DE3026249A1 - TRANSPORT AND / OR STORAGE CONTAINERS FOR RADIOACTIVE SUBSTANCES - Google Patents

Description

TRANSNUKLEAR GmbH 6450 Hanau 11

Transport and / or storage containers for radioactive substances

The invention relates to a transport and / or storage container for radioactive substances, in particular for irradiated fuel assemblies from nuclear reactors, essentially consisting Consists of a container body with a shielding function for gamma radiation with cooling fins on the surface, a corrosion-resistant one Inner lining, a shield and an outer cover, a neutron shield and supply lines.

Containers that are used for the transport and / or storage of spent fuel elements must contain the radioactivity of the goods brought in safely and prove in strict tests that this also in extreme accident situations is guaranteed. At the same time, however, they must also contain the ^ "- and Shield η radiation and safely dissipate the decay heat to the outside.

Known containers, as described, inter alia, in DE-OS 22 28 026, therefore consist of thick-walled, provided with cooling fins metallic container bodies, which ensure the necessary strength and the gamma-ray shielding, one

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ORIGINAL IMSPECTED

Shielding and an outer cover, a neutron shield, as well as an inner lining, which ensures corrosion protection and decontaminability. Mainly for reasons of handling, testing and storage, the inner linings are preferred as removable ones Inner container formed.

These containers have a number of disadvantages. The inner lining is either attached to the hold-down device Fixed container body or fastened in the lid area by screws, both solutions that are complex. So are z. B. when fastening with screws, two rows of threaded holes are necessary, one of which is the Holds inner lining and the other establishes the connection between the lid and the container body »is disadvantageous In addition to this laborious handling, the inner lining continues through the threaded holes for the cover screws broken through and thus the container body is exposed to the corrosive attack. Also is the space requirement disadvantageously large with this screw system.

Another disadvantage of known containers is that there is between the container body and the inner liner The gap is not controlled, which is why such containers are also used as storage containers

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the missing or only incomplete integrity tests during the storage period, which often lasts for many years restricts.

In previously known containers with welded or cast cooling fins, there is an accident, for. B. If the container crashes, there is still the risk that cracks will propagate as a result of the cooling fins breaking off into which the sealed enclosure of the radioactive material is carried out.

It was therefore the object of the present invention to provide a transport and / or storage container for radioactive substances, in particular for irradiated fuel assemblies from nuclear reactors, essentially consisting of a container body with shielding function for gamma radiation with cooling fins on the surface, a corrosion-resistant inner lining, to create a shield and an outer cover, a neutron shield and supply lines, in which the corrosion attack on the container body in the area of the fastening of the inner lining at reduced Space requirement and simplified handling is minimized, integrity checks are flawlessly possible and crack propagation into the container body is avoided when cooling fins break off.

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The object was achieved according to the invention in that the inner lining has a flange with the external thread of threaded inserts is fastened in the container body, the threaded inserts having axial bores Have internal threads into which screws for fastening the shielding cover are screwed, in the outer cover test connections to test the space between the two enclosures, which are created by the inner lining and Shielding lid on the one hand and container body and outer lid on the other hand are formed, and on the surface of the container body transversely to the direction of extension of the cooling fins webs are attached.

The container according to the invention is shown in more detail schematically and by way of example with the aid of Figures I to X. explained. Figure I shows a section through a container according to the invention, Figure II the connection Container body / inner lining / shielding lid, illustrations III to V the arrangement of the webs, Figures VI and VII Supply line details and Figures VIII to X Refinements of the neutron shielding.

The transport and storage container is substantially of a container body (1) with cooling fins (5) _f a corrosion-resistant inner lining (4), a provided with sealing elements (15) shield (2) - and a likewise nit seals (14) fitted outside the cover ( 3), a neutron shield (8), supply lines (11) and trunnions (7).

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The inner lining (4) rests on the container body (1), the inner lining flange (19) having bores is provided, through which the threaded inserts (21) with external threads (22) are screwed to the container body (1). The shielding cover (2) is held in place with screws (20) which are inserted into axial bores with an internal thread (23) the threaded inserts (21).

Thus, according to the invention, it is possible to have the inner lining (4) with flange (19) and shielding cover (2) independently of one another, but to be attached in a space-saving and corrosion-proof manner. It is within the scope of the invention that all parts of the connecting element, in particular the threaded inserts (21) made of corrosion-resistant material are.

If, due to the design data of a transport container, the shielding cover (2) with z. B. 24 screws (20) M 32, an external thread (22) of M 48 is sufficient for the threaded inserts (21) to provide the necessary power transmission to ensure. This ensures that the threaded inserts when removing the cover screws (20) (21) stay firmly in place without twisting out.

The head (25) of the threaded insert (21) is convenient Handling designed accordingly. A seal (24)

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on the threaded insert "(21) prevents underwater loading the ingress of water. In some cases, the axial bores of the threaded inserts (21) can be opened when the Container closed or covered.

In the outer cover (3) there are test connections (9) which are protected by covers (28). With the help of these test connections (9) it is possible to monitor the space (16) between the two enclosures or barriers that are created by the inner lining (4) and the shielding cover (2) on the one hand and the container body (1) and the outer cover ( 3) on the other hand. For example, it is possible to use a leak detector connected to a test connection (9) to easily determine the integrity of the inner lining (h) and the sealing function of the shielding cover (2) without exposing yourself to a radiation hazard. Correspondingly, it is also possible to connect measuring devices to a test connection (9) for locating the activity that may have leaked into the space (16). The storage container equipped in this way is, for. B. for long-term interim storage of radioactive material, which is to be fed to a later reprocessing, ideally suited.

The container according to the invention has on the surface Crosspieces (6) which are attached transversely to the direction in which the cooling fins (5) extend. With axial extension of the Cooling fins (5) run all around the webs (6), with all-round

running cooling fins, however, axially. Pouring on together has proven to be particularly beneficial the cooling fins (5) and webs (6) on the container body (1) proved.

The result of the transverse webs (6) is that the unavoidable breakage of the cooling fins (5) on impact does not occur at the base of the fin (27) takes place where there is a risk of crack expansion in the container body (1), but in a certain one Distance from the foot of the ribs. The safe distance between the crack and the container body (1) is ensured by the choice corresponding web heights and corresponding web spacing. As shown by theoretical calculations and experiments have, it is particularly advantageous to dimension the webs so that the web height is a maximum of 2/3 the height of the Cooling fins (5) and the web spacing is a maximum of 10 times the web height.

A particularly advantageous embodiment consists in providing notches (18) in the cooling fins (5) in the region of the webs (6), which ensure the targeted crack formation even more reliably without penetrating the container body (1) by causing the cracks to form on the webs (6) is limited to one another predetermined distance . The maximum depth of the notches (18) 'is reached at the upper limit (26) of the webs (6). Shallower depths

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the notches (18) are also very effective depending on the design and material. The notches can can be molded on or, in some cases, incorporated at a later date.

For example, a cast container for irradiated fuel assemblies from pressurized water reactors has cast on circumferential webs, web spacing from each other approx. 440 mm, web height approx. 70 mm, cooling fins in the axial direction are arranged on the container body surface. The cooling fins have a height of approx. 240 mm. in the In the area of the transverse webs, there are notches in the cooling fins with a notch depth of approx. 95 mm. With these design data, cracks in the container body due to damage to the cooling fins are reliably avoided.

It is particularly advantageous if the supply line (11) to the lowest point of the container body (1) in the Arranged inside the container and with an operating connection (10) in the shielding cover (2) via a connecting element (12) e.g. B. is connected via a flange (30). It is particularly advantageous when the supply line (11) is coupled to the service connection (10) via a cone (31) and via a Spring element (13) is pressed.

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The neutron shielding material (8) is located between the cooling fins, especially in that of the webs (6) and lower parts of the cooling fins (5) formed space. It is particularly favorable when the neutron shield (8) from between the Cooling fins (5) attached molded bodies (33), being composed of several individual parts (3 ^) Shaped body (33) have proven particularly useful. This means that the neutron shielding can be designed variably, easy to assemble and easy to test and maintain. The molded bodies (33), sometimes assembled axially, can have different shape, gradation and size, they should only be so close to an ensemble Let join together that the shielding effect against stray neutrons is sufficient. Secured the shaped bodies (33) are optionally also provided by lugs (32) located on the cooling fins (5) by covers held by these lugs (32). In a special embodiment, the individual parts exist (34) from a conical or conical cross-section parabolic middle part (35) and two identical side parts (36). When assembling the side parts are first (36) positioned and then the cone-shaped

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and optionally also slightly crowned central part (35) is introduced, with the pressing of the Side parts on the container body (i), the cooling fins (5) and takes place under the noses (32). Instead of a conventional cover, it is particularly advantageous to use the molded parts (33, 34, 35, 36) to be secured by a resilient plate (17) with a fold (29) and the contact pressure to be maintained, the fold (29) in addition to its handling and clamping function, as it were is effective as an additional mini cooling fin.

The container according to the invention is preferably made of cast iron, spheroidal graphite cast iron being particularly useful has turned out favorably.

07/08/80

Dr. Br./Kl/Han

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Claims (8)

KT 80 TRANSNUKLEAR GmbH 6450 Hanau 11 Claims 1/. Transport and / or storage containers for radioactive substances, in particular for irradiated fuel assemblies from nuclear reactors, essentially consisting of a container body with a shielding function for gamma radiation with cooling fins on the surface, a corrosion-resistant inner lining, a shield and an outer cover, a neutron shield and supply lines , characterized in that the inner lining (4) is fastened in the container body (1) via © Inen flange (19) with de® external thread (22) of threaded inserts (21) "whereby the threaded insert © (21) has axial bores © ine © Have internal threads (23), into which screws (20) for fastening the shielding dachshund (2) are screwed, is outer cover (3) see test connections (9) for checking the gap (l6) between the bsidesi UasefelieBnmgesis dl® through inner lining (4) and Äbsehirmdeekel (2) on the one hand and container body (1) and outer lid (3) on the other hand, and on the surface e of the container body (1) transversely to the direction of extension of the cooling ribs (5), webs (6) are attached. 130066/0082 2. Transport and / or storage container according to claim 1, characterized in that the supply line (11) to the lowest point of the container body (1) is arranged in the container interior and is connected to an operating connection (10) in the shielding cover (2). 3. Transport and / or storage container according to claim 1 and 2, characterized in that the supply line (11) is coupled via a cone (31) to the service connection (10) and is pressed via a spring element (13). 4. Transport and / or storage container according to claim 1 to 3 _f, characterized in that the cooling fins (5) in the region of the transverse webs (6) have notches (18). 5. Transport and / or storage container according to claims 1 to 4, characterized in that the neutron shielding consists of molded bodies (33) attached between the cooling fins (5). 6. Transport and / or storage container according to claim 1 to 5 » characterized in that the shaped bodies (33) are composed of several individual parts (34). 7. Transport and / or storage container according to claim 1 to 6, characterized in that the shaped body (33) are pressed against the container body (1) by a resilient sheet (17) with a fold (29). - 3 -130066/0082 8. Transport and / or storage container according to claim 1 to 7, characterized in that the container body (1) consists of spheroidal graphite cast iron. 130066/0082