RU2582576C1 - Container for transportation and/or storage of spent nuclear fuel - Google Patents

Abstract

FIELD: nuclear physics; transportation.

SUBSTANCE: invention relates to containers for transportation and/or storage of spent fuel assemblies (SFA) of nuclear reactors. Container includes a housing in which there is a cover, which includes channels for installation of spent fuel assemblies and central pipe, a protective sealing cover arranged at recess in upper part of housing. Cover is equipped with clamping devices installed in its lower part, each opposite corresponding channel. Each clamping device is made in form of a cup with a hole in bottom, in which is installed an axle, in its lower part there is a flange with groove accommodating predeformed spring by means of a disc installed in upper part of axis, having possibility of movement along axis. Between cup and disc there is a second predeformed spring of larger diameter. Spent fuel assemblies are arranged on disc.

EFFECT: elimination of transportation of free movement in container cover with spent fuel assemblies, and without them due to elastic damping cover and/or spent fuel assemblies with stop in bottom cover.

6 cl, 2 dwg

Description

The invention relates to mobile protective containers intended for transportation and temporary storage of spent nuclear fuel (SNF) of nuclear power plants (NPPs) in the form of spent fuel assemblies (SFA).

Containers for transporting and / or storing spent nuclear fuel are known. In accordance with radiation safety standards and IAEA recommendations, such containers should provide high radiation-protective and strength properties, including in emergency situations, possible during the transportation and / or storage of spent nuclear fuel. In addition, an important task is to improve the performance of the container when transporting it with a cover, both with and without SFA.

For example, a protective container is known for transporting spent reactor assemblies ("Containers for transporting spent fuel elements of nuclear power plants", Proceedings of CCTI, issue 142, Leningrad, 1977, p. 13, Fig. 2), closed with a sealing cover on top and having spring-loaded shock absorbing devices above the upper ends of the covers in the gap under the lid, ensuring the spacing of the covers with the SFA in the container cavity also along its axis.

The disadvantages of the known protective containers with removable parts and covers inserted therein are the fastening of the upper ends of the covers by special shock absorbing mechanical devices in the gap under the cover, which do not prevent the covers from jamming in the openings of the diaphragms of the removable part due to breakage of the pressure devices during an accidental fall of the container onto the cover and deformations of the extraction part as a result of the breakdown of the pressure devices.

As a prototype, a container for transporting and / or storage of spent nuclear fuel (Cl. RF No. 232244, publ. 05/10/2008) was selected, comprising a housing in which a cover was placed, including diaphragms with cells interconnected for installing bundles of fuel elements and a central one a pipe with a shank for cargo gripping, at least one protective sealing cover, made under a recess in the upper part of the body, rigging nodes located on the body, and the centers of the cells are located along the contours corresponding boiling regular hexagons having a common center which is aligned with the geometrically longitudinal central axis of the tube. The diaphragms of the case are rigidly connected by means of longitudinal rod elements located around the diaphragms along the longitudinal axis of the case. The container contains tubular elements that are installed in a fixed position, respectively, between adjacent diaphragms of the cover coaxially with the corresponding non-adjacent cells. The cover is equipped with supporting damping elements that are installed on the outside of the lower diaphragm. Along with this, the cells are each configured to install a bundle of fuel elements placed in an ampoule. In the latter embodiment, the case is equipped with spring-loaded end elements that are mounted on the lower diaphragm, each opposite the corresponding cell, with the possibility of interaction with the ampoule under normal operating conditions of the container.

In this container, the cover is equipped with spring-loaded end elements that are installed in its lower part, each opposite to the corresponding cell. However, this design does not allow the case to be pressed without SFA along the axis of the container, which leads to longitudinal movement of the case and possible damage to the container during horizontal transportation.

The objective of the invention is to ensure the protection of the cover and the SFA in the container from destruction during transportation to the storage location.

The technical result is to exclude during transportation the free movement in the container of the cover with or without SFA due to the provision of elastic cushioning of the cover and / or SFA with emphasis on the bottom of the cover.

The technical result is achieved in that in a container for transporting and / or storing spent nuclear fuel, comprising a housing in which a cover is placed, including channels for installing spent fuel rods (SFA) and a central pipe, a protective sealing cover, made under the recess in the upper part case, the cover is equipped with clamping devices installed in its lower part, each opposite to the corresponding channel, characterized in that each clamping device is made in the form of a glass with There is a hole in the bottom where the axis is mounted, in its lower part there is a flange with a groove in which an unwanted spring is installed by means of a disk installed in the upper part of the axis, which can be moved along the axis, a second larger involuntary spring is installed between the cup and the disk, SFA have the ability to rely on the disk. The end face of the glass is made with an external flange having holes for installing bolts fastening the glass to the base of the cover. In the hole of the base of the cover between the base and the flange of the glass has a clip having a pad for abutting the disc from its outer side. The axis shank is threaded with a screw nut located on the outside of the disk. The inner surface of the glass in the lower part is made stepwise to stop the flange of the glass and the second spring. On the inside of the disc there is a groove in which the end of the first spring is mounted.

The proposed design of the container with the clamping device allows to exclude free longitudinal movement in the container of the case with or without SFA.

In FIG. 1 schematically shows a general view of the container, FIG. 2 - preload device.

The container for transportation and / or storage of spent nuclear fuel contains a housing 1 with a protective sealing cover 2. In the housing 1 there is a cover 3, including channels 4 for installing a SFA 5 and a central pipe 6 with a head under the load-gripping device (not shown in Fig.). The cover 3 is equipped with clamping devices installed in its lower part, each opposite the corresponding channel 4. The clamping device is made in the form of a glass 7 with a hole in the bottom, in which the axis is installed 8. The end face of the glass 7 is made with an external flange having holes for mounting bolts 9 fastening the glass 7 with the base of the cover 3. In the upper part of the axis 8 there is a disk 10, on its inside there is a groove a . In the lower part of the axis 8 there is a flange with a groove b. In the grooves a and b of the axis 8 and the disk 10 there is a cylindrical spring 11. Between the cup 7 and the disk 10, a second spring 13 of a larger diameter is installed. The shank of the axis 8 is made with a thread with a screwed nut 12, by means of which the springs 11 and 13 are crimped. The lower part of the axis 8 protrudes to a height h ₁ from the outer surface of the bottom of the cup for a possible spring travel 11. In the hole in the base of the cover 3 between its base and flange of the cup 7, a ferrule 14 is installed, having a pad in for resting on the disk 10 from its outer side so that a clearance h _{2 is} arranged for the possible travel of the spring 13. The inner surface of the cup 7 in the lower part has two steps g and d, it abuts against the first cup flange 7, in the second - spring 13. SFA 5 is placed on the disk 10.

The device operates as follows.

The preload device is fixed on the base of the container cover 3 along the axis of each channel 4, designed for SFA 5, using bolts. In an unloaded container, the cover is pressed against the cover 2 when it is secured to the container due to the compression force of the springs 11 (spring travel h ₁ ). When installing the SFA 5 in the channels of the case with support on the disk 10, the compression of the springs 11 and 13 takes place on a full stroke h ₁ and a partial stroke h ₂ . When fixing the cover 2 to the housing 1 due to the stop of the cover 2 in the head of the SFA 5, the springs 11 and 13 are crimped by up to 0.9 h ₂ , while the longitudinal movement of the SFA 5 with the cover 3 in the container is excluded.

The absence of gaps can reduce the impact of dynamic loads on the SFA and the possibility of damage during transportation in the container. In addition, the proposed design allows the transport of containers without SFA, while also reducing the dynamic effects on the case and the container body, which improves the performance of the container as a whole.

Claims (6)

1. A container for transportation and / or storage of spent nuclear fuel, comprising a housing in which a cover is placed, including channels for installing spent fuel rods (SFA) and a central pipe, a protective sealing cover, made under a recess in the upper part of the housing, the cover is equipped with devices clamp installed in its lower part, each opposite the corresponding channel, characterized in that each clamp device is made in the form of a glass with a hole in the bottom in which the axis is installed, in bo ttom part has a flange with a groove, wherein the spring means mounted zanevolennaya disk mounted in the upper part of the axis having the ability to move along an axis between the nozzle and the disk spring set zanevolennaya second larger diameter, SFA has on the disk. 2. The container according to claim 1, characterized in that the end face of the glass is made with an external flange having holes for installing bolts fastening the glass to the base of the cover. 3. The container according to p. 1, characterized in that in the hole of the base of the cover between the base and the flange of the glass has a clip having a pad for resting on the disk from its outer side. 4. The container according to claim 1, characterized in that the axis shank is threaded with a nut screwed on the outside of the disk. 5. The container according to claim 1, characterized in that the inner surface of the glass in the lower part is made stepwise to stop the flange of the glass and the second spring. 6. The container according to claim 1, characterized in that on the inside of the disk there is a groove in which the end of the first spring is mounted.

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