EA043857B1 - CONTAINER CASE FOR TRANSPORTATION AND STORAGE OF SPENT NUCLEAR FUEL OF A WATER-WATERED NUCLEAR REACTOR - Google Patents

Description

The invention relates to container covers for transportation and temporary storage of fuel assemblies of a pressurized water reactor (VVER).

The closest from the prior art to the claimed invention is a container cover containing a base on which steel disks are fixed in height and heat-removing disks located between the steel disks equidistant from each other, vertical fastening elements connecting the steel and heat-removing disks into a section of the case, with In this case, two rows of holes are made in the disks relative to their axis, pipes are installed in the holes, and the racks are located along the outer perimeter of the disks (RF patent No. 2642853, published on January 29, 2018).

In the known case, a central supporting pipe is welded to the base. The steel and heat sink disks form at least two sections. Each section is made of two steel disks - upper and lower, connected by vertical fastening elements, in this case racks. At least five heat-dissipating disks and spacer bushings made of aluminum alloy are installed between the steel disks.

The mentioned sections are fixed to the base and to each other in height using a central supporting pipe.

There are six pipes in the first row relative to the axis of the supporting pipe, and twelve in the second row.

The cover is assembled as follows.

A lower steel disk is installed on top of a base with a welded central support pipe. Steel racks are screwed into this disk, and heat-removing disks are threaded onto them through bushings. Hexagonal pipes are installed in the hexagonal holes of the heat sink disks. The entire assembly is covered by a top steel disc, forming a cover section. The upper steel disk is pressed against the section posts by screwing the steel posts into the lower steel disc of the next section. The process is repeated until the top section. A protective disk is installed on top of the upper steel disk, bolted to the racks of the last section. A head for lifting equipment is installed on the central supporting pipe.

The known case is used in a transport packaging container (TPC), which is designed for transportation and storage of conditioned spent fuel assemblies (SFA) in the amount of 18 pieces. However, in addition to the transportation of conditioned spent fuel assemblies, there is a need for transportation of substandard spent fuel assemblies of VVER reactors.

When transporting substandard SFAs, the risk of more severe consequences of an accident increases, therefore the design of the TUK should ensure maximum safety of transportation of damaged assemblies.

The need to create a new fuel assembly for spent fuel assemblies of advanced types of VVER reactors is due to their severe nuclear, radiation and thermal characteristics. In this connection, the cover of such a TUC for transportation of substandard spent fuel assemblies can be used only after it has been modified.

It should also be taken into account that the dimensions of fuel packages for VVER-1000/1200 type reactors for the Russian Federation are limited by the existing circulation scheme. Therefore, canisters with a certain amount of spent fuel assemblies must fit into the transport and packaging kits of the existing scheme. Placing the maximum possible spent nuclear fuel in a canister of existing dimensions requires reducing the distance between spent nuclear fuel assemblies.

Taking into account the existing dimensions of the TUK, when calculating radiation safety, it was found that the largest number of transported substandard spent fuel assemblies in terms of radiation load on operating personnel is 10, and the increased safety requirements for the transportation of substandard spent fuel assemblies highlight the following main disadvantages of the prototype.

The presence of several sections requires precise joining of the sections to each other to ensure the alignment of the channels (pipes) in order to exclude the possibility of their entanglement when moving (loading/unloading) between sections and mechanical damage.

In addition, calculations have established that the energy release from the spent fuel assemblies in the selected case is distributed unevenly - with a maximum in the center and a minimum at the periphery. Therefore, the use of sections of a known design, located one above the other, does not guarantee uniform heat removal from the spent fuel assemblies over the entire height of the casing.

In connection with the above, the technical problem of the invention is the transportation and storage of the maximum number of substandard spent fuel assemblies of VVER-1000/1200 type reactors (10 pieces) in a container cover that fits into the dimensions of the shipping package, ensuring transportation safety parameters, in particular radiation safety, nuclear safety, heat removal from the spent fuel assemblies.

The technical result is the preservation of the dimensions of the existing canisters of transport packaging kits of VVER reactors when transporting substandard fuel while ensuring transportation safety parameters, in particular radiation and nuclear safety, heat removal from the spent fuel assemblies to the wall of the TUK, as well as improving the maintainability of the canister.

The technical result is achieved by the fact that the cover of a container for transporting and storing spent nuclear fuel of a pressurized water reactor, containing a base on which steel disks are fixed in height and aluminum disks located between the steel disks equidistant from each other, vertical fastening elements connecting each other steel and

- 1 043857 aluminum disks in a section of the cover, wherein two rows of holes are made in the disks relative to their axis, channels are installed in the holes, and vertical fastening elements are located along the outer perimeter of the disks, the cover is made of one section and is equipped with additional vertical fastening elements for disks located along the circumference between the axes of the inner and outer rows of holes in the disks, the holes and channels are made round with the possibility of placing canisters for spent fuel assemblies in them, while grooves and hooks for canisters are made at the base of the cover, two holes are made in the inner row of holes, and external - eight.

In addition, the boot section is equipped with additional steel discs, with the steel discs equidistant from the aluminum discs.

In addition, aluminum and steel rims alternate as follows 4-1-4-1-3-1-3-1-3-1-31, starting from the base.

In addition, the vertical elements for fastening the disks are made in the form of ties.

The ability to install sealed canisters (known from the prior art) for spent fuel assemblies into the canister channels will make it possible to transport substandard spent fuel assemblies into the TUK without the spread of radioactive substances into the environment, which will ensure the safety requirements for the transportation and storage of spent nuclear fuel.

The round shape of the channels, grooves and a hook for pencil cases at the base of the case allow you to place pencil cases in the case.

A cover made of one section will simplify its design, ensure alignment of the holes for the channels, and improve heat removal from the spent fuel assemblies due to the uniform distribution of steel and heat-removing disks in height.

An additional row of vertical fastening elements is a replacement for the central pipe, allowing the placement of the optimal number of substandard spent fuel assemblies with a reduced distance between them, maintaining the dimensions of the existing fuel assemblies and ensuring the required strength characteristics of the canister during operation and in emergency situations.

Making vertical elements for fastening the disks to each other in the form of ties will make the cover section more fixed in height due to the vertical compression force.

The invention is illustrated by drawings, where in Fig. 1 shows the cover (longitudinal section), Fig. Figure 2 shows the cover (cross section).

The cover is a metal structure consisting of a base (support disk) 1, heat-removing aluminum disks 2, intermediate disks 3, channels 4 for sealed canisters, vertical fastening elements, in this case, ties 5 and 6.

Base 1 - a welded structure made of corrosion-resistant steel acts as a load-bearing element of the cover. On top, the base 1 has grooves 7 and hooks 8 for installing pencil cases. The hooks 8 can be made, for example, in the form of a counter hole to the key in the pencil case, made in the groove 6 and offset from its center.

The cover can be equipped with additional steel disks 3. Disks 2 and 3 are located equidistant from each other in a certain order, while two rows of round holes are made in disks 2 and 3 relative to their axis. There are two holes in the inner row of holes, and eight in the outer row. Channels 4 (pipes) made of boron steel are installed in the holes, and the channels are designed to accommodate sealed canisters with spent fuel assemblies. Channels 4 protect sealed canisters 4 from mechanical damage.

Aluminum disks 2 simultaneously solve safety problems and perform the functions of heat removal from the spent fuel assemblies. Intermediate discs 3 are made of corrosion-resistant steel.

Between steel disks 3 and aluminum disks 2, bushings 9 made of aluminum alloy are installed. The connection of all parts of the cover into a single section is ensured by ties 5 and 6 located along the perimeter of disks 2 and 3, as well as along the circumference between the axes of the inner and outer rows of holes.

Ties 5, 6 are a pin, the lower end of which is screwed into the support disk 1, and the upper end is fixed with a nut 10.

The cover is assembled as follows.

Screws 5 and 6 are screwed into the load-bearing element of the cover - support disk 1 until it stops. Next, bushings 9, discs 2 and 3 are installed on couplers 5 and 6, bushings 9 are also installed between discs 2 of the cover and intermediate discs 3. The sequence of alternating discs 3 and 2 the following: 4-1-4-1-3-1-3-1-31-3-1 starting from support disk 1. This arrangement of disks provides better heat removal from the spent fuel assemblies. Next, channels 4 for sealed canisters in the amount of 10 pieces are passed into the holes of disks 2 and 3. Next, bushings 9 are installed on couplers 5, 6 and the last steel disk; the entire structure is fixed with nuts 10, forming a section of the cover.

The operations for loading/unloading sealed canisters into the case are as follows.

Using a reloading machine and a special gripper, the sealed canister with substandard spent fuel assemblies is positioned and lowered into channel 4 of the casing until it stops. In this case, the latch at the bottom of the pencil case (key) must fit into hole 8 at the bottom of the base 1, which ensures that the pencil case does not rotate around its axis during transportation and when working with the grip of the reloading machine. Next, the grip and the penalty are released.

- 2 043857

All other canisters are loaded one by one into the cells of the case. Unloading sealed canisters is done in the reverse order.

The ability to install sealed canisters for spent fuel assemblies in channels 4 of the case allows substandard spent fuel assemblies to be transported into the TUK without the spread of radioactive substances into the environment, which ensures the safety requirements for the transportation and storage of spent nuclear fuel.

The round shape of the channels, grooves 7 and hook 8 for pencil cases at the base of the case allow you to place the pencil cases in the case and prevent them from being damaged during operation.

The cover, made of one single section, simplifies its design, ensures the alignment of the holes for channels 4, and improves heat removal from the spent fuel assemblies due to the uniform distribution of steel and heat-removing disks in height.

An additional row of ties 6 is a replacement for the central pipe, allowing the placement of the optimal number of substandard spent fuel assemblies with a reduced distance between them, maintaining the dimensions of the existing fuel assemblies and ensuring the required strength characteristics of the casing during operation and in emergency situations.

Thus, the proposed TUK ensures transportation and storage of the optimal number of substandard spent fuel assemblies of VVER-1000/1200 type reactors (10 pieces) in a container that fits into the dimensions of existing TUKs, ensuring transportation safety parameters, in particular radiation safety, nuclear safety and heat removal from SFA.

Claims (4)

1. A container cover for transporting and storing spent nuclear fuel from a water-water nuclear reactor, containing a base on which steel disks are fixed along the height and aluminum disks located between the steel disks equidistant from each other, vertical fastening elements connecting the steel and aluminum disks into a section. cover, wherein two rows of holes are made in the disks relative to their axis, channels are installed in the holes, and vertical fastening elements are located along the outer perimeter of the disks, characterized in that the cover is made of one section and is equipped with additional vertical fastening elements for disks located circumferentially between the axes of the inner and outer rows of holes in the disks, the holes and channels are made round with the possibility of placing canisters for spent fuel assemblies in them, while at the base of the cover there are grooves and hooks for canisters, two holes are made in the inner row of holes, and eight in the outer row . 2. The cover according to claim 1, characterized in that the section of the cover is equipped with additional steel disks, and the steel disks are equidistant from the aluminum disks. 3. The cover according to claim 2, characterized in that aluminum and steel disks alternate as follows 4-1-4-1-3-1-3-1-3-1-3-1, starting from the base. 4. The cover according to claim 1, characterized in that the vertical elements for fastening the disks are made in the form of ties.