RU2468454C1 - Vver-1000 spent nuclear fuel canister - Google Patents

Abstract

FIELD: power industry.

SUBSTANCE: spent nuclear fuel (VVER-1000) canister includes housing with partition walls installed inside it and forming cells. Spent fuel assemblies are installed into the above cells; cover plate with mushroom equipped with valve unit and device for coupling the cover plate to the housing, and supporting pipe installed inside housing are provided. Supporting pipe has square section; inside housing there mounted are vertical posts on which plates are installed in several tiers; those plates are attached to canister housing; on side edges of plates there are recesses at an angle of 120°, which are connected by means of angular vertical liners; at that, sides of square section of supporting pipe and angular vertical liners form six-sided sections exceeding the six-sided section of spent fuel assemblies.

EFFECT: invention allows increasing canister payload coefficient.

2 dwg

Description

The invention relates to nuclear energy, in particular to means for storing spent fuel assemblies (SFA) of the VVER-1000 reactor and is intended for use in stationary storage facilities for spent nuclear fuel at the plants for the regeneration of such fuel or at nuclear power plants.

Spent nuclear fuel (SNF) storage is an essential part of any nuclear fuel cycle. This may be temporary storage until spent nuclear fuel is reprocessed or a sufficiently long storage until fuel is buried in the repositories. The total amount of spent fuel to be stored is continuously increasing due to the significantly lower production capabilities of the refineries. Not only the volume of stored fuel is growing, but the estimated storage periods are also increasing, since the task of disposing of spent nuclear fuel has not been solved in any country.

The core of Russia's nuclear power park is the VVER-1000 and RBMK-1000 reactors. For VVER and RBMK 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 Experimental Demonstration Center and the RT-2 plant after their 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 2025-2030, and the creation of the Experimental Demonstration Center in 2015. At the site of the RT-2 plant, there is a "wet" storage facility for the SFA of VVER reactors -1000, which are stored in a water-filled pool, the so-called “wet” storage, and a “dry” storage is built for their storage until processing. SFAs come to the “dry” storage facility after their long-term storage in the “wet” storage facility and SFAs from NPPs transported in a protective container. SFAs in the chamber for assembling canisters are installed in cases of canisters, which are then sealed with caps with a valve for welding, and after evacuation, the canisters are filled through valves with nitrogen-helium mixture under excessive pressure, the valves are sealed by welding, and then the canisters are installed in storage sockets on two floors.

The prior art known sealed storage case for spent nuclear fuel (see RF patent No. 2372678, CL G21F 5/008, 2008).

Known sealed storage case for spent nuclear fuel of the RBMK-1000 reactor consists of a housing, grill and cover. The body is formed by a cylindrical shell, on the upper thickened end of which a bore is made for installation and subsequent welding of the cover, and a blank bottom with a shock absorber. The housing is equipped with a central pipe for engaging it with the lid before welding, for which a bore with an entry chamfer and a special groove is made in the upper thickened part of the pipe. The cover is a disk, in the central thickened part of which a through step hole is made, in which there is a valve for pumping and filling the housing with storage medium, as well as a ball lock for engaging the cover with the housing of the pencil case before welding it to the housing. A collar and fungus of the load gripping device are made on the lid. At the end of the fungus, an edge is made for welding the valve. The valve includes a ball in the centering support, a control rod-plug and two springs. An edge for welding the valve is made at the upper end of the control rod.

The valve is opened by an external pusher, which, overcoming the resistance of the springs, moves the ball dummy rod, centering the support all the way into the ball lock sleeve, and with further movement of the stub rod, the ball lock spring is compressed. In this case, the lock balls are in the groove zone, the ball lock opens when the lid is lifted, and the lid is removed from the pencil case. After removing the force from the external pusher, the ball lock sleeve rises under the action of the ball lock spring, and the valve elements under the action of two valve springs.

Work with a pencil case is as follows.

In the initial state, the cover is installed in the body of the pencil case, the valve and ball lock are closed. After the pencil case is inserted into the protective chamber, the control plug-plug is pushed down by an external pusher, compresses the valve springs, the centering support abuts against the sleeve and compresses the ball lock spring. At the same time, the lock balls are in the groove zone, the ball lock opens when the cover is lifted, the cover is removed from the pencil case. Ampoules with PTs are installed in lattice cells. After the canister is loaded with ampoules with PT, the lid is installed on the canister case, while the lower end of the central part of the lid initially enters the upper part of the central tube, which should help to combine the welded edges of the lid and the canister case. Next, the lid is welded to the body, the control rod-plug opens the valve through which the pump is evacuated and the case filled with a nitrogen-helium mixture with excess pressure, after which the valve closes. The valve is sealed by subsequent welding of the edges of the plug stem and the end of the cap fungus.

A known case for SNF VVER-1000, comprising a housing with dividing walls installed inside it, forming 3 cells into which the SFA is installed, a lid with a fungus equipped with a valve device and a device for engaging the lid with the housing. A support pipe is installed inside the housing, and a shock absorber is attached to the bottom of the housing (see “Initial requirements for the development of a case for SNF VVER-1000, inventory no. 10-05345, developed by OJSC East European Head Research and Design Institute for Energy Technologies” , St. Petersburg), which is selected as a prototype.

Work with a known pencil case is as follows.

An empty pencil case with a lid attached to the body by a device for engaging the lid with the body by a manipulator is pulled into the pencil case assembly chamber (PSC) and loaded into the socket of the pencil case sealing installation, where the cover is removed from it. Manipulator in turn three SFAs are removed from the drying nests and installed in the cells of the pencil case. A cover is installed on the filled pencil case and the pencil cover is welded to the pencil case. The brewed canister is rearranged in the drying slot. The valve device of the canister fits into the vacuum drying unit, after which the canister is filled with a mixture of nitrogen and helium at atmospheric pressure. Then the valve device of the pencil case is sealed by welding. The sealed pencil case is rearranged in the tightness control socket, where the tightness is checked by a helium leak detector. In case of leaks, a repeated weld is applied to the defective section of the weld. After tightness control, the loaded pencil case from the control panel is transported using the pencil transfer machine and reloading machine to the pencil storage slot, in which they are installed in two tiers.

The disadvantages of the well-known pencil case include insufficiently high coefficient of useful load of the pencil case.

The technical result that can be obtained by carrying out the invention is to increase the coefficient of payload of the pencil case.

In order to achieve the indicated technical result, a VVER-1000 spent nuclear fuel case containing a housing with dividing walls installed inside it, forming cells into which spent fuel assemblies are installed, a lid with a fungus equipped with a valve device and a device for engaging the lid with the housing, is installed inside the casing, the bearing pipe is axially axis, the supporting pipe has a square section, vertical racks are mounted inside the casing, on which several Russ plate attached to the canister body, on the lateral faces of plates sampling performed at 120 °, the combined angular vertical facings, wherein the side of the support tube of square cross section and angular form vertical facings hexagonal cross section, hexagonal section exceeding SFA.

Given the special operating conditions, the central square tube and angular vertical cladding can be made of boron steel, and their length and thickness are determined based on nuclear safety conditions.

Execution of a square-carrying pipe, installation of vertical struts inside the case, on which plates are mounted in several tiers, attached to the pencil case, making samples on the side faces of the plates at an angle of 120 °, connected by angular vertical facings to form square sides of the carrying pipe and angular vertical lining of hexagonal sections exceeding the hexagonal section of the SFA allows you to create 4 cells without changing the geometric dimensions of the pencil case and install 4 SFA in them, increase Thus, the coefficient of useful canister loading.

The installation of a square cross-section pipe and vertical struts in the body of the carrier pipe, on which plates attached to the pencil case are installed in several tiers, making samples on the side faces of the plates at an angle of 120 °, connected by vertical angular facings, allows to obtain 4 hexagonal cells formed by square sides the central pipe and angular vertical facings, with dimensions exceeding the hexagonal section of the SFA, which allows you to install VVER-1000 SFAs in cells 4, thereby increasing the coefficient Handy loading the canister.

The execution of the central pipe and angular vertical claddings of boron steel with length and thickness, determined on the basis of nuclear safety conditions, allows you to more densely place the SFA in the pencil case, thereby increasing the coefficient of useful load of the pencil case.

The proposed case for spent nuclear fuel VVER-1000 is illustrated by the drawings presented in figure 1 and figure 2.

Figure 1 shows a General view of the pencil case in section; figure 2 is a section aa in figure 1.

The proposed case (see figure 1) contains a housing 1 with a flat bottom 2, to which a shock absorber 3 is attached, and a lid 4 equipped with a fungus 5, in which a device 6 is installed for engaging the lid 4 with the housing 1 and a valve device 7 for vacuum drying and filling the pencil case with a nitrogen-helium mixture. To control the device 6 and the valve device 7, there is a dummy rod 8, when pressed, the device 6 and the valve device 7 open. On the central axis of the housing 1 to the bottom 2 (see figure 2) is attached to the supporting pipe 9 of square cross section with a side length equal to or greater than the length of the side of the hexagon SFA. Inside the housing 1, 4 vertical posts 10 are installed, on which plates 11 are fixed in several tiers. On the lateral faces of the plates 11, samples 12 are made with an angle of 120 °. Boiled steel can be used as a material for the samples 12 for angular vertical claddings 13. As the material for the supporting pipe 9 and angular vertical claddings 13, the wall thickness of the supporting pipe 9 and angular vertical claddings 13 is determined based on nuclear safety conditions.

The proposed case is operated as follows.

An empty pencil case with a cover 4 attached to the housing 1 with a device 6 for engaging the cover 4 with the housing 1 by a manipulator is pulled into the pencil case assembly chamber (CCP) and loaded into the cartridge sealing installation slot, where the cover is removed from it 4. By the manipulator, four SFAs are removed from the drying slot in turn and are installed in the cells of the pencil case, formed by the sides of the square section of the carrier pipe 9 and the angular vertical claddings 13. A cover 4 is installed on the filled pencil case and it is welded to the body 1 of the pencil case. The brewed canister is rearranged in the drying slot. The valve device 7 of the canister fits into the vacuum drying unit, after which the canister is filled with a mixture of nitrogen and helium at atmospheric pressure. Then, the valve device 7 of the canister is sealed by welding the edges of the fungus 5 and the stem of the plug 8. The sealed canister is moved to the tightness control socket, where the tightness is checked by a helium leak detector. In case of leaks, a repeated weld is applied to the defective section of the weld. After tightness control, the loaded pencil case from the control panel is transported using the pencil transfer machine and reloading machine to the pencil storage slot, in which they are installed in two tiers.

The installation of the covers 4 on the housing 1 is carried out in the camera assembly case, in which the housing 1 is engaged with the cover 4 by a lock 6.

Next, a canister equipped with a lid 4 is fed into the “hot” chamber to load its SFA, where the lid 4 is removed from the housing 4 with a special grip that presses the dummy rod 8, and the VVER-1000 SFAs are installed in 4 cells formed by the sides of the square of the central pipe 9 and angular vertical lining 13. After loading the canister, the cover 4 is installed in the housing 1, and their edges are connected remotely by welding. The case is evacuated through valve 7, opened by pressing on the dummy rod 8, and then filled with a nitrogen-helium mixture, after which valve 7 is closed, and the edges of valve 7 and fungus 6 are welded.

Next, the pencil case is installed in a "dry" storage.

The proposed technical solution allows to increase the coefficient of useful load of the pencil case by 25%.

Claims (2)

1. A case for spent nuclear fuel of a VVER-1000 pressurized water reactor, comprising a housing with dividing walls installed inside it, forming cells into which spent fuel assemblies (SFAs) are installed, a lid with a fungus equipped with a valve device and a lid clutch with a casing, an axial support pipe mounted inside the casing, characterized in that the support pipe has a square section, vertical racks are mounted inside the casing, on which In several tiers of the plate, attached to the body of the pencil case, samples at an angle of 120 ° are connected on the lateral faces of the plates, connected by angular vertical facings, and the sides of the square section of the carrier pipe and angular vertical facings form hexagonal sections exceeding the hexagonal section of the SFA. 2. A case for spent nuclear fuel from a VVER-1000 pressurized water reactor according to claim 1, characterized in that the square carrying tube and angular vertical claddings are made of boron steel, and their length and thickness are determined based on nuclear safety conditions.

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