EP0978849A1 - Container for the final storage of spent fuel elements from nuclear powerplants - Google Patents

Abstract

A terminal container for used nuclear fuel elements has a secondary lid welded to the first lid of a lid arrangement to prevent the leakage of gaseous substances. Terminal container (1) for used nuclear fuel elements comprises a jacket (2), base (3), lid arrangement (4) and inner chamber (5) for receiving fuel rods (6). The lid (4) has a primary lid (7) secured in the jacket (2). A dewatering pipe (17) is provided stretching from the upper side of the base to the upper side of the primary lid. The lid arrangement has a secondary lid (9) above the primary lid (7). The secondary lid is welded to the jacket.

Description

The invention relates to a repository for spent Fuel elements from nuclear power plants. - Usually and in accordance with the regulations, spent fuel assemblies from nuclear power plants first in appropriate containers temporarily stored in an interim storage facility. Subsequently the spent fuel for final disposal usually stored in an underground repository.

In the measures known from practice, the Fuel rods from spent fuel elements from the nuclear power plants placed in intermediate storage containers and in temporarily stored in these containers. For temporary storage are complex for the entire interim storage period Surveillance measures required. The intermediate storage container is usually with a double lid arrangement equipped which cover arrangement sealing devices in the form of metal seals and elastomer seals. During the interim storage the tightness of the Containers are continuously monitored. This continuous Monitoring and maintenance is labor-intensive, personnel-intensive and expensive. There may also be manual maintenance work on the containers required maintenance personnel becomes an inevitable Exposed to radiation. After the interim storage period is provided under the known measures, the Fuel assemblies from the interim storage containers to final storage containers reload. The fuel assemblies are initially conditioned in a conditioning system and the conditioned Fuel rods are in the conditioning system filled into the repository. It goes without saying that this reloading of the fuel elements is complex. Also this results in a disadvantageous radiation exposure for the staff involved.

In contrast, the invention is based on the technical problem specify a storage container with which the above Disadvantages set out can be avoided and in particular regarding the long-term storage of fuel elements all tightness criteria are met and that for the intermediate storage of the fuel elements is suitable as well can be fed directly to final storage after the intermediate storage is.

Behältermantel, Behälterboden, Behälterdeckelanordnung und Behälterinnenraum,

wobei der Behälterinnenraum zur Aufnahme von Brennstäben der Brennelemente ausgelegt ist,
wobei die Behälterdeckelanordnung einen Primärdeckel aufweist, der im Behältermantel arretiert ist,
wobei zumindest eine Entwässerungsleitung vorgesehen ist, welche sich von der Oberseite des Behälterbodens bis zur Oberseite des Primärdeckels erstreckt,
und wobei die Behälterdeckelanordnung fernerhin einen über dem Primärdeckel angeordneten Sekundärdeckel aufweist, welcher Sekundärdeckel mit dem Behältermantel verschweißt ist.To solve this technical problem, the invention teaches a repository for spent fuel elements from nuclear power plants

Container jacket, container bottom, container lid arrangement and container interior,

the interior of the container being designed to receive fuel rods of the fuel elements,
the container lid arrangement having a primary lid which is locked in the container jacket,
wherein at least one drainage line is provided, which extends from the top of the container bottom to the top of the primary lid,
and wherein the container lid arrangement furthermore has a secondary lid arranged above the primary lid, which secondary lid is welded to the container jacket.

According to a preferred embodiment, the scope of the invention the repository container is of particular importance directly in the water basin or reactor basin of the nuclear power plant filled with the fuel rods. Preferably then the primary lid in the repository container according to the invention introduced, preferably in the container jacket screwed in. It is within the scope of the invention that Drainage pipe through the primary cover to the top of the primary cover and on the top of the primary cover a drainage line opening is formed. Then, preferably outside the water basin or reactor basin, a drainage or drying of Repository container carried out via the drainage line. For this purpose, the drainage line is expedient pressurized with a vacuum. After the drainage process or drying process completely completed is, the secondary cover according to the invention welded to the container jacket. Thereupon the final storage container temporarily stored. It is also in the Framework of the invention that drainage, drying and The secondary cover is only welded when the final storage container is already in an intermediate storage container located. After the intermediate storage, the invention Repository without further reloading the fuel rods are fed directly to final storage or placed in a repository. - The above Embodiments can be seen that the term repository within the scope of the invention a receptacle for Fuel rods means that both used for intermediate storage becomes immediately as well as after the intermediate storage can be sent to final storage. During the intermediate storage are expediently a plurality of the inventive Repository container in an intermediate storage container set. After the intermediate storage, the final storage containers removed from the intermediate storage container and in the repository introduced.

It is within the scope of the invention that the container jacket and the bottom of the repository made of steel, preferably made of fine grain steel. Fine grain steel means in the context of the invention in particular a steel containing 0.15% carbon, 1.5% manganese and 0.75% nickel (15 MnNi 6 3). This material fulfills in advantageously all strength requirements and the weldability. The container jacket of the final storage container is expediently cylindrical.

According to the container lid arrangement of the Repository container made of two lids. According to a preferred embodiment the invention is the primary lid in the container jacket screwed in. For this purpose, the primary cover prefers a trapezoidal thread. It is within the scope of the invention that the primary cover from the same material as the container jacket and the container bottom are, preferably made of steel, preferably made of fine grain steel. According to preferred Embodiment of the invention has the primary cover neutron moderating and / or radiation absorbing Components on. This is conveniently on the primary cover a shielding plate made of neutron moderating and / or absorbent materials. So far it is within the scope of the invention that the primary cover a Shielding function with regard to the gamma radiation and / or Neutron radiation takes over. A shielding plate is preferred arranged below the primary cover. Prefers the encapsulated shielding plate is immediately on connected the primary cover. The shielding plate can for example as a neutron moderator plate made of titanium hydride or graphite. The drainage line is preferably passed through the shielding plate. The drainage line opening is expediently on the top of the primary cover with a plug lockable. Preferably, the plug contains a neutron moderating material. That way achieved that with closed repository or applied the primary cover neutron radiation the drainage pipe or drainage pipe opening can get through the primary cover. According to the preferred embodiment the invention is between primary cover and Container jacket arranged at least one sealing element. It is within the scope of the invention that the sealing element is designed as an elastomer seal. The seal on Primary cover prevents gaseous substances from escaping before and during the welding of the secondary cover. In this respect, the primary cover takes on a temporary one Sealing function before and during secondary cover welding.

It is within the scope of the invention that the secondary cover made of the same material as the container jacket and preferably from steel, preferably from fine-grained structural steel. The secondary cover is over the primary cover applied and preferably with the help of a narrow gap welding process welded gas-tight to the container jacket. As a result, the fuel elements in the invention Repository container so tightly enclosed that further complex sealing measures or monitoring the tightness are not required. Especially the secondary cover welded according to the invention forms a dense and permanent barrier for both intermediate storage as well as for the final storage of the repository. The one measured on the outer surface of the secondary cover Radiant power is always below 100 µSv / h. On the secondary cover a gripping element is preferably connected, handling and transportation of the repository to facilitate. - It is within the scope of the invention that the entire repository with a closed corrosion-resistant outer layer is surrounded. At this corrosion-resistant outer layer, for example is a ceramic layer.

According to a preferred embodiment of the invention Fuel rods in a tight packing vertically into the interior of the container set. The free internal volume is preferred of the container interior after loading with the Fuel rods as low as possible. Due to the dense filling the fuel rods support each other with the fuel rods and to this extent also the mechanical resistance of the repository increased. According to one embodiment the invention is the repository for receiving the fuel rods of three pressurized water reactor fuel assemblies or to hold the fuel rods of nine boiling water reactor fuel elements designed. Another one The embodiment of the invention is the repository container according to the invention for holding the fuel rods of four Pressurized water reactor fuel elements or to accommodate the Fuel rods designed from twelve boiling water reactor fuel elements.

The invention is based on the knowledge that the inventive Repository with fuel rods for intermediate storage in an intermediate storage container can be adjusted without expensive sealing measures this intermediate storage container required are. It is within the scope of the invention that Intermediate storage containers only with an intermediate storage container lid must be closed, for example in the intermediate storage container is screwed in. Due to the inventive design of the repository and its high tightness can be complex continuous Leakage checks of the intermediate storage container are not necessary. This also reduces the radiation exposure of the maintenance personnel reduced. It is within the scope of the invention that a plurality of the repository according to the invention in an intermediate storage container are introduced.

The invention is also based on the knowledge that the repository according to the invention after the intermediate storage easily and in a less complex manner of final storage can be supplied. The storage in the Repository takes place after a sufficiently long interim storage period or after the radioactive activity and the Post-decay heat has subsided sufficiently. The repository as such can be handled or can be transported without reloading the fuel or the fuel rods is required.

It is otherwise within the scope of the invention, the secondary cover to weld the repository only when the final storage container is already in an intermediate storage container located. The intermediate storage container lid of the intermediate storage container as it were as an auxiliary welding device serve for the welding of the repository. The welding is carried out so that the said Intermediate storage container lid turned over its thread is that a loading opening of the intermediate storage container lid is arranged above a repository. Then the repository is raised, so that expediently only the repository head of the repository protrudes from the loading opening. Then there is one Welding of the secondary cover without additional shielding measures possible. The loading opening in the intermediate storage container lid can after welding the secondary cover the individual repository with a shielding plug be closed.

Disposable containers are expediently used, the outer diameter with others intended for final storage Containers matches, for example with the outer diameter of glass molds for glazed highly radioactive Waste from reprocessing. This requires the advantage that both types of containers in the same way without problems can be handled and in appropriate Repository shielding containers or directly in appropriate Drill holes can be disposed of. - Preferably is the outside diameter of the cylindrical repository 350 to 550 mm, preferably 430 to 530 mm. The wall thickness the container shell is preferably 30 to 100 mm, preferably 40 to 70 mm. The amount of the invention Repository container from the bottom of the container bottom to The top of the secondary cover is expediently 4700 to 5300 mm, preferably 4800 to 5100 mm and very preferred 4900 to 5000 mm. The primary cover thickness is preferably (without shielding plate) 150 to 300 mm, preferred 180 to 280 mm. According to a preferred embodiment of the invention does the secondary cover have a thickness (without gripping element) from 30 to 70 mm. The thickness of the shield plate is preferably 50 to 100 mm. The bottom of the container is facing expediently a thickness of 60 to 120 mm, preferred 80 to 100 mm.

The invention is distinguished by the considerable advantage from that by including the fuel elements in the invention Repository containers a reliable and permanent tight containment of the radioactive materials remains guaranteed. The repository container according to the invention can be used for transport, for interim storage and also used for the final storage of the fuel elements become. - First, by the invention Drainage line a reliable drainage and Drying of the container interior can be achieved. Thereby, that the drainage pipe led to the bottom of the tank can, especially when the fuel rods are packed tightly a surprisingly effective one in the container interior Drainage and drying can be achieved. Preferably becomes a vacuum drying by means of the drainage pipe of the container interior. Essential to the invention is that the drainage or drying only with the primary cover applied and only after the drainage or drying of the secondary cover applied and is welded to the container jacket. Thereby becomes a particularly tight seal of the invention Repository achieved. Through the closure according to the invention, especially the welding closure of the Repository can be the gas-tight inclusion of the radioactive Fabrics during transport, intermediate storage and the final storage. Elaborate Transshipment of the fuel assemblies or fuel rods are according to the invention not mandatory.

Fig. 1

einen Längsschnitt durch einen erfindungsgemäßen Endlagerbehälter,

Fig. 2

den Ausschnitt A aus Fig. 1 in vergrößerter Darstellung,

Fig. 3

einen Schnitt B-B durch den Gegenstand nach Fig. 2 in der Draufsicht und

Fig. 4

einen Längsschnitt durch einen Zwischenlagerbehälter mit eingesetzten erfindungsgemäßen Endlagerbehältern.

The invention is explained in more detail below on the basis of a drawing which represents only one exemplary embodiment. In a schematic representation:

Fig. 1

2 shows a longitudinal section through a repository container according to the invention,

Fig. 2

the section A from FIG. 1 in an enlarged view,

Fig. 3

a section BB through the object of FIG. 2 in plan view and

Fig. 4

a longitudinal section through an intermediate storage container with inserted repository containers according to the invention.

The invention relates to a repository 1 for spent Fuel elements from nuclear power plants. The repository 1 consists of container jacket 2, container base 3, a container lid arrangement 4 and the container interior 5 (Figs. 1 and 2). The container interior 5 does not take them shown fuel rods in the densest packing.

The container lid assembly 4 of the repository 1 has a primary lid 7, which primary lid 7 in the container jacket 2 via a corresponding one, not shown Thread is screwed in. According to a preferred embodiment and in the exemplary embodiment there is a on the primary cover 7 Shielding plate 8 made of a neutron moderating material attached, which shield plate 8 inside the container is oriented (see in particular Fig. 2). Between the primary cover 7 and container jacket 2 is preferably not a shown sealing element, preferably in the form of a Metal seal, provided.

The container lid assembly 4 also has one the primary cover 7 arranged secondary cover 9, the is welded gas-tight to the container jacket 2. In Fig. 2, the corresponding weld seam 10 has been indicated.

According to the invention, a drainage line 17 is provided, which extend from the top of the container bottom 3 to extends to the top of the primary cover 7. The drainage pipe 17 is according to the preferred embodiment and in Embodiment both through the primary cover 7 as also passed through the shielding plate 8. At the top of the primary cover 7 is a first drain line opening 19 provided. This drainage pipe opening 19 is closed in the figures with a plug 20. The plug 20 preferably contains Neutron moderator material. The drainage line 17 furthermore has at least one second drainage line opening 21, preferably with a little distance is arranged above the top of the container bottom 3. The distance of the second drainage line opening 21 to Container bottom 3 is, for example, 10 to 20 mm. In Fig. 3 has been hinted at, like the drainage line 17 which is preferably used as a neutron moderator plate trained shielding plate 8 preferably passes through. For this purpose, a shield plate opening is in the shield plate 8 22 provided, preferably at the edge of the shielding plate 8 is arranged. So through this shield plate opening 22 incoming neutron radiation is shielded is, according to a preferred embodiment, the above described plug 20 with a neutron moderating Provide material.

According to a particularly preferred embodiment of the invention becomes the repository 1 in the water basin or reactor basin of a nuclear power plant loaded with fuel rods 6, which fuel rods 6 preferably in the densest packing vertically set in the container interior of the repository 1 become. Then the primary cover 7 is applied and preferably screwed into the container jacket 2. This is followed by drainage and drying of the container interior 5 via the drainage line 17 instead of. A negative pressure in the interior of the container is preferably used for this purpose 5 generated. After the drainage and Drying of the container interior 5 is completed filling the interior with an inert gas (e.g. Argon); thereafter the plug 20 is preferably into the first drainage line opening 19 of the primary cover 7 used. Thereupon the application and The secondary cover 9 is welded. - The repository 1 also points in the area of the container lid arrangement 4 preferably a handling flange 23 on the safe handling of the repository 1 supported. The handling flange 23 also serves for fixing when screwing in the primary cover 7. - Preferably and in the embodiment is on the top a gripping element 24 is connected to the secondary cover. The Gripping element 24 is used for easier handling of the repository 1 and can for example be gripped by a crane become.

According to a preferred embodiment of the invention, the repository 1 according to the invention with the recorded Fuel rods 6 for intermediate storage in an intermediate storage container 11 set (Fig. 4). Preferably be seven repository 1 according to the invention in the intermediate storage container 11 set. Since in the invention Repository 1 an effective and reliable seal by the container lid assembly according to the invention 4 is realized, it is sufficient only one intermediate storage container lid 12 to provide, which is preferred in the intermediate storage container 11 is screwed in (Fig. 4.). 4 is above the intermediate storage container lid 12 a moderator plate 13 is arranged. It is also within the scope of the invention that in the container wall of the intermediate storage container 11 vertical Moderator bores 14 are provided with a moderator material are filled.

The invention is described below using an exemplary embodiment explained in more detail: A repository according to the invention to hold about 2400 kg fuel rods (from three Fuel elements of a pressurized water reactor), for example an outer diameter of 430 mm and an inner diameter from 330 mm. The wall thickness of the container jacket is therefore 50 mm. The vertical length of the container interior is expediently 4470 mm. The primary cover preferably has a thickness (without shielding plate) of 250 mm and a shielding plate made of moderator material has a thickness of 80 mm. The secondary cover has expediently a thickness of 50 mm. The thickness of the bottom of the container is preferably 90 mm. The entire vertical The length of the repository is expediently 4985 mm.

Claims (7)

Repository container (1) for spent fuel elements from nuclear power plants, - with Container jacket (2), container bottom (3), container lid arrangement (4) and container interior (5), the container interior (5) being designed for receiving fuel rods (6) of the fuel elements,
wherein the container lid arrangement (4) has a primary lid (7) which is locked in the container jacket (2),
at least one drainage line (17) is provided, which extends from the top of the container bottom (3) to the top of the primary cover (7),
and the container lid arrangement (4) furthermore has a secondary lid (9) which is arranged above the primary lid (7) and which secondary lid (9) is welded to the container jacket (2). Repository container according to claim 1, wherein the primary lid (7) is screwed into the container jacket (2). Repository according to one of claims 1 or 2, a shielding plate below the primary cover (7) (8) is arranged. Repository container according to claim 3, wherein the drainage line (17) is guided through the shielding plate (8). Repository container according to one of claims 1 to 4, wherein between primary cover (7) and container jacket (2) at least a sealing element is arranged. Repository container according to one of claims 1 to 5, wherein in the area of the container lid arrangement (4) on the outside of the final storage container a handling flange (23) is connected is. Repository container according to one of claims 1 to 6, wherein at least on the top of the secondary cover (9) Gripping element (24) is connected.

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