JP3411902B2 - Closed container for transport storage - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transportation and storage closed container for storing radioactive substances that generate heat and for transporting and storing the radioactive substances, a so-called transportation and storage cask.

[0002]

2. Description of the Related Art Highly radioactive substances typified by spent fuel in nuclear reactors are dismantled and reprocessed to recover useful substances such as plutonium which can be used as fuel again. Usually, the spent fuel is stored in a closed container for transportation and storage, that is, a so-called transportation and storage cask in an electronic power plant, and is transported to a reprocessing facility by a truck or the like and stored. Since such a spent fuel is a highly radioactive substance, the transportation and storage cask containing it has a high sealing property and shielding property against a radioactive substance, and its sealing property and long-term It is necessary to maintain the shielding property.

Generally, a cask for transportation and storage is formed of a metal such as stainless steel or carbon steel and has a container main body with an open upper end, and a neutron covering the outer periphery of the container main body formed of, for example, a synthetic resin of a polymer material. And a shield, and the upper end opening of the container body is closed by a primary lid and a secondary lid. These primary lids and secondary lids are bolted to shoulders provided on the upper end of the container body, respectively, and the sealing surface between the container body and the primary lid and the sealing surface between the container body and the secondary lid. Each is provided with a metal gasket.

A spent fuel assembly is accommodated in the container body while being supported by a basket. Further, the container body is filled with helium gas in a negative pressure state or a positive pressure state. On the other hand, the primary lid and the secondary lid are arranged with a predetermined gap therebetween to form a closed space. Further, in this closed space, helium or the like is sealed in a pressurized state, that is, in a positive pressure state. By detecting the pressure in the closed space, it is possible to detect the closed state of the cask, that is, the soundness.

[0005]

In the transportation and storage cask configured as described above, there is a possibility that an accident such as a drop or a fall may occur during transportation or during unloading work.
Even if it receives a large impact from a fall, especially when the cask falls from the lid side, the primary and secondary lids have sufficient sealing function to ensure that the cask seals and shields against radiation. There is a need to.

The metal gasket used for the seal portion of the above-mentioned primary lid and secondary lid can withstand use under high temperature and high dose conditions and can maintain high hermeticity for a long period of time. If the lid is slightly opened or displaced due to impact, etc., the airtightness will be reduced and leakage may occur.

Therefore, in order to ensure the sealing and shielding of the cask against radiation, it is necessary to take measures to more surely prevent the cask from being deteriorated due to falling or falling.

Therefore, the present invention has been made in view of the above points, and an object thereof is to maintain a high airtightness even when a drop or a fall occurs, and to improve the safety and reliability of the airtight container for transportation and storage. To provide.

[0009]

Means for Solving the Problems] To achieve the above object, transport storage for sealed container according to the invention, that is radioactive material housed inside with has an upper opening ho <br/> pot A tubular metal container body, a neutron shield that covers the periphery of the container body, and is installed in the upper end opening of the container body to close the upper end opening, and the container body by a metal seal The primary lid whose contact part with is sealed , and the radioactive substance in the container body when falling falls into the primary lid.
When it collides with, it is mounted in the upper end opening of the container body so as to overlap the primary lid so as to receive the impact and closes the upper end opening, and the contact portion with the container body is sealed by a metal seal. Secondary lid and above primary lid
As you inspection space formed between the secondary lid, and shock absorber which is mounted on the upper end of the container body, comprising the.

That is, according to the transportation and storage hermetic container having the above-described structure, the primary lid and the secondary lid, which are respectively attached to the upper end opening of the container body and are hermetically sealed by the metal seal, are dropped.
Radioactive material in the container body collides with the primary lid when the
When stacked, they are placed on top of each other so as to receive the impact.
Has been. Furthermore, the closed container for transportation and storage is
It has a shock absorber mounted on the upper end .

Therefore, when the closed container is dropped or overturned during transportation or unloading work, particularly when the closed container is dropped from the upper end side, the impact of the drop can be reliably absorbed by the shock absorber. At the same time, even if the radioactive substance inside the container body collides with the primary lid from the inside at the time of dropping, the impact at that time is not affected by the primary lid and the secondary lid.
Furthermore, it can be received by a shock absorber.

Therefore, even if the closed container is dropped from the upper end side thereof, it is possible to reliably prevent the opening and displacement of the primary lid and the secondary lid and the metal seal, and to maintain a high hermeticity. A closed container for transport storage can be obtained.

Further, according to the transportation storage closed container according to the present invention, the secondary lid has an inner surface which is formed in a concavo-convex shape so as to form a detection space, and which is in contact with the outer surface of the primary lid and faces the outer surface. It contacts about 50% or more of the outer surface of the primary lid.

Further, according to the transportation and storage hermetic container according to the present invention, the shock absorber is attached to the main body formed of the shock absorbing material and is in contact with the outer surface of the secondary lid. And a reinforcing plate made of metal provided by the above. By providing such a reinforcing plate, it is possible to further improve the strength against impact and reliably prevent the displacement of the primary lid and the secondary lid and the opening and displacement of the metal seal when dropped.

[0015]

DETAILED DESCRIPTION OF THE INVENTION A transportation and storage cask according to an embodiment of the present invention will be described in detail below with reference to the drawings. As shown in FIG. 1 and FIG. 4, the cask according to the present embodiment has a substantially cylindrical container body 10 formed of a metal such as stainless steel or carbon steel, and a gap outside the container body, and An outer cylinder 12 arranged coaxially with the container body and constituting the outer surface of the cask, and the container body 1
0 and the outer cylinder 12, and functions as a neutron shield, for example, a resin layer 14 made of a polymer material containing hydrogen. The outer cylinder 12 is fixed to the outer peripheral surface of the container body 10 via a large number of heat transfer fins 16 that are spaced apart from each other along the circumferential direction.

The lower end opening of the container body 10 is closed by a bottom plate 18 welded to the lower end of the container body.
A recess is formed on the outer surface of the bottom plate 18, and a resin 19 as a neutron shielding material is enclosed in the recess.

As shown in FIGS. 1 and 2, the container body 1
The inner peripheral portion of the upper end opening of 0 is formed in a stepped shape.
A primary lid 20 is attached to the upper end opening of the container body 10 to close the upper end opening, and a secondary lid 22 is attached to the primary lid 20 to close the upper end opening. The primary lid 20 and the secondary lid 22 are made of metal such as stainless steel and carbon steel.

More specifically, the primary lid 20 is mounted in the upper end opening of the container body 10, and its outer peripheral flange portion is fixed to the shoulder portion 11 of the container body 10 by a plurality of bolts 24. A contact portion between the primary lid 20 and the container body 10, that is, a portion between the flange and the shoulder portion 11 is sealed by a metal gasket 26 that functions as a metal seal.

The secondary lid 22 is attached to the upper end opening of the container body 10, and its outer peripheral flange portion is fixed to the upper end surface of the container body 10 by a plurality of bolts 28.
The contact portion between the secondary lid 22 and the container body 10, that is, the flange and the upper end surface of the container body is sealed by a metal gasket 30 that functions as a metal seal.

The secondary lid 22 has an inner surface 22a facing the outer surface of the primary lid 20, which is orthogonal to the central axis of the container body 10, that is, the upper surface, and the inner surface has an inspection space required for monitoring. A large number of concaves and convexes are formed for defining. Specifically, a plurality of recesses 32 are formed on the inner surface 22a of the secondary lid 22. The inner surface 22a of the secondary lid 22 is provided in close contact with the upper surface of the primary lid 20 except for the recess 32. The inner surface 22a of the secondary lid 22 is
It is desirable to contact about 50% or more of the outer surface of the primary lid 20. In addition, a plurality of recesses 3 are formed on the upper surface side of the secondary lid 22.
4 are formed, and a resin 36 as a neutron shielding material is enclosed in these recesses. Further, the tightening force of the bolts 24, 28 that fix the primary lid 20 and the secondary lid 22 is set to a value such that the primary and secondary lids do not shift when dropped. Further, in order to suppress the displacement of the lid, the fitting error in the radial direction of the primary lid 20 and the secondary lid 22 with respect to the upper end opening of the container body 10 is set to 2 mm or less in diameter.

On the other hand, as shown in FIGS. 2 and 3, the metal gasket 26 that hermetically seals between the flange of the primary lid 20 and the shoulder portion 11 of the container body 10 has an annular shape formed on the primary lid 20 side. It is arranged in the groove 37. The metal gasket 26 has a double structure of an inner ring and an outer ring, and is resistant to corrosion and high temperature oxidation by Inconel (trade name: 16% chromium, 7% iron).
A coil spring 24 manufactured by using a Nisokkel alloy containing the same is covered with an inner envelope also using Inconel, and further, the inner and outer rings are collectively covered by an outer envelope 39 made of aluminum.

Then, the metal gasket 26 is constructed such that the outer envelope 39 portion is fixed by the bolt 40 to the primary lid 20.
It is arranged in the annular groove 37 in a state of being fixed to. The metal gasket 30 that hermetically seals between the flange of the secondary lid 22 and the upper end surface of the container body 10 has the same structure as the metal gasket 26 described above. As these metal gaskets 26 and 30, for example, "Tri-back" manufactured by Nippon Bulker Co., Ltd. or "Helicoflex seal" manufactured by CEFILAC in France, which has a large number of uses in nuclear casks, can be used. .

As shown in FIGS. 1 and 4, a large number of spent fuel assemblies 42 are stored in the container body 10 constructed as described above while being supported by the basket 42. The basket 42 is made of a composite material of boron (B) and aluminum or SUS.
Further, the container body 10 is filled with helium gas in a negative pressure state or a positive pressure state. On the other hand, a plurality of recesses 3
A closed space functioning as an inspection space for monitoring is formed between the primary lid 20 and the secondary lid 22 by 2.
The positive pressure is maintained in this closed space. This allows
A pressure barrier is created between the inside and outside of the cask, allowing monitoring.

As shown in FIG. 2, the primary lid 20 has a valve 46 for replacing the gas in the container body 10.
Is provided, and the valve 46 is covered by a valve cover 47. A metal gasket 48 having the same structure as the above is also interposed between the primary lid 20 and the valve cover 47.

As shown in FIGS. 1 and 2, the cask according to the present embodiment is provided with shock absorbers, that is, shock absorbers 50 and 52 mounted on the upper end and the lower end of the container body 10, respectively. There is. Since the shock absorbers 50 and 52 have the same configuration, only one shock absorber 50 will be described as a representative.

The shock absorber 50 has, as a shock absorber, an absorber main body 54 formed of, for example, wood in a substantially disc shape, and a metal reinforcing plate 56 fixed to the main body 54. The absorber body 54 is
The diameter is larger than the diameter of the outer cylinder 12. Also,
A circular recess 58 is formed coaxially with the absorber body 54 on the lower surface of the absorber body 54.

The reinforcing plate 56 is made of stainless steel or the like and is fixed to the lower surface of the absorber main body 54. The reinforcing plate 56 is provided so as to cover the inner surface of the recess 58 and a part of the annular portion located outside the recess 58 in the lower surface of the absorber body, and the outer diameter thereof is larger than the outer diameter of the outer cylinder 12. Is larger and smaller than the diameter of the absorber body.

The shock absorber 50 is
The upper end of the container body 10 including the primary lid 20 and the secondary lid 22 is fitted into the recess 58, and is attached to the upper end of the container body. The outer peripheral edge portion of the reinforcing plate 56 is an annular flange 6 fixed to the outer peripheral surface of the upper end portion of the container body 10.
It is bolted to 0 by a plurality of bolts 61. As a result, the shock absorber 50 has the reinforcing plate 5
6 covers the upper end of the container body 10 in a state of being in close contact with the outer surface of the secondary lid 22.

The absorber body 54 is formed by combining several types of wood. For example, the central portion 54a facing the upper surface of the secondary lid 22 is formed of balsa material, and the outer peripheral portion 54b located around the central portion 54a.
Is made of redwood, rice cedar, etc. The wood grain of these woods is appropriately selected according to the location of the absorber main body 54.

The other shock absorber 52 is also constructed in the same manner as the shock absorber 50 described above, and the container body 1
It is attached to the lower end of No. 0 and is bolted to an annular flange 60 fixed to the outer peripheral surface of the lower end of the container body.

On the other hand, as shown in FIGS. 1, 4 and 5, the present cask is provided with a plurality of trunnions 64 as hoisting tools used to hoist the cask during loading and unloading work of transportation. For example, four trunnions 6 are provided on the outer periphery of the upper end of the container body 10 and two on the outer periphery of the lower end.
4 are provided, and are spaced apart from each other in the circumferential direction.

More specifically, each trunnion 64 is provided with a trunnion body 66 which is made of stainless steel or the like in a substantially truncated cone shape and is hollow.
A resin 67 as a neutron shielding material is filled in the trunnion body. The trunnion body 66 has an upper end formed with a holding portion 65 on which a hanging tool or the like is hooked, and a threaded portion 68 is formed on the outer periphery of the lower end. This threaded portion 68 is
For example, the diameter is M380 and the axial height is about 70 mm. Further, on the outer periphery of the lower end portion of the trunnion body 66, the annular flange 7 is provided above the screw portion 68.
0 is integrally formed. Further, on the upper surface of the flange 70, that is, the upper surface opposite to the screw portion 68, a plurality of engaging grooves 71 and screw holes 72 for engaging a tightening member used when tightening the trunnion 64 are formed. There is.

The trunnion 64 having the above-described structure has a threaded portion 68.
Is attached to the container body 10 by directly screwing it into a predetermined position of the container body 10, and penetrates the neutron shielding layer 14 to project in the radial direction. In addition, in the portion of the neutron shielding layer 14, the opening formed for mounting the trunnion 64 is covered and shielded by the annular cover ring 74 also formed of the neutron shielding material.

When the trunnion 64 is tightened or loosened with respect to the container body 10, for example, one end portion of an arm-shaped tightening member is provided with an engaging groove 71 and a screw hole 72.
Is used to engage the trunnion body 66, and in this state, the other end of the fastening member is pressed by a hydraulic jack or the like to rotate the trunnion body 66 itself. Thereby, the trunnion 64 can be tightened or loosened with respect to the container body 10.

According to the transportation and storage cask configured as described above, the primary lid 20 and the secondary lid 22 which are respectively attached to the upper end openings of the container body 10 and sealed by the metal gaskets 26 and 30, are overlapped with each other. And a part of the lower surface of the secondary lid is in contact with the upper surface of the primary lid. Further, the shock absorbers 50 and 52 are formed solid and are attached to the container body 10 in a state of covering the entire outer surface of the secondary lid 22.

Therefore, when the cask falls or falls during transportation or unloading work, particularly when the cask falls from the upper end side thereof, the shock absorber 50 can surely absorb the impact of the fall. Even if the fuel assembly 44 in the container body 10 collides with the primary lid 20 from the inside at the time of dropping, the impact at that time can be received by the primary lid 20, the secondary lid 22, and the shock absorber 50.

Therefore, even if the lid is dropped from the upper end side, the primary lid 20, the secondary lid 22, and the metal gaskets 26, 30 are displaced, especially the container body 1
It is possible to surely prevent the positional deviation along the axis direction of 0 and to maintain the high hermeticity of the cask. Further, according to the above-mentioned transportation and storage cask, the shock absorber 50,
Since 52 is provided with a metal reinforcing plate 56 that is provided in contact with the outer surface of the secondary lid 22 and covers the outer surface of the secondary lid 22, the strength against impact is further improved, and the primary strength when the cask is dropped. It is possible to reliably prevent the displacement of the lid 20 and the secondary lid 22 and the displacement of the metal gasket.

For example, in the drop test in which the cask is dropped from 9 m, the displacement amount of the primary lid 20 and the secondary lid 22, especially the opening amount is 0 mm or less, and a sufficiently high hermeticity can be maintained. It was

In the transportation and storage cask described above, each trunnion 64 has a threaded portion 68 formed on the outer periphery of the lower end portion of the trunnion body 66, and the threaded portion 68 is screwed directly into the vessel body 10 to form a container. It is attached to the main body. Therefore, unlike the case where the trunnion is mounted using a separate bolt or the like, it is not necessary to provide a large-diameter flange having a hole for bolt insertion in the trunnion body, and the trunnion can be downsized. .

Further, the screw portion 68 is the trunnion body 66.
Is formed at the large-diameter end portion, and the screw diameter is also formed as large as about M380. Therefore, the axial length of the threaded portion 68,
That is, even when the height is reduced, the sufficient tightening strength of the trunnion 64 can be maintained. As a result, the screwing amount of the trunnion 64 with respect to the container body 10 can be set to be small, and accordingly, it is possible to suppress the deterioration of the hermeticity and the shielding property of the container body 10.

The present invention is not limited to the above-described embodiments, but can be variously modified within the scope of the present invention. For example, the material, shape, etc. of the neutron shielding material, the shock absorbing material, etc. are not limited to those in the above-mentioned embodiment, and various selections can be made as necessary. Further, the number of trunnions to be installed, the installation positions, and the like can be variously changed as necessary.

[0042]

As described in detail above, according to the present invention, it is possible to maintain a high hermeticity even when a drop or a fall occurs, and to provide a hermetically-sealed container for transportation and storage improved in safety and reliability. Can be provided.

[Brief description of drawings]

FIG. 1 is a vertical cross-sectional view of a transportation and storage cask according to an embodiment of the present invention.

FIG. 2 is an enlarged cross-sectional view showing sealing portions of a primary lid and a secondary lid in the transportation and storage cask.

FIG. 3 is a cross-sectional view showing a metal gasket in the seal portion.

FIG. 4 is a cross-sectional view of the transportation and storage cask taken along line AA of FIG. 1.

FIG. 5 is a cross-sectional view showing a trunnion of the transportation and storage cask.

[Explanation of symbols]

10 ... Container body 12 ... Outer cylinder 14 ... Resin layer 20 ... Primary lid 22 ... Secondary lid 22a ... bottom surface 26, 28 ... Metal gasket 32 ... Recess 44 ... Spent fuel assembly 50, 52 ... Shock absorber 54 ... Absorber body 56 ... Reinforcing plate 64 ... Trunnion 66 ... Trunnion body 68 ... screw part

Continuation of the front page (51) Int.Cl. ⁷ Identification code FI G21F 9/36 G21F 5/00 F (72) Inventor Toshihiro Matsuoka 1-1-1 Wadazaki-cho, Hyogo-ku, Kobe-shi, Hyogo Mitsubishi Heavy Industries Ltd. Inside the Kobe Shipyard (72) Inventor Yuichi Saito 1-1-1 Wadazaki-cho, Hyogo-ku, Kobe City, Hyogo Prefecture Mitsubishi Heavy Industries, Ltd. Inside the Kobe Shipyard (56) Reference JP-A-9-166696 (JP, A) 2001-166084 (JP, A) JP 2001-201595 (JP, A) JP 2002-156494 (JP, A) JP 2002-156496 (JP, A) JP 2002-162391 (JP, A) JP 2002-174693 (JP, A) (58) Fields surveyed (Int.Cl. ⁷ , DB name) G21F 5/12 G21C 19/32 G21F 5/008 G21F 5/08 G21F 9/36

Claims (6)

(57) [Claims] A generally cylindrical metal container body radioactive material therein that is accommodated together have 1. A top opening, and the neutron shielding member covering the periphery of the container body, the container body The primary lid is installed in the upper end opening and closes the upper end opening, and the primary lid in which the contact portion with the container body is sealed by a metal seal , and the radioactive substance in the container body collides with the primary lid when falling.
It is mounted in the upper end opening of the container body so as to be overlapped with the primary lid so as to receive the impact when it is struck and closes the upper end opening, and the contact portion with the container body is sealed by a metal seal. A storage container for transportation and storage, comprising a secondary lid, an inspection space formed between the primary lid and the secondary lid, and a shock absorber mounted on the upper end of the container body. Closed container. 2. It has an upper end opening and is internally released.
A container body made of a substantially cylindrical metal in which a propellant is stored, a neutron shield covering the periphery of the container body, and an upper end opening attached to the upper end opening of the container body.
It is closed and the container
A primary lid whose contact with the body is sealed, and a primary lid that fits inside the upper opening of the container body.
The upper end opening is closed and the inspection space
Formed on the outer surface of the primary lid to define the
Catalyst and a secondary lid having opposed inner surface, the container transport storage for sealed containers and shock absorber which is mounted on the upper end portion, comprising the to the body. Wherein said secondary cover has an outer surface in which a plurality of recesses are formed, according to claim 1 or 2 neutron shielding material to the plurality of recesses, characterized in that it is filled Closed container for transportation and storage. 4. A plurality of suspenders fixed to the container body and protruding outward beyond the neutron shield, each suspender having a hollow, generally truncated cone shape and having a neutron shield inside. has a body which wood was filled, the end portion outer periphery of the large diameter side of the body, one of 3 claims 1, characterized in that threaded portion which is screwed into the container body is formed A closed container for transportation and storage according to item 1. A generally cylindrical metal container body radioactive material therein that is accommodated together have a wherein the top opening, and the neutron shielding member covering the periphery of the container body, the container body A primary lid that is installed in the upper end opening and closes the upper end opening, and a primary lid in which a contact portion with the container body is sealed by a metal seal, and a state in which at least a part of the primary lid is in contact with an outer surface of the primary lid. with and closes the top opening is mounted in the top opening of the container body to overlap the primary lid, and a secondary lid contact portion between the container body is sealed by a metal seal, the primary lid and the secondary It is attached to the inspection space formed between the next lid and the upper and lower ends of the container body.
Transport storage for sealed container it is characterized in that comprises a shock absorber that, the. 6. The shock absorber comprises a main body formed of a shock absorbing material, and a metal reinforcing plate attached to the main body and provided in contact with the outer surface of the secondary lid. The closed container for transportation and storage according to claim 5, which is provided.