). Power elements (8) are based on horizontal support beams (9), respectively, and located under the flanging (7) of floor sheets or butt. On the power elements (8), hinges (10) are welded, in which folding cargo brackets (11) are placed. When placing a large-capacity cargo, it is tightly attached to the brackets (11), for example, with wire. This ensures the sustainability of the waste. The presence of power elements increases the stability of the container and the absence of its deformation. The fact that stainless steel is applied provides an increase in the protection of the inner cavity of the container from radiation dust due to the absence of the absorbing ability of the container skin material. In addition, stainless steel does not absorb radioactive dust, it is easily washed off during decontamination. Moreover, due to the fact that it does not rust, no radioactive dust is formed during corrosion of the casing. The presence of smooth single joints or their absence in the inner coating allows you to easily and conveniently wash the container from the inside from toxic and radioactive residues from radioactive waste. The strength characteristics of the inner lining provide its impact strength. Since defects in the form of dents, cracks and deformation of the container often remain after transportation of large-tonnage loads, the inner lining in the form of steel sheets protects the container from damage, which significantly reduces the cost of its repair and maintenance. The container must be checked for the level of surface contamination: in this case, non-removable (fixed) contamination with alpha-active radionuclides is minimal, as well as beta-active radionuclides - no more than 200 ppm (cm ² min) and removable (non-fixed) contamination with alpha-active radionuclides - not more than 1 part / (cm ² min) and beta-active radionuclides - not more than 100 part / (cm ² min).

The examples and drawings given in the description illustrate embodiments of the container that do not cover all possible embodiments.

Taking into account the above examples, the implementation of this container for its intended purpose is shown, namely, the transportation of radioactive waste with low specific activity, environmental protection, which is ensured by mandatory monitoring and the possibility, without causing defects, of both the outer coating and the inner coating of the container, as well as without its deformation , carry out the transportation of large-capacity radioactive waste. At the same time, radioactive waste is reliably fixed due to cargo brackets, and the stability of the container is increased due to power elements.

Claims (27)

1. Universal large-tonnage transport container for low-level radioactive waste, having a shielding effect in relation to radioactive radiation, characterized in that the container is equipped with a door with seals around the perimeter, equipped with an outer coating to provide protection against atmospheric influences with the possibility of processing them with decontamination compositions, equipped with an internal coating, which is made of stainless steel sheet, and steel sheets of the floor of the coating are made with a flange for full of draining washing and decontamination of liquids and the lateral and longitudinal end cover sheets are provided with power components, mounted vertically, it is provided with fastening elements of the goods that are placed on the power components with equal pitch power adjustment element, and the loaded container is controlled to a transfer radiobezopasnost index. 2. The container according to claim 1, characterized in that the door is made end. 3. The container according to claim 2, characterized in that the end door is double-leaf with locking elements in the open and closed position. 4. The container according to claim 1, characterized in that the door is made in the form of a cover for the top load. 5. The container according to claim 1, characterized in that the door is equipped with rubber seals. 6. The container according to claim 1, characterized in that the container is made with rectangular side and end walls. 7. The container according to claim 1, characterized in that the container is made in the form of a tank container of a cylindrical capacity with a top loading hatch. 8. The container according to claim 1, characterized in that the container is equipped with lower and upper corner fittings. 9. The container according to claim 1, characterized in that the steel floor sheets are made from 1 to 10 mm thick. 10. The container according to claim 1, characterized in that the steel floor sheets are provided with gaskets. 11. The container of claim 10, characterized in that the gaskets are placed between the floor and the outer skin of the container and perform the function of shock absorbers. 12. The container of claim 10, characterized in that the gaskets are placed on top of steel sheets of the floor with the possibility of their displacement. 13. The container according to claim 1, characterized in that the steel floor sheets are designed for a load of not more than 1 kgf / cm ² . 14. The container according to claim 1, characterized in that the power elements are made of channels, and / or brands, and / or I-beams (standard profile). 15. The container according to 14, characterized in that the power elements are arranged in increments of 500 mm to 1000 mm. 16. The container according to claim 1, characterized in that the sludge elements are supported on horizontal support beams, respectively, and located under the flanging of the floor sheets or butt. 17. The container according to claim 1, characterized in that the lateral longitudinal sheets of the inner coating are provided with gaskets that act as shock absorbers and protective elements of the side walls. 18. The container according to claim 1, characterized in that the inner coating is made with a ceiling sheet and / or sheets placed on the door of the container. 19. The container according to claim 1, characterized in that the fastening elements of the cargo are made folding. 20. The container according to claim 1, characterized in that the load securing elements are placed on each power element. 21. The container according to claim 1, characterized in that the fastening elements of the cargo are placed on the extreme power elements with the possibility of threading through the fastening elements of the cargo of the ropes, and / or rigging tapes, and / or wire strapping. 22. The container according to claim 1, characterized in that the fastening element is made in the form of a bracket mounted on a loop welded to the power element. 23. The container according to claim 1, characterized in that the fastening elements are removable. 24. The container according to claim 1, characterized in that at least one fastening element is provided with a lock. 25. The container according to claim 1, characterized in that the inner coating is made of one steel sheet. 26. The container according to claim 1, characterized in that the inner coating is made welded from steel sheets. 27. The container according to p, characterized in that the welds are sealed.