KR101946633B1 - Jig for charging nuclear fuel rod - Google Patents

Abstract

The present invention relates to a jig for holding a fuel rod, and more particularly, to a fuel jig for holding a fuel rod in a cut fuel rod container, in which a maximum number of fuel rod holding cans can be loaded in a predetermined space, To a jig dedicated to holding a fuel rod. More specifically, the jig dedicated to the fuel cell storage can of the present invention has a plurality of charging holes into which fuel cell storage cans for storing the spent fuel rods of the spent fuel are mounted, And is mounted on the upper end of a rod cuts container (RCC).

Description

Jig for charging nuclear fuel rod}

The present invention relates to a jig dedicated to holding a fuel rod, and more particularly, to a fuel jig for storing a fuel rod in a cut fuel rod container for temporary storage of a fuel rod can, The present invention relates to a jig dedicated to a fuel cell storage cans for facilitating identification when a fuel cell storage can is taken out when necessary.

A nuclear fuel assembly used in a conventional pressurized water reactor (PWR) nuclear power plant is designed and manufactured to burn in a high-temperature, high-pressure, high-pressure atmosphere by means of a nuclear reaction. Hundreds of nuclear fuel rods are usually assembled into one assembly .

A spent nuclear fuel rod or irradiated material irradiated from nuclear reactors or research reactors of a nuclear power plant has a sufficient radiation shielding and ventilation system in order to prevent radiation exposure of workers because strong radiation is emitted for a long period of time. After the fuel rod is cut from the hot cell, the specimen is manufactured by mounting.

At this time, for the destruction test of the spent nuclear fuel rod, the fuel rod of about 4 m in length is cut to collect the sample, and the remaining fuel rod of about 3.5 m depending on the sampling length is cut and put in the fuel rod storage can.

The fuel-cell storage can is then loaded into a cut-off rod container (RCC) in the storage pit of the hot cell for temporary storage.

However, because the cut fuel bar container in the hot cell storage pit is in a deep position for radiation shielding, the remote control does not reach it and it is difficult to identify the inside of the container.

Therefore, the fuel rod can is dropped on the cut fuel rod container, or is loaded by the crane.

Loaded fuel rod storage can is inclined because it is small in diameter and long in length. That is, the fuel rod storage can is not stood straight up in the cut fuel rod container, but is inclined, so that many fuel rod storage cans can not be loaded in the cut fuel rod container.

When inspecting the nuclear inspections, it is necessary to inspect the inside of the cut-off fuel rod container because the inside of the cut fuel rod container can not be seen when the inspecting pipe needs to be taken out or the self-required fuel rod storing can is taken out again. However, It is difficult to distinguish which fuel rod is shown by only the upper part of the storage can. In this case, it may be necessary to remove all the loaded fuel rods.

Korean Patent Laid-Open Publication No. 1988-0014585 (published on December 24, 1988, name: Baskets for Nuclear Fuel Transport Cask)

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems as described above, and it is an object of the present invention to provide a fuel cell system capable of storing as many fuel cell storage cans as possible in a certain space, The present invention provides a jig dedicated to a fuel cell storage can for facilitating identification of a can when it is taken out, and a method for loading and unloading a fuel cell storage can into a cut fuel cell container using the jig.

The jig dedicated to the fuel cell storage can according to the embodiment of the present invention can be used as a cutting fuel rod container (RCC: rod dutscontainer (RCC)) in a hot-cell storage pit for temporarily storing spent fuel rods used for research, A plurality of loading holes into which fuel rods can be stored for storing the fuel rods of the spent nuclear fuel are formed, an upper frame having a plurality of the loading holes, A lower frame which is inserted into the upper portion of the cut fuel rod container at a predetermined depth and which is installed to be protruded outwardly and which is hooked to the upper end of the cut fuel rod container; Wherein the loading hole is formed in the fuel rod The fuel rods are guided into the cut-off fuel rod container to be inserted into the cut fuel rod container, the upper portion of the fuel rod holding can contained in the cut fuel rod container is restrained to the loading hole, So that the fuel rod can is retained in the cut fuel rod container.

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The method of loading and unloading a fuel cell storage can using the jig for holding a fuel rod as described above includes a first step of opening a lid of a hot cell storage pit and inserting a cut fuel rod container, a second step of opening a lid of the cut fuel rod container And a fourth step of inserting the fuel rod storing can in a charging hole of the jig for exclusive use of the fuel rod storing can.

The jig for holding the fuel cell can keep the fuel can storing container in the cut fuel cell container upright so that the maximum number of the fuel cell storing can can be loaded in a certain space.

In addition, the jig for holding the fuel can keep the fuel rods according to the embodiment of the present invention is advantageous in that it can be identified when the fuel can storage can is taken out, if necessary.

The remaining capacity of the cut fuel rod container can be grasped by confirming the number of the empty charging holes in a state where the jig dedicated to holding the fuel can be stored in the cut fuel rod container according to the embodiment of the present invention, It is possible to accurately determine whether or not the operation progresses.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a conventional fuel cell storage can loading state. FIG.
2 is a perspective view of a jig dedicated to a fuel cell storage can according to an embodiment of the present invention.
3 is a plan view of a jig dedicated to holding a fuel rod in accordance with an embodiment of the present invention.
4 is a schematic view showing a state in which a jig dedicated to a fuel cell storage can according to an embodiment of the present invention is mounted on a cut fuel rod container in a hot cell storage pit.
FIG. 5 is a view showing a state where the hot cell storage pit of FIG. 4 is closed by a lid;
6 and 7 are perspective views of a jig dedicated to a fuel cell storage can according to another embodiment of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a fuel jig for holding a fuel can, which has the above-described features, and a drawing-out method thereof will be described in detail with reference to the accompanying drawings. It is to be noted that the same elements among the drawings are denoted by the same reference numerals whenever possible.

2 and 3 relate to a perspective view and a plan view of a fuel jig 1 for holding a fuel can according to an embodiment of the present invention. And is mounted on the cut fuel rod container 3 in the hot cell storage pit 4.

2 to 4, a jig 1 for a fuel cell storage can according to an embodiment of the present invention includes a loading hole (not shown) in which a fuel rod 2 is stored, 110 are mounted on the upper end of a cut fuel container 3 (RCC) in a hot-cell storage pit 4.

In general, spent nuclear fuel rods and irradiated materials irradiated from nuclear reactors or research reactors of nuclear power plants are exposed to strong radiation for a long time. Therefore, in order to prevent radiation exposure of workers, radiation shielding and ventilation The cut fuel cell container 3 is mounted in the hot cell storage pit 4 in which the system is sufficiently equipped and the fuel rod is stored therein.

The present invention relates to a jig mounted on a cut fuel rod container (3) mounted in a hot cell storage pit (4), and is removably attached as needed.

The jig 1 for storing a fuel can according to an embodiment of the present invention includes an upper frame 100, a lower frame 300, and a support plate 200 .

The upper frame 100 and the lower frame 300 are formed with a plurality of loading holes 110 into which the fuel rod storing can 2 is inserted and the overall shape is formed to correspond to the cut fuel rod container 3 .

Generally, the inner space of the cut fuel rod container 3 is formed in a cylindrical shape. In this case, as shown in FIGS. 2 and 3, the upper frame 100 and the lower frame 300 may be formed in a substantially cylindrical shape.

A plurality of charging holes 110 are formed in the upper frame 100 and the lower frame 300 from the upper end of the upper frame 100 to the lower end of the lower frame 300.

In this case, the lower frame 300 refers to a region where the lower frame 300 is inserted into the upper portion of the cut fuel rod container 3 at a certain depth, and the outer circumferential face is formed to be in close contact with the inner peripheral face of the cut fuel rod container 3, It is preferable that the jig 1 for storing the fuel can keeping cans according to the embodiment is stably mounted at a predetermined position without shaking when the jig 1 is mounted on the cut fuel bar container 3. [

The lower frame 300 is in close contact with the inner circumferential surface of the cut fuel rod container 3 so that the jig 1 can be detached from the cut fuel rod container 3, Is preferably formed.

The support plate 200 is formed by protruding the outer circumferential surface between the upper frame 100 and the lower frame 300 and is hooked on the upper end of the cut fuel rod container 3, The lower frame 300 positioned on the lower side is inserted into the cut fuel rod container 3 and the upper frame 100 positioned on the upper side is positioned outside the upper side of the cut fuel rod container 3

The support plate 200 is protruded along the outer circumferential surface between the upper frame 100 and the lower frame 300. The support plate 200 may protrude from the outer circumferential surface or may protrude at a predetermined distance.

As described above, the support plate 200 allows the lower frame 300 to be inserted into the cut fuel rod container 3, and the jig 1 for holding the fuel rod can be caught at a certain depth, It is not inserted into the container 3 and can be changed into any other form as long as it can be hooked on the upper end of the cut fuel rod container 3. [

The jig for exclusive use of the fuel cell storage can according to the present invention can confirm the remaining capacity of the cut fuel cell container 3 by confirming the number of the empty charging holes 110 while being inserted into the cut fuel cell container 3 When the remaining capacity remains, only the lid 5 of the hot cell storage pit is closed and the cut fuel cell container 3 is kept in the hot cell storage pit 4.

Therefore, the upper frame 100, which is mounted in a protruded state outside the upper portion of the cut fuel rod container 3, is smaller in height than the height difference between the hot cell storage pits 4 and the cut fuel rod container 3 It is preferable that the hot cell storage pits 4 can be sealed by the lid.

5 shows a state in which the hot cell storage pit 4 of FIG. 4 is closed by a lid. As shown in FIG. 5, the upper frame 100, which is located above the cut fuel rod container 3, The lid 5 of the hot cell storage pit can be completely closed.

6, the jig 1 for holding the fuel can holds the fuel rods according to the embodiment of the present invention is provided with an identification symbol such as numerals or alphabets for each of the installation holes 110 of the upper frame 100 .

As described above, when the remaining capacity of the fuel cell storage container 3 is sufficient to load the fuel cell storage can 2, only the lid 5 of the hot cell storage pit is closed and kept in the hot cell storage pit 4 , The International Atomic Energy Agency (IAEA), or when taking out the fuel rod itself, it is difficult to identify which fuel rod the container inside is dark and the upper part of the fuel rod storage can (2) So that the fuel rod can be distinguished.

Particularly, since the jig 1 for the fuel cell storage can according to the embodiment of the present invention is mounted so that the upper frame 100 protrudes upward from the cut fuel box container 3, It is easy to check the identification symbol displayed on the upper frame 100 located adjacent to the inlet of the hot cell storage pit 4 so that the necessary fuel rods can be found at a time even if the fuel cell 3 is stored deeply.

7, a jig mounting wire 400 is connected to the upper frame 100 or the support plate 200 so that the jig 1 can be easily attached and detached through a crane. It is possible.

Hereinafter, a description will be made of a method for taking out and storing the fuel cell storage can 2 using the above-described jig 1 for storing a fuel rod holding can.

First, the method of pulling the fuel cell storage can 2 includes a first step of opening the lid 5 of the hot cell storage pit and inserting the cut fuel rod container 3 and a second step of opening the lid of the cut fuel rod container 3 A third step of installing a fuel jig (1) for storing the fuel rods on the cut fuel rod container (3); and a step of disposing the fuel rod holding can (2) And a fourth step of inserting into the hole 110.

At this time, in the first to fourth steps, the transfer of the fuel cell storage can 2, the transfer of the hot cell storage pit 4 and the cutting fuel rod container 3, and the opening and closing of the lid are performed using a remote controller and a crane .

To explain again, in the method of pulling the fuel cell storage can 2, the lid 5 of the hot cell storage pit is opened using a crane, and the cut fuel cell container 3 is inserted.

Next, the lid bolts of the cut fuel rod container 3 are disassembled using a remote controller and a wrench, and then the lid is lifted using a crane to store the lid in another place in the hot cell storage pit 4.

Next, a jig (1) dedicated to storing fuel rods is installed on the cut fuel rod container (3) using a remote controller and a crane.

Next, the fuel rod holding can 2 is inserted into the charging hole 110 of the jig with the remote controller and the crane.

The subsequent process will depend on whether or not the remaining capacity of the cut-off fuel rod container 3 can be filled with the fuel rod can 2.

If the capacity to load the fuel cell storage can 2 remains in the cut fuel cell container 3, only the lid of the hot cell storage pit 4 after the fourth step is closed and stored in the hot cell storage pit 4 .

When the fuel cell storage can 2 loaded in the cut fuel rod container 3 is taken out, a drawing means such as a hook is connected to the loading hole 110 of the jig 1 for holding the fuel rod, Remove the fuel rod storage can (2).

When all of the fuel cell storage containers 2 have been loaded in the cut fuel cell container 3, the jig 1 for the fuel cell storage can is removed and the lid of the cut fuel cell container 3 is closed, pool.

The fuel jig 1 for storing a fuel can according to the embodiment of the present invention can keep the fuel rod can 2 in an upright position in the cut fuel rod container 3, It is possible to load as many fuel rod storage can (2) as possible in the space.

Also, the jig for exclusive use of the fuel cell storage can according to the embodiment of the present invention can identify the fuel cell storage can 2 when it is withdrawn, if necessary, thereby reducing the work process and time compared to the existing system.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Modification is possible. Therefore, it is to be understood that the spirit of the present invention is to be understood by the appended claims, and all equivalent or equivalent variations thereof fall within the scope of the present invention.

1: How to draw out the fuel can storage cans
2: Fuel rod storage can
3: Cutting fuel rod container
4: Hot cell storage feet
5: Hot cell storage pit lid
100: upper frame
110: Loading Hall
200: Support plate
300: Lower frame
400: wire

Claims (10)

(RCC) in a hot-cell storage pit for temporary storage so that the spent fuel rod used for research can be taken out as needed. The fuel rods are detachably mounted on the top of a cut fuel rod container (RCC)
A plurality of charging holes into which fuel rod storing cans for storing the cut fuel rods of spent nuclear fuel are mounted are formed,
An upper frame having a plurality of the charging holes,
A lower frame formed by extending a loading hole of the upper frame downwardly and inserted into the upper portion of the cut fuel rod container at a predetermined depth,
And a support plate formed to protrude outward from an outer circumferential surface between the upper frame and the lower frame and to be hung on an upper end of the cut fuel bar container,
The charging hole
The fuel rod can is guided into the cut fuel rod container to be inserted into the cut fuel rod container and the upper portion of the fuel rod storage can contained in the cut fuel rod container is restrained to the loading hole,
Wherein an inner diameter of the loading hole is formed to correspond to the fuel rod storing can, so that the fuel rod holding can accommodated in the cut fuel rod container stays upright.
delete The method according to claim 1,
The height of the upper frame
And a height difference between the hot cell storage pit and the cut fuel cell container is smaller than or equal to a height difference between the hot cell storage pit and the cut fuel cell container. The method according to claim 1,
The upper frame
And an identification symbol is displayed for each of the charging holes.
The method according to claim 1,
The lower frame
And the outer circumferential surface is in close contact with the inner circumferential surface of the cut fuel rod container.
The method according to claim 1,
The jig dedicated to the fuel rod storage can
And a jig mounting wire is connected to the upper frame or the support plate.
A method of drawing out a fuel can storage container using a jig for holding a fuel rod according to any one of claims 1 to 6,
A first step of opening the lid of the hot cell storage pit and inserting the cut fuel rod container;
A second step of opening a lid of the cut fuel rod container;
A third step of installing a jig dedicated to the fuel cell storage can on the cut fuel cell container; And
A fourth step of inserting the fuel rod storing can into a charging hole of a jig for exclusive use of the fuel rod storing can; Wherein the fuel rod is provided with a plurality of fuel rods.
8. The method of claim 7,
The method for withdrawing the fuel rod storage can
The method of any one of claims 1 to 4, wherein a remote controller and a crane are used for the transfer of the fuel cell storage can, the transfer of the hot cell storage pit and the cut fuel cell container, and the opening and closing of the lid.
8. The method of claim 7,
The method for withdrawing the fuel rod storage can
If the capacity for loading the fuel cell storage container remains in the cut fuel cell container, only the hot cell storage pit lid is closed after the fourth step to store the cut fuel cell container in the hot cell storage pit,
When the fuel rod holding can is completely loaded in the cut fuel rod container, the jig for removing the fuel rod holding can is removed, and the lid of the cut fuel rod container is closed to transfer the cut fuel rod container to another storage pool Of the fuel rod.
10. The method of claim 9,
The method for withdrawing the fuel rod storage can
Wherein when the fuel cell storage can is loaded in the cut fuel cell container, the fuel cell storage can is taken out by inserting the withdrawing means into the charging hole of the jig for holding the fuel cell.

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