JPH09113687A - Apparatus for transporting and storing nuclear fuel assembly - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a new type of container for transporting and storing an unused unclear fuel assembly including uranium oxide and plutonium oxide, especially. SOLUTION: The container comprises a rigid casing 1 having polygonal, preferably square, cross-section for containing a nuclear fuel assembly 3. The casing 1 is provided, on the inner surface at each side wall part thereof, with at least one member 4 expanding to support the nuclear fuel assembly 3 after insertion thereof into the casing 1. In the container for transporting and storing an unused nuclear fuel assembly including uranium oxide and/or plutonium oxide, especially, the member 4 is expanded by applying a pressure using an elastomer or a low viscosity silicon paste.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device that enables transportation and storage of nuclear fuel assemblies. In particular, the present invention relates to an apparatus for an unused nuclear fuel assembly which has never been irradiated with radiation, which is intended to be used in the core of a nuclear reactor of a nuclear power plant.

The present invention relates to a casing configured as a device intended to contain a nuclear fuel assembly. At the time of transportation, the plurality of casings are housed in a housing device having an appropriate shape and structure, and the housing device is transported.

[0003]

As is well known, the core of a nuclear reactor is composed of nuclear fuel assemblies, and each nuclear fuel assembly is
It has a fuel rod or a fuel pin, a nozzle, and a grid for connecting the fuel rods. The entire nuclear fuel assembly forms a relatively deformable unit. Such nuclear fuel assemblies are arranged in parallel in the horizontal direction in the reactor vessel and extend in the vertical direction. More particularly, the core grid or plate is provided with a continuous guide pin for receiving the bottom of the nuclear fuel assembly.

Of course, the nuclear fuel assembly is not manufactured at a nuclear power plant but at a specific factory. Therefore, the nuclear fuel assembly needs to be transported between the manufacturing plant and the nuclear power plant under strict safety control.

Next to such safety management, it is necessary to take into consideration a trigger of a chain reaction that guides a nuclear reaction process.
(tiggering). The occurrence of such a trigger must be absolutely prevented by means of proper isolation of the respective nuclear fuel assemblies and / or immersion of the nuclear fuel bodies in a liquid that reduces or blocks neutrons. .

[0006]

At present, it is known to transport a nuclear fuel assembly by putting it in an accommodation device.
However, regarding the use of new types of nuclear fuel assemblies, it is desirable to manufacture new types of containment equipment in response to new transport-related constraints.

It is therefore an object of the present invention to provide a new type of device for the transport and storage of virgin nuclear fuel assemblies, especially containing uranium oxide and plutonium oxide.

[0008]

The device is constructed with a rigid polygonal casing, which preferably has a square cross section, in which the nuclear fuel assembly is installed. This device has a
At least one inflatable member is provided. This member is used so that when the nuclear fuel assembly is housed in the casing and the member is expanded, it abuts and supports the nuclear fuel assembly.

In this way, by using the expandable member, a force acting on each surface of the nuclear fuel assembly is given, so that a certain binding force is given to the combination of the casing and the nuclear fuel assembly. .

In the present invention, the expansion of the inflatable member is made especially by an elastomer or a low viscosity silicone paste.
It is carried out by pressing the member using (silicone paste). The operating pressure of the elastomer or silicone paste reaches 50 * 10 ⁵ Pascal.

In a first embodiment of the invention, these inflatable members are installed as annular cushions spaced at predetermined intervals along the casing, all of which are pressure chambers. The pressurization chamber provides interconnection between the plurality of cushions.

Pressurization is effected by a plunger piston that penetrates the pressurization chamber and is controlled by a screw / nut system. The plunger piston is preferably installed in the upper part of the casing, which allows the casing to be operated when the casing is oriented vertically, horizontally or in any other direction. .

The inflatable member is preferably formed from a flexible diaphragm formed from a metal or elastomer that is deformable under pressure provided by the elastomer or silicone paste. The diaphragm is fixed to a metal chassis formed as an annular gutter, and the chassis is preferably fixed to the inner surface of the side wall portion forming the casing by welding.

According to another embodiment of the invention, the outer casing (13) is open at one side wall,
As a result, the nuclear fuel assembly can be inserted from the lateral direction, and the nuclear fuel assembly is closed by the last side wall portion. The three side walls of the casing are fixed to each other and are fitted with linearly extending inflatable flanks to form the casing. The last side wall also comprises a flank that has already been expanded and is secured to the remaining side wall of the casing after the nuclear fuel assembly has been laterally inserted.

[0015]

DETAILED DESCRIPTION OF THE INVENTION Embodiments of the present invention and advantages obtained from the present invention will become more apparent from the following description of exemplary embodiments of the present invention. The following description is provided with reference to the following drawings, which are intended to be illustrative rather than limiting.

FIG. 1 is a longitudinal sectional view showing a transportation and storage device according to the present invention. FIG. 2 is a sectional view taken along the line II-II of FIG. FIG. 3 is a perspective view showing another embodiment of the present invention. FIG. 4 is a cross-sectional view showing the device shown in FIG.

FIG. 1 shows a first embodiment of the device according to the invention for storing and transporting virgin nuclear fuel assemblies, in particular plutonium oxide.

The device basically consists of a parallelepiped casing 1 made of stainless steel or another material suitable for the nuclear environment, for example titanium.
One end of this casing is closed, and the other end can be closed by the cover 2. This cover 2
By removing, the nuclear fuel assembly is inserted through the upper end.

According to one feature of the invention, a plurality of cushions 4 are provided along the casing. Substantially, these cushions 4 consist of a chamber 11 made of stainless steel, which is fixed to the inner surface of the side wall forming the casing, preferably by welding. Further, each chamber 11 is configured to have a flexible metal diaphragm 9 that is convex toward the inside of the casing due to the effect of the pressure generated in the cushion. Each cushion is connected to the cushions of the same height in a ring shape, and is also connected to an upper cushion or a lower cushion. Such a connection is realized by a hydrostatic mechanism using the pressure chamber 6, and a hydrostatic connection structure is formed. The pressurizing chamber 6 is also connected to the support chamber 5 installed at the lower end of the casing. further,
An auxiliary member 7 having a structure similar to that of the support chamber 5 is provided at the upper end of the casing.

The height of the cushion is set so as to correspond to various heights of the grid 16 and the nozzle 17 connecting the nuclear fuel assemblies. Further, although there are small variations in the intervals between the nuclear fuel assemblies, the height of the cushion is adapted to such variations.

According to a basic feature of the invention, these cushions and pressure chambers are designed to contain a compressible fluid, usually an elastomer or a low viscosity silicone paste. This compressible fluid is
4% to 5% of volume under a pressure of about 50 * 10 ⁵ Pascal
Has a compression ratio of.

In practice, the nuclear fuel assembly 3 is contained in the casing.
, The plunger piston 8 controlled by a screw / nut system or similar system, which is preferably provided at the upper end of the casing,
The pressure chamber 6 is pressurized. Plunger piston
By being provided on the upper part of the casing, it is possible to operate the device regardless of whether the casing is placed vertically or horizontally. Further, since all the cushions 4 are hydrostatically connected to each other, the inner surface of each side wall portion of the casing can apply uniform pressure to the nuclear fuel assembly. This allows
The nuclear fuel assembly is completely contained within the casing, giving the casing with the nuclear fuel assembly a very high level of structural rigidity.

Preliminary pressurization of the cushion 4 is preferably carried out so that the nuclear fuel assembly is in uniform contact with the casing at all sites, after which a force is applied to the nuclear fuel assembly. Overpressure is applied to ensure retention of the nuclear fuel assembly over time and uniformly. At this time, a certain degree of freedom is given to the nuclear fuel assembly, which makes it possible to prevent the generation of stress, which is caused by the inherent movement of the material forming the nuclear fuel assembly due to thermal expansion. .

As described above, the nuclear fuel assemblies can be vertically loaded into the storage equipment, then tilted horizontally and transported by road or rail.

In another embodiment of the invention shown in FIGS. 3 and 4, the nuclear fuel assembly is laterally housed in a casing. In this embodiment, the casing 13 likewise has the form of a parallelepiped,
One side wall portion 12 forming the casing is detachable. In this case, the inflatable cushion is formed as a linear member or a flank 14 installed along the inner surface of each of the three side walls of the casing 13. As with the previous embodiments, each cushion is connected to a pressure and hydrostatic connection chamber (not shown).

Also, on the last removable side wall portion 12,
A cushion 15 is provided. However, this cushion 15 is already pressurized and in its expanded configuration. By fixing this last side wall to the casing, the casing is closed and pressure is applied to the nuclear fuel assembly.
Also in this embodiment, as in the previous embodiment,
The structure of the casing is designed to allow circulation of liquids, which are preferably aqueous borate solutions to suppress or block neutrons. This allows transportation and / or storage to be carried out under very severe conditions.

In addition to its primary functions of nuclear fuel assembly retention and force control, the system of cushions
It has the function of protecting the nuclear fuel assemblies from the effects of vibrations that occur during transportation or the impact of accidents.

Furthermore, the device described above has a very compact construction, especially with respect to the holding system. Also, since the casing has a very small cross section,
It is possible to increase the number of nuclear fuel assemblies housed in the housing equipment unit and transported by the transportation vehicle. This makes it possible to reduce transportation costs without lowering the level of safety management.

Furthermore, the depressurization of the cushion can be carried out very simply, without the risk of the nuclear fuel assembly getting stuck in the casing.

Finally, the temperature inside the casing is increased to 2 without damaging the casing, especially the elastomeric paste.
It is possible to raise it to 50 ° C.

[Brief description of the drawings]

1 is a longitudinal cross-sectional view showing a transportation and storage device according to the present invention.

FIG. 2 is a sectional view taken along the line II-II of FIG.

FIG. 3 is a perspective view showing another embodiment of the present invention.

4 is a cross-sectional view showing the device shown in FIG.

[Explanation of symbols]

 1,13 Casing 3 Nuclear fuel assembly 4 Cushion (expandable member) 6 Pressurizing chamber 8 Plunger piston 9 Diaphragm 11 Chamber 12 Side wall part 14 Frank (expandable member) 15 Frank

Claims (8)

[Claims] 1. A rigid casing (1, 13) for accommodating a nuclear fuel assembly and having a polygonal cross-section, in particular a square is preferred, which casing (1, 13) comprises , At least one inflatable member (4, 14) for supporting the nuclear fuel assembly by expanding after the nuclear fuel assembly is inserted into the casing, is provided on the inner surface of each side wall portion, In an apparatus for transporting and storing a fresh nuclear fuel assembly (3), especially containing uranium oxide and / or plutonium oxide, the expansion of the inflatable members (4, 14) is particularly elastomeric or of low viscosity. A device for transporting and storing a fresh nuclear fuel assembly, characterized in that it is carried out by pressing with a silicon paste. 2. The apparatus for transporting and storing unused nuclear fuel assemblies according to claim 1, wherein the operating pressure of said elastomer or said silicon paste reaches up to 5.0 * 10 ⁵ Pascal. For transporting and storing unused nuclear fuel assemblies. 3. A device for transporting and storing unused nuclear fuel assemblies according to claim 1 or 2, wherein the inflatable member (4) is selectively along the casing. An unused cushion, characterized in that it is provided as annular cushions arranged at regular intervals, all these cushions (4) being connected to a pressure chamber (6) interconnecting between said plurality of cushions For transporting and storing nuclear fuel assemblies of. 4. A device for transporting and storing unused nuclear fuel assemblies according to claim 3, wherein all the cushions (4) installed in the casing are kept hydrostatically balanced. For transporting and storing unused nuclear fuel assemblies. 5. A device for transporting and storing unused nuclear fuel assemblies according to claim 3 or 4, wherein the expandable member (4) is provided by the elastomer or the silicon paste. A chamber having a flexible diaphragm (9) made of a metal or an elastomer that is deformable under a given pressure, the diaphragm (9) being fixed to an inner surface of a side wall portion of the casing (1). Device for transporting and storing unused nuclear fuel assemblies, characterized in that they are fixed to (11). 6. A device for transporting and storing unused nuclear fuel assemblies according to claim 1 or 2, characterized in that the nuclear fuel assemblies (3) are inserted laterally.
The outer casing (13) is open at the position of one side wall part (12), said side wall part (12) being able to close said casing (13), constituting said casing and fixed to each other. A linearly extending inflatable flank (14) connected to the pressurization chamber is attached to each of the three side walls provided, and the last side wall (12) is provided with an already expanded flank (14). 15) is attached, and after the nuclear fuel assembly is laterally inserted, the side wall portion (12) is fixed to the casing, for transporting and storing an unused nuclear fuel assembly. apparatus. 7. An apparatus for transporting and storing an unused nuclear fuel assembly according to any one of claims 1 to 6, wherein expansion of the inflatable member (4, 14) comprises: Device for transporting and storing unused nuclear fuel assemblies, characterized in that it is carried out by means of a plunger piston (8) which penetrates the pressure chamber (6) and is controlled by a screw / nut system. 8. The apparatus for transporting and storing unused nuclear fuel assemblies according to claim 7, wherein the casing operates regardless of whether the casing is installed vertically or horizontally. Device for transporting and storing unused nuclear fuel assemblies, characterized in that the plunger piston (8) is installed at the upper end of the casing (1, 13), as possible.