EA041155B1 - METHOD FOR CUTTING INTO FRAGMENTS OF LONG-SIZE ELEMENTS OF NUCLEAR REACTOR AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Description

The invention relates to the field of nuclear technology, in particular to the disposal of spent long-length elements of a nuclear reactor, and can be used at nuclear power plants or special plants.

When decommissioning nuclear power plants, it becomes necessary to cut into fragments the process equipment of a nuclear reactor, including long elements located in the compartments of the shafts of the internal device, the holding pools of water-cooled power reactors.

The cutting into fragments of long elements is carried out mechanically, for example, with saws, disk cutters, turning tools, etc., or thermally, for example, gas cutting, plasma, electric spark, etc. Devices have been developed with the help of which the indicated methods of fragmentation are performed.

A known method of cutting a double-beam fuel assembly of a nuclear reactor and a cutting device for its implementation according to the patent of the Russian Federation No. 2080665, IPC G21C 19/00, G21F 7/00. This method includes installing and fixing the fuel assembly in a foldable canister placed in a case installed in a container filled with water at a depth that provides biological protection. This method provides for the dismantling of the spent assembly in order to ensure compact storage in the storage facility for spent nuclear fuel.

The disadvantage of this method is the complexity and duration of equipment preparation and work.

The closest analogue of the claimed invention is the invention Method for cutting lengthy elements of a nuclear reactor according to RF patent No. 2125308, IPC G21C 19/36. The method consists in cutting spent long-length elements of a nuclear reactor (reactor channels, control and protection rods, ionization chamber thermocouples, energy release control sensors, etc.) by transverse cutting of these elements. Long elements are placed inside the container, which is the central part of the spent reactor channel, and they are cut together.

The disadvantage of the closest analogue is the complexity and duration of cutting long items.

The problem solved by the present invention is the expansion of functionality.

The technical result achieved by the invention is to reduce the complexity and timing of work on the cutting of long-length elements, as well as to minimize radiation doses on maintenance personnel.

The specified technical result regarding the method is achieved due to the fact that in the method of cutting into fragments of long elements of a nuclear reactor, including the placement of long elements inside the container and their subsequent cutting, it is proposed to lower the long element into the container to its entire height, to cut the long element to at the level of the upper edge of the container with separation from it of a fragment equal to the height of the container, then again lower the upper part of the long element remaining after cutting into the container to its entire height and repeat cutting the long element into fragments until it is completely cut.

It is also proposed to carry out the cutting of long-length elements until the container is completely filled, and then, after filling it with fragments of long-length elements, move the container to the storage place.

In addition, it is proposed to carry out the cutting of long-length elements with remote control in a technological container under water, the container to be perforated. It is proposed to remotely control the cutting of long-length elements in a technological tank using video surveillance and artificial lighting.

The specified technical result regarding the device is achieved due to the fact that the device for cutting into fragments of long elements of a nuclear reactor, including a latch located in the technological vessel, a container installed in it and equipment for moving and cutting long elements of a nuclear reactor, it is proposed to additionally provide video surveillance devices located in the technological vessel, the container fixer is made in the form of a fixed bar with a container holder installed on the bottom of the technological vessel, the equipment for cutting a long element is made in the form of a remotely controlled hydraulic cutter, mounted with the possibility of moving on a fixed bar above the container holder, and the equipment for moving long element to be made in the form of a remotely controlled gripping device with clamping jaws fixed on a movable rod.

It is also proposed to make the container holder in the form of a ring, to provide the gripping device with a drive that ensures the rotation of the clamping jaws. In addition, it is proposed to equip the video surveillance system with a general view video camera and a video camera mounted on a capture device, and a video camera or a rigid lens radiation-resistant endoscope mounted on a fixed rod. It is proposed to place a lamp-headlight in the technological container, and to make the container with a perforated bottom and/or walls.

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Claims (5)

Changing the method of cutting lengthy elements, in which the cutting is carried out in the same container until it is filled, and all operations are carried out under water, leads to the achievement of the specified technical result. The claimed group of inventions is illustrated with graphic material, where the drawing shows a device for cutting into fragments of long elements of a nuclear reactor. The device for cutting into fragments of long elements of a nuclear reactor includes a container latch 1, made in the form of a fixed rod 3 installed on the bottom of a technological vessel filled with water 2 with a holder 4 of the container 1, installed in the holder 4 of the container 1, and equipment for moving and cutting long elements 5 The equipment for moving long elements 5 consists of a remotely controlled gripping device 7 with clamping jaws 8 fixed on a movable rod 6, and equipment for cutting long elements 5 consists of a remotely controlled hydraulic cutter 9 mounted for movement on a fixed rod 3 above the holder 4 container 1. The holder 4 of the container 1 in the drawing is made in the form of a ring. The gripping device 7 is equipped with a drive 10, which ensures the rotation of the clamping jaws 8. Also, the device for cutting into fragments of long elements 5 includes a lamp-headlight 11, a general view video camera 12 and a video camera 13 fixed on the gripping device 7. The drawing also shows a variant with fixed on a fixed rod 3 rigid lens radiation-resistant endoscope 14. Thus, the operation of the device and the method of cutting into fragments of long elements of a nuclear reactor is carried out as follows. Container 1 for placing long elements 5 is installed in holder 4 on a fixed rod 3. Using a gripping device 7 with clamping jaws 8, a long element 5 is captured in a technological container 2, observing with a video camera 13. Then a long element 5 using a device 7 the grip is lowered into the container 1 to the entire height of the container 1, the long element 5 is intercepted at the level of the upper edge of the container 1, lifted and positioned so that the hydraulic cutter 9 is directly under the clamping jaws 8, and the positioning is carried out using a rigid lens radiation resistant endoscope 14, fixed on a fixed rod 3. After that, the long element 5 is cut with separation of a fragment from it and the operations are repeated again to install the remaining upper part of the long element 5 in the container 1, intercept and cut until the long element 5 is completely cut. Then using the capture device 7, the next lengthy element 5 is captured in the technological container 2 and cutting is performed until the container 1 is full. All operations are carried out in a water-filled process tank 2 with video surveillance using a video camera 12 for a general overview and additional lighting with a headlight 11. A perforated container 1 is used to drain the water. After filling with fragments of long elements 5, the container 1 is moved to the storage place. The claimed invention provides a reduction in labor intensity, the timing of the work and the minimization of dose loads on maintenance personnel when cutting long-length radioactive elements of a nuclear reactor. CLAIM 1. The method of cutting into fragments of long elements of a nuclear reactor, including the placement of long elements inside the container and their subsequent cutting, characterized in that the cutting of long elements is carried out with remote control in a technological container under water, the long element is lowered into the container to its entire height, cutting a long element at the level of the upper edge of the container with separation from it of a fragment equal to the height of the container, after which the upper part of the long element remaining after cutting is lowered inside the container to its entire height and the cutting of the long element into fragments is repeated until it is completely cut, while the container perform perforated. 2. The method of cutting into fragments of long elements of a nuclear reactor according to claim 1, characterized in that the cutting of long elements is carried out until the container is completely filled. 3. The method of cutting into fragments of long elements of a nuclear reactor according to claim 1 or 2, characterized in that the container, after filling it with fragments of long elements, is moved to a storage location. 4. The method of cutting into fragments of long elements of a nuclear reactor according to claim 1, characterized in that remote control of the cutting of long elements in the process vessel is carried out using video surveillance and artificial lighting. 5. A device for cutting into fragments of long elements of a nuclear reactor, including a latch located in the technological vessel, a container installed in it and equipment for moving and cutting long elements of a nuclear reactor, characterized in that it is additionally equipped with video surveillance devices located in the technological vessel, a latch the container is made in the form of a fixed process tank installed on the bottom -