RU47564U1 - SOLID RADIOACTIVE WASTE STORAGE DEVICE - Google Patents

Abstract

Usage: relates to the technology of operation of nuclear power plants and can be used for storage of solid radioactive waste. The inventive device for storing solid radioactive waste contains a caisson with containers placed in it, made in a rectangular section and installed adjacent faces parallel to one another and the walls of the caisson, while the ratio of the height of the container to its width is selected within 0.98 ... 1.02.

Description

The proposal relates to the operation technology of nuclear power plants with any type of reactor facilities and can be used in the construction of solid radioactive waste storage facilities (XTRO).

When operating nuclear power plants, especially with RBMK-1000 reactors, a large amount of solid radioactive waste (SRW) of various activity groups is generated, which must be disposed of at specially created disposal sites and solid radioactive waste storage facilities (RWDF). So, for example, during the overhaul of RBMK - 1000 reactor plants with mass replacement of technological channels (TK), 1693 TK are subject to burial. At the same time, separately buried graphite rings belong to low-level waste and are Group I waste, while zirconium parts of fuel cells with induced activity are classified as Group III waste. In addition, the clips of the upper tract, primary converters of the heat carrier flow meters, contaminated tools not subject to decontamination to sanitary standards, etc. are buried. All disposed waste occupies a volume of several thousand cubic meters and issues of compact disposal are important and relevant.

The storage of solid radioactive waste (SRW) is a major construction, the hollow caissons are located behind the concrete walls. Each caisson has a top loading hatch, served by a lifting mechanism. By the same mechanism, the caisson is loaded with containers filled with radioactive waste. The containers in the caissons are arranged in rows and tiers.

A device for storing SRW containing containers placed in the caisson is known [1]. In the known device, the containers are cylindrical in shape with a ratio of height to diameter of about 1.45 and wall thickness to diameter of 0.005 ... 0.007. Containers are located in the caisson in rows and high-rise tiers.

A disadvantage of the known device is the cylindrical shape of the container. When installing cylindrical containers in rows close to each other between the containers voids are formed (figure 1). Consider an element from an in-line installation of 3 ^x containers. If we denote the radius of the cylindrical container R, then figure 1 shows the width and length of the package will be 6R. The canyon volume is V = (6R · 6R) · Н = 36 · R ² · Н, where Н is the height of the longline installation of containers.

At the same time, the volume occupied by the 9 ^th cylindrical containers:

9 · π · R ² · H = 28.27 · R ² · H.

Unused, parasitic volume of the canyon will be:

As calculations showed, 21.5% of the occupied volume of the caisson remains unused. This is also the case with the tiered arrangement of containers. In addition, the air voids formed around the containers are not biosecurity in relation to each container and the radiation load on the external walls of the XTRO facility remains high due to shot radiation through the volume voids.

The purpose of this technical solution is to create a device for storing SRW in which 100% of the useful volume of the storage box is used and the effect of radiation from the container with radioactive waste (RW) on the walls of the SRW is reduced.

This goal is achieved due to the fact that in the device for storing solid radioactive waste containing containers placed in the caisson, the latter in cross section are made in a rectangular shape with the ratio

heights to widths of 0.98 ... 1.02 and are installed by adjacent faces parallel to one another and to the walls of the caisson.

The essence of the proposed technical solution is illustrated from the consideration of the drawings, which are presented on:

figure 1 - the placement of cylindrical containers in the caisson.

figure 2 - placement of containers of rectangular shape.

figure 3 - design of the container.

The SRW storage device is a caisson 2 formed by reinforced concrete walls 1, filled with containers 3 with SRW. The container in the cross section is made rectangular, in particular square, and has a height to width ratio which is optimal and ensures vertical stability of the container when they are tiered one on top of the other. The ratio of the wall thickness to the width of the container was left unchanged, as in the prototype, namely which provides lateral rigidity of the container structure. When placing containers in the caisson, the latter are installed with adjacent faces parallel to one another and parallel to the walls of the caisson. Thus, parasitic voids in the caisson are not formed and its volume is used 100%. At the same time, respectively, the shooting radiation through the voids of the volume is excluded and each peripheral container is biosecurity in relation to the neighboring one located inside the caisson. The design of the container is not complicated and is a box 4, closed by a lid 5. On the lid along the vertical axis of the container, a fungus 6 is made for the electromagnetic capture of a load-lifting vehicle (not shown in the drawing), and a socket “B” recessed into the cavity of the box 4 is made "to place the fungus below the container when placing containers in tiers.

The filled SRW container 3 is closed with a lid, brewed with the last one by electric welding, grab the container by the fungus 6 by an electrically controlled gripper of a lifting vehicle and moved to

storage box. Containers in the caisson are installed closely adjacent edges parallel to one another and the walls of the caisson. When installing containers in tiers, the fungus below the container is located in the nest "B" above. Thus, the placement of containers occurs without the formation of spurious voids and uses 100% of the caisson volume.

Sources of information taken into account when preparing the application:

- Working draft of KhTRO ^1st group No. 41. R-192.RP-P32 Atomenergo-project 2000

- Specifications No. 1.2000.00.00.000 TU Bochka Atomenergoproekt 2000

Claims (1)

A device for storing solid radioactive waste containing containers placed in a caisson, characterized in that the containers in cross-section are rectangular in shape with a height to width ratio of 0.98 ... 1.02 and are installed with adjacent faces parallel to one another and to the walls of the caisson.