DE3012561A1 - Permanent storage container for radioactive waste - has waterproof layer between inner container and outer concrete block to prevent leaching and permit later transportation - Google Patents

Abstract

A final storage structure for the disposal of radioactive waste comprises a hollow concrete block, inside which a container for the radioactive waste is mounted. Between the container and the block there is an all-round intermediate space, which is completely filled with a layer of water-repellent and water-impermeable filler material. Pref., this filler material is a cast or poured material, more specifically a bitumen mixt., clay mixt., plastics, casting resin etc. The pref. thickness of this intermediate layer is 0.5-5 cm. Used for the long-term storage of radioactive waste. By providing a completely water-repellent layer between the outer concrete block and the internal container, the risk of water penetrating through the container and causing a breakdown of the container and contents with subsequent leaching into the surrounding ground is eliminated. Suitable for "recoverable stores", from which the radioactive waste can be removed, if desired, even after very long storage periods.

Description

description

The invention relates to a disposal container for the disposal of radioactive substances Waste with a hollow concrete block having a free interior space and with one containing stored radioactive waste used in the interior Barrel.

It is known, metallic drums containing radioactive waste to be provided with a concrete jacket and in underground storage facilities to deposit. While the concrete jacket shielding has a certain mechanical Protection of the barrel inside is guaranteed, penetration into the deposit Water - or moisture - penetrate the shielding and lead to that the barrel made of a non-corrosive material gradually rusted through. This means that these known disposal containers cannot be rot-proof guarantee. Rather, it cannot be ruled out that after a certain storage time a leakage of radioactive substances from the barrels and thus a radioactive one Contamination of the entire deposit takes place. This means that with such disposal containers no so-called 'retrievable warehouses' can be set up, which are also After a long period of time, have it safely relocated to another location, if this is the case is desired or required.

The object of the present invention is to provide one Disposal container of the type mentioned, which, with a simple structure, is avoided of the disadvantages described, a safe final storage of radioactive waste and creating retrievable bearings are guaranteed even if the storage facilities are exposed to water or moisture.

A disposal container stands out as a solution to the task at hand for the disposal of radioactive waste with a free interior space hollow concrete block and with a radioactive embedded in the interior Waste-containing barrel according to the invention by a space that can be filled on all sides between the surface of the barrel and the inner surface of the concrete block and by one that completely fills this gap and encloses the barrel on all sides Intermediate layer made of a water-repellent and water-impermeable filling material the end. Such a disposal container is practically rot-proof because that Barrel completely embedded in the filling material against the influence of water and moisture is safely protected. The concrete coating ensures a sufficient mechanical Protection by external impacts and the like that lead to Example occur in the case of an offset in an underground storage facility of which Barrel to be held. At the same time, the concrete cladding provides a shield ionizing radiation.

And finally, the concrete coating ensures that it is held on all sides the water-repellent and water-impermeable intermediate layer, so that leaching radioactive substances from the radioactive waste drum is safely avoided. The rot security is also guaranteed when inexpensive, easily corrosive drums This means that the inexpensive, simple disposal container allows for the present Invention to set up repositories, which at Are retrievable as required.

The filling material of the intermediate layer is preferably a casting compound. The filler material can be, for example, a bitumen mixture, a clay mixture, act a plastic, a casting resin or the like. To be as large as possible To ensure safety, the intermediate layer should not be too thin and, for example have a thickness between about 0.5 cm to about 5 cm. Such an intermediate layer is suitable after inserting the barrel into the concrete block in sufficiently simple Way to be introduced, for example by potting.

It also prevents mechanical stresses occurring penetration of water or substances containing water as well as leakage of Waste materials from the barrel. In addition, such an intermediate layer can have a certain Have a shock-absorbing effect, making the internal barrel even with stronger Impact loads on the concrete block is largely protected.

In adaptation to the usual cylindrical shape of the barrels used it is expedient to make the interior of the concrete block cylindrical. Through this can be a simple centering of the cylindrical barrel in the cylindrical interior be performed.

It is preferred that the height of the cylindrical interior space be greater than the height of the barrel used. This can the Intermediate layer also extend over the bottom and lid of the barrel without Areas of the intermediate layer protrude from the concrete block. That's important there the intermediate layer otherwise through external mechanical influences, for example can be damaged by moving stacked containers against each other can, which is absolutely to be avoided.

In a further embodiment, there are spacers between the barrel surface provided under the inner surface of the concrete block.

This can be separate or integral with the concrete block act trained spacers.

Suitable plastic inserts, for example, can be used as spacers or the like can be used when inserting the barrel into the concrete block to ensure the necessary space on all sides.

Preferably, the disposal container is with respect to its outer Shaping such that the running in the longitudinal direction of the concrete block Boundary planes existing outer surface of the concrete shell in a completely Filled-out bundle of concrete blocks that can be used in a polygonal cross-section is. Such final storage containers or concrete blocks can be combined in a bundle Arrange them compactly under practically all-round contact, i.e. avoiding them as far as possible of free intermediate areas between the concrete blocks. Such a network is mechanically particularly stable and thus in the event of a misalignment in an underground Storage well protected as the individual concrete blocks always lie flat against one another. In contrast, when using, for example, cylindrical concrete blocks linear areas of engagement arise that lead to excessive loads and Can lead to damage.

According to a particularly preferred embodiment, the concrete casing of the concrete block has a square cross-section. Such a cuboid disposal container is particularly simple and easy to use. Instead, the concrete shell of the concrete block also have an equilateral hexagonal cross-section. This cross-sectional shape enables a compact, space-free Arrangement according to a honeycomb pattern. Apart from this, however, it is also possible a non-equilateral polygonal, such as rectangular or trapezoidal, cross-section of the concrete jacket of the concrete block. This cross-sectional shape is also made possible a stable structure and a space-saving, space-free arrangement in one Container network.

According to a practical embodiment, the concrete block has a minimum wall thickness from about 30 mm to about 200 mm. This ensures that the concrete block is sufficiently stable and largely protected from damage. Also is such a minimum wall thickness with a view to shielding ionizing Radiation expedient.

A simple embodiment is characterized by an open, by Stacking several containers from the closable top of the concrete block. Instead of this it is also possible to use a concrete cover that can be placed or poured onto the concrete block to be provided.

In both cases, the top areas are the intermediate layers covered at least within a stack of containers.

In a further embodiment, stack-fixing engagement means are on the Concrete floor and / or provided on the top or on the concrete cover of the concrete block. These means of engagement ensure that the individual containers of the warehouse are stacked are prevented from slipping sideways. In each case, projections on one container, reach into recesses on the next adjacent container.

A preferred embodiment is characterized by a concrete floor axially and centrally protruding cylindrical projection, the diameter of which is slightly smaller than the diameter of the cylindrical interior and maximum axial length about the distance between the top of the concrete block and the surface corresponds to the top-side intermediate layer located above the barrel. When stacking Such a formed container engages the projection of the respective placed concrete block centering as well as position stabilizing and possibly 1 covering in the cylindrical Interior of the concrete block below. The lead thus has one double function by having a kind of cover for the concrete block underneath represents and at the same time a lateral displacement of the prevents mutually engaging concrete blocks.

The disposal container according to the invention has a simple structure extremely reliable and easy to use. It prevents even in the case of unfavorable Environmental influences a leaching of radioactive barrel contents and enables this Creating environmentally friendly warehouses that can be retrieved for practically an unlimited period of time are.

The invention is illustrated below with reference to the drawings Embodiments explained in more detail. They show: FIG. 1 - in a schematic Longitudinal section of a first embodiment of a disposal container according to the invention, Figure 2 - the disposal container from Figure 1 in a cross section along the line II-II, Figure 3 - in a cross section similar to Figure 2, a disposal container according to a second embodiment and Figures 4 and 5 - each with a stack two final storage containers in mutual stacking engagement according to the present invention.

According to FIG. 1, a hollow concrete block 10 has a concrete floor 12 and a concrete shell 14. The interior of the concrete block 10 is cylindrical and contains a barrel 16 with stored radioactive waste. The barrel 16 has an all-round Distance from the inside surface of the concrete block 10, and this distance is, for example, with spacers 20 to be used in the floor and wall area maintain. This creates a between the barrel 16 and the concrete block 10 free space with a water-repellent and water-impermeable filling material can be filled, the one the barrel 16 on all sides enclosing Intermediate layer 18 forms. In the present case, the top is initially open a correspondingly shaped concrete cover 22 is inserted into the cylindrical interior or molded, on its outside with the upper boundary of the concrete shell 14 aligns.

From the sectional view according to Figure 2 it can be seen that the concrete block 10 from Figure 1 is cuboid in the present embodiment, that is, in cross section is square. Such a design is compact and stable. She enables one Dense, space-free stacking and stringing together of several disposal containers to a bundle of bundles in a storage facility. As shown in Figure 2 on the upper and Undersides of the concrete block 10 is shown, several of these concrete blocks 10 with mutual alignment (see above) or with mutual displacement (see below) can be strung together.

In addition, the corner areas of the concrete casing 14 can be beveled slightly be as indicated by dashed lines.

According to Figure 3, a concrete block 10-1 has a concrete casing 14-1, the is equilateral hexagonal in cross-section on the outside. Also in this embodiment the concrete block 10-1 has a preferably cylindrical interior into which the Barrel 16 is inserted and surrounded by a hollow cylindrical intermediate layer 18. Such a hexagonal concrete block 10-1 can be in a bundle assembly be arranged like a honeycomb pattern, which also creates a compact, space-free Overall arrangement arises.

All individual containers lie flat against each other and prevent this Occurrence of gaps and excessive pressure loads.

In FIG. 4, one of two disposal containers is shown in a purely exemplary manner existing stack shown. Two concrete blocks 10-2 extending from concrete block 10 practically only differ in that they each have one axially from the concrete floor as well as centrally protruding, cylindrical projection 24 are on top of one another stacked. This projection 24 has a diameter that is slightly smaller than that Interior of the concrete block 10-2 is so that when stacking the concrete blocks 10-2 engages laterally centering in the interior of the lower concrete block 10-2. This creates a non-slip overall structure. The concrete blocks are 10-2 in the manner shown in each case by an inserted or cast-in cover 22 closed, which in the present case something in the interior of the concrete block 10-2 is countersunk so that the projection 24 can engage.

In order to obtain an arrangement that is as stable as possible, it should be the upper concrete block 10-2 is not in the region of the projection 24, but in the annular one Support the area of the concrete jacket on the lower concrete block 10.

In FIG. 5, one of two disposal containers is again only an example existing stack shown. Two concrete blocks 10-3 on top of each other are each provided at its bottom with an axially protruding annular projection 26, in a corresponding annular recess 28 in the area of the concrete casing face an adjacent concrete block 10-3 can intervene. The annular protrusions 26 and recesses 28 can also by individual, interrupted projections and Indentations can be replaced, as in the embodiment from FIG 1, the concrete blocks 10-3 can by aligning with their end faces in their interiors inserted or cast-in cover 22 must be closed.

The illustrated embodiments are merely exemplary, and numerous variations and modifications can be made within the scope of the present invention and adjustments to the respective operational requirements are made. Important is only that the formed with all-round flat outer boundary surfaces Concrete block from the stored barrel through an intermediate layer surrounding it on all sides is separated from a suitable filling material, so that a stable and rot-proof Final storage container results. The disposal containers can be stacked vertically, be done horizontally or at an angle.

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Claims (18)

Final storage containers for the disposal of radioactive waste Patent claims 1. Disposal container for the disposal of radioactive waste with a free one Hollow concrete block having interior and with an inserted into the interior, Barrel containing stored radioactive waste, characterized by an all-round, feasible space between the surface of the barrel (16) and the inner one Surface of the concrete block (10, 10-1, 10-2, 10-3) and through this space completely filling intermediate layer (18) enclosing the barrel (16) on all sides Made of a water-repellent and water-impermeable filling material. 2. disposal container according to claim 1, characterized in that the filling material of the intermediate layer (18) is a potting compound. 3. Disposal container according to claim 1 or 2, characterized in that that the filling material of the intermediate layer (18) is a bitumen mixture, a clay mixture, a plastic, a casting resin or the like. 4. disposal container according to one or more of claims 1 to 3, characterized in that the intermediate layer (18) has a thickness between approximately 0.5 cm to about 5 cm. 5. disposal container according to one or more of claims 1 until 4, characterized by a cylindrical interior of the concrete block (10, 10-1, 10-2, 10-3). 6. disposal container according to claim 5, characterized in that the height of the cylindrical interior greater than the height of the barrel used (16) is 7. disposal container according to one or more of claims 1 to 6, characterized by spacers (20) between the barrel surface and the inner one Surface of the concrete block (10, 10-1, 10-2, 10-3). 8. disposal container according to claim 7, characterized by separate, insertable spacers (20). 9. disposal container according to claim 7, characterized by with the Concrete block (10, 10-1, 10-2, 10-3) integrally formed spacers (20). 10. disposal container according to one or more of claims 1 to 9, characterized in that the from in the longitudinal direction of the concrete block (10, 10-1, 10-2, 10-3) extending boundary planes existing outer surface of the concrete shell (14) of the concrete block that can be inserted into a completely filled-out container assembly (10, 10-1, 10-2, 10-3) is polygonal in cross-section. 11. disposal container according to claim 10, characterized by a square cross-section of the concrete shell (14) of the concrete block (10). 12. disposal container according to claim 10, characterized by a equilateral hexagonal cross-section of the concrete shell (14-1) of the concrete block (10-1). 13. disposal container according to claim 10, characterized by a unequal polygonal, such as rectangular or trapezoidal, cross-section of the concrete shell of the concrete block. 14. Disposal container according to one or more of claims 1 to 13, characterized by a minimum wall thickness of the concrete block (10, 10-1, 10-2, 10-3) from about 30 mm to about 200 mm. 15. Final storage container according to one or more of claims 1 to 14, characterized by an open, closable by stacking several containers Top of the concrete block (10, 10-1, 10-2, 10-3). 16. Final storage container according to one or more of claims 1 to 14, characterized by a concrete cover that can be placed or poured onto the concrete block (22), 17. Disposal container according to one or more of claims 1 to 16, characterized by means of engagement means (24, 26, 28) which are fixed to the stack on the concrete floor and / or on the Top or on the concrete cover of the concrete block (10-2, 10-3). 18. disposal container according to claim 17, characterized by a from the concrete floor axially and centrally protruding, cylindrical projection (24), whose diameter is slightly smaller than the diameter of the cylindrical interior is and its axial length at most the distance between the top of the concrete block and the surface of the upper side located above the barrel (16) Intermediate layer (18) corresponds.