RU2477899C1 - Jacket to install and store spent fuel assemblies of reactor vver-1000 - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: invention relates to facilities for storage of spent fuel assemblies (SFA), and more specifically - to facilities for storage of defect SFAs of a VVER-1000 reactor and is designed for use in storages of spent nuclear fuel at factories for regeneration of such fuel or at an NPP. The purpose of the invention is safe storage of defect SFAs in a storage pool. The jacket for placement and storage of spent fuel assemblies is made of stainless steel and comprises a central pipe, square spacer grids with holes for installation of pipes, where spent fuel assemblies are located, and axes of which are arranged symmetrically relative to the central axis of the jacket. Pipes are equipped with the lower part with bottoms, and in the upper part - with flanges. Onto pipes by means of a bayonet joint there are covers installed with inner rings, sealing surfaces of which are pressed by a bayonet joint to pipe flanges. Covers are equipped with heads, in the upper part of which there are metal-ceramic filters installed. For convenience of service the outer contour of cover heads corresponds to the outer contour of SFA heads.

EFFECT: elimination of water circulation in jacket pipes when storing defect SFAs in them due to pipes sealing.

2 cl, 4 dwg

Description

The invention relates to nuclear technology, in particular to means for storing spent fuel assemblies of the VVER-1000 reactor, and more particularly, to means for storing defective spent fuel assemblies of the VVER-1000 reactor, and is intended for use in spent nuclear fuel storage facilities at plants for the regeneration of such fuel or at a nuclear power plant.

The core of Russia's nuclear energy park is the VVER-1000 and RBMK reactors. For VVER-type reactors, the concept of a closed nuclear fuel cycle has been adopted. Spent nuclear fuel (SNF) of the VVER-1000 reactors will be reprocessed at the RT-2 plant after its commissioning. According to the “Strategy for the Development of Atomic Energy in the First Half of the 21st Century," the creation of the RT-2 plant is planned for 2020-2025. A storage facility for this fuel operates on the RT-2 site, where the VVER-1000 SNF is stored in a water-filled pool, the so-called “wet »Storage. Spent nuclear fuel enters the pool in a transport case loaded into a protective container, from which spent fuel assemblies (SFAs) are loaded into storage covers in the reloading compartment of the water-filled pool, which are stored in the SFA storage compartments from the reloading compartment.

Operational experience has shown that there is a probability that defective SFAs will arrive in the transport covers with deformation of the guide channels fastening the head with the fuel part of the SFAs.

Since the cause of deformation of the guide channels is not known upon receipt of a defective assembly, there is a likelihood of deformation of the zirconium tubes of the bundle of fuel elements (fuel elements) in which the fuel pellets are placed, and, as a result, the possible leakage of the zirconium cladding of the fuel elements.

In addition, the safety analysis performed also showed that when SFA is overloaded, there is a possibility of its falling to the bottom of the pool and, as a result, a possible loss of tightness of the zirconium claddings of the fuel elements. SFAs with deformed guide channels connecting the head to the fuel part of the SFAs, or after their fall, cannot be placed in standard storage covers, since it is not possible to check the tightness of the zirconium cladding of the fuel rods, and their leakage during long-term storage can lead to water pollution in the pool .

The closest device to the claimed invention in terms of features is a cover for storing and storing spent fuel assemblies from VVER-1000 reactors made of stainless steel and containing a central pipe, square spacer grids with twenty holes for installing pipes in which spent fuel assemblies are placed , the pipe axes are located symmetrically with respect to the central axis of the sheath at points with nominal polar coordinates:

R _i α _i R _i α _i R ₁ = 0.1758 α ₁ = 0 ° R ₁₁ = 0.1758 α ₁₁ = 180 ° R ₂ = 0.4069 α ₂ = 15 ° R ₁₂ = 0.4069 α ₁₂ = 195 ° R ₃ = 0.2952 α ₃ = 45 ° R ₁₃ = 0.2952 α ₁₃ = 225 ° R ₄ = 0.5138 α ₄ = 45 ° R ₁₄ = 0.5138 α ₁₄ = 225 ° R ₅ = 0.4069 α ₅ = 75 ° R ₁₅ = 0.4069 α ₁₅ = 255 ° R ₆ = 0.1758 α ₆ = 90 ° R ₁₆ = 0.1758 α ₁₆ = 270 ° R ₇ = 0.4069 α ₇ = 105 ° R ₁₇ = 0.4069 α ₁₇ = 285 ° R ₈ = 0.2952 α ₈ = 135 ° R ₁₈ = 0.2952 α ₁₈ = 315 ° R ₉ = 0.5138 α ₉ = 135 ° R ₁₉ = 0.5138 α ₁₉ = 315 ° R ₁₀ = 0.4069 α ₁₀ = 165 ° R ₂₀ = 0.4069 α ₂₀ = 345 °

where R _i is the nominal value of the polar radius for the i-th pipe in units of side A of the square cross section of the cover, and α _i is the nominal value of the polar angle for the i-th pipe.

The holes in the spacer grids and the pipes installed in them are made round, and in the upper part of the round pipes there are three ribs forming an open hexagon. Along the periphery of the square section, the well-known case is framed by stiffeners symmetrically located relative to the central axis of the case (see RF patent No. 2331943, class G21C 19/06, G21F 5/00).

When storing SFAs in pipes of a well-known case due to residual heat generation of SFAs, water circulation in the pipes occurs. The water heated in the pipes of the well-known cover rises upward along them, and colder water flows into the pipes from below. When defective SFAs are placed in a well-known case in case of leaks in zirconium tubes with fuel pellets, contamination of water with radionuclides in the pool can occur.

The technical result that can be obtained by carrying out the invention is to prevent the circulation of water in the pipes of the case when storing defective SFAs in them by sealing the pipes.

The specified technical result is achieved in that the cover for accommodating and storing spent fuel assemblies from VVER-1000 reactors is made of stainless steel and includes a central pipe, square spacer grids with holes for installing pipes in which spent fuel assemblies and axes are placed which are located symmetrically with respect to the central axis of the cover, a feature is that the pipes are provided with bottoms at the bottom and flanges at the top with pipes On the one-piece connection, covers with inner rings are installed, the sealing surfaces of which are pressed by the bayonet connection to the pipe flanges, the covers are equipped with heads, in the upper part of which ceramic-metal filters are installed.

In addition, the external contour of the cap heads corresponds to the external contour of the SFA heads.

The supply of pipes in the lower part with the bottoms and in the upper part with flanges, installation on the pipes by bayonet connection of the caps with the inner rings, the sealing surfaces of which are pressed by the bayonet connection to the pipe flanges, make it possible to obtain a practically tight volume inside the pipes and to prevent water circulation when installing SFAs in them through pipes, thereby ensuring the safe storage of defective SFAs in the pool until their subsequent processing.

The installation of ceramic-metal filter caps in the upper part of the heads makes it possible to remove gases from pipes from the radiolysis of water.

Correspondence of the external contour of the cap heads to the external contour of the heads of the SFA allows using the standard rods used when loading and replacing the caps on the pipes of the inventive cover, used when reloading the SFA from the transport covers to the storage covers.

The proposed cover for the placement and storage of defective spent fuel assemblies of the VVER-1000 reactor is illustrated by the drawings shown in figures 1-4.

Figure 1 shows a front view of the cover in section; figure 2 shows a top view of the cover; figure 3 is a cover in section with a head repeating the contour of the serial SFA installed on the pipe tube, figure 4 is a cover in section with a head repeating the contour of a non-serial SFA installed on the pipe tube

The proposed cover for placement and storage of spent fuel assemblies of the VVER-1000 reactor contains (see FIGS. 1 and 2) a central pipe 1 attached to the central pipe 1 upper 2, intermediate 3, lower 4 spacer square grids with holes in which the pipes are installed 5. A plate 6 and a base 7 are connected to the central pipe 1, interconnected by ribs 8. The bottoms 9 are connected to the lower end of the pipes 5 for welding, and the flanges 10 are connected to the upper ends of the pipes 5. Three ribs 11 are installed in the upper part of the pipes 5 forming nesk uty hexagon. On pipes 5 (see FIGS. 3 and 4), by means of a bayonet coupling 12, caps 13 with inner rings 14 are installed, the sealing surfaces 15 of which are pressed by the bayonet coupling 12 to the flanges 10.

Since serial and non-serial SFAs of VVER-1000 reactors having a different external contour of their heads are deposited, two types of rods are used to transfer them from transport covers to storage covers. To install the SFA in the pipe 5 and then place the caps 13 on it with the same rod, the caps 13 are equipped with heads 16 or 17, repeating the external contour of the heads of serial or non-serial SFAs, respectively. In the upper part of the heads 16 and 17 installed cermet filters 18.

The number of pipes 5 in the proposed case is 10 pieces based on the experience of operating a “wet” storage facility, which showed that the arrival of defective SFAs and the probability of SFAs falling when they are reloaded from transport covers into storage covers are extremely small. The axes of eight pipes 5 are evenly spaced around the perimeter of the square section of the proposed cover, and two pipes 5 are evenly spaced along one of the diagonals of the square section, while the smallest distance between the axes of the pipes 5 exceeds the minimum distance allowed by nuclear safety conditions.

The inventive cover for the placement and storage of defective SFA of the VVER-1000 reactor is operated as follows.

The cover falls to the bottom of the storage pool, while the pipes 5 are pre-filled with water to compensate for buoyancy when the cover with sealed pipes is immersed in water.

Defective SFAs identified during operation with deformed tubes connecting the head to the fuel part of the SFAs are transferred from the transport case to the inventive case as follows. If the head deviates from the vertical axis of the SFA, which allows it to be hooked up with the corresponding standard rod, the defective SFA is removed from the transport cover and installed in the pipe 5 of the inventive cover. Next, the cap 13 is hooked by the same rod and mounted on the pipe 5; upon subsequent rotation of the rod by the bayonet coupling 12, the sealing surfaces 15 of the inner rings 14 of the cap 13 are pressed against the flanges 10.

If the head deviates from the vertical axis of the SFA, which does not allow it to be hooked with the corresponding standard rod, and also when the SFA is lifted from the bottom of the pool in case of its fall, the “Device for lifting and moving spent fuel assemblies” is used, which is used as an emergency tool (see RF patent No. 2418320, IPC ⁷ G21C 19/32). Using the specified device used to lift and move both serial and non-serial SFAs, the latter is placed in the pipe 5 of the inventive cover, after which a cover 13 is mounted on the pipe 5 with a standard rod corresponding to the type of SFA, and pressed against the pipe 5 by a bayonet connection 12. After installing the caps 13 on the pipes 5 and pressing them with a bayonet connection 12, water circulation through the pipes 5 is excluded, and the residual heat of the SFA is absorbed by the pool water due to heat transfer through the walls of the pipe 5. The resultant radiolysis of water gases discharged from the sealed volume of the pipe 5 via the metal disc 18.

Claims (2)

1. A cover for accommodating and storing spent fuel assemblies of the VVER-1000 reactor, made of stainless steel and containing a central pipe, square spacer grids with holes for installing pipes in which spent fuel assemblies are placed, the axis of the holes are symmetrically relative to the central axis of the cover, different in that bottoms are hermetically connected to the lower end of the pipes, and flanges are connected to the upper ends of the pipes, and caps with internal they have rings, the sealing surfaces of which are pressed by a bayonet connection to the pipe flanges, the covers are equipped with heads, in the upper part of which ceramic-metal filters are installed. 2. Cover for placement and storage of spent fuel assemblies of the VVER-1000 reactor according to claim 1, characterized in that the external contour of the cap heads corresponds to the external contour of the SFA heads.

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