DE4216353C1 - Means to embed bound waste material in borehole - including material waste container which lowered into borehole, container base with closable outlet and cover - Google Patents

Abstract

An arrangement for embedding bound waste material in a bore hole includes a container which is lowered into the bore hole, a container base with a closeable outlet opening and a cover. The material waste container is placed in an outer container which, once placed in the bore hole, can be fixed. The container has a slot shaped outlet opening which extends diagonally over the container base and which can be opened by rotating the container. ADVANTAGE - The arrangement, e.g. for radioactive waste, is efficient and ensures that the waste is securely located without the formation of hollows.

Description

The invention relates to a device with which is a waste container lowered into a borehole in within the borehole by covering it with bulk is well embedded. The device has a Bulk container containing bulk material, which in the borehole can be drilled. At the container bo is a closable outlet for the Bulk material is provided, over which the bulk material in one after placing the waste container in the borehole between Waste containers and borehole wall remaining intermediate space is introduced.

Waste packages in boreholes in deep geological Housing formations is especially the end storage of radioactive waste is provided to a long-term protection of people and the environment from one harmful effect of the ionizing radiation of the to achieve radionuclides present in the waste. For radioactive waste with noticeable heat development lung (highly active fission product concentrates (HAW) and medium-radio headend waste (MAW) from the Wider processing of nuclear fuels) as well as spent Fuel elements from high temperature reactors (HTB-BE) become technical and safety basics conditions for the final laying of MAW and HTB-BE in Bohrlö of salt domes, BMfT project "MAW- and HTB-BE test storage in boreholes (MHV-Pro  jekt) ". The overall goal of this MHV project is the Ent development and testing of a safe final storage of MAW and HTB-BE in salt.

for the final storage of heat-generating MAWs and ver needed HTB-BE it is intended to put them in waste bin tie into uncased boreholes in underground Bring rock salt formations. The Waste containers in a surrounding the waste container Shielding container brought underground and there with transport a transport vehicle to the deposit animals. For this purpose, each shielding container is on one the borehole valve closing the borehole and the waste container using a container gripper in the shielding container and a coupling gripper on the conveyor rope coupled to a storage machine. After opening of the downhole valve and a bottom valve in the Ab The waste container then becomes an umbrella container storage machine lowered into the 300 m deep borehole and dropped off there. The one remaining after weaning Space between waste container and borehole wall is filled with salt grit, and the waste container becomes defined covered with salt pudding so that it eventually is completely embedded in salt gravel. Subsequently the next waste container is brought in. See here to DE-PS 39 24 625 and DE-PS 40 10 638 (PT 1.969 and PT 1.1014).

The object of the invention is a device for To embed the waste containers, which made it possible light, the salt gravel as bulk material and fill material without major cavitation around and on the waste area bind in the borehole and fill the free surface the overlap to which the next depot to be stored Drop containers should be set down as smoothly and horizontally as possible to train properly.  

This task is the beginning of a device mentioned type by the specified in claim 1 Features resolved. After that is the bulk container rotatably inserted in an outer container that together with the bulk container into the borehole is cash. The outer container is after its lowering at a distance above the waste container in the borehole fixable. The bulk container has at least one slot-shaped outlet opening, which extends over the The bottom of the container extends diagonally and turns when rotating of the bulk container can be opened. The outer container is open at the bottom and the exit slot is the dimensioned so that the bulk material when turning through the outlet slot falls around and onto the waste container and the space between the waste container and Filled borehole wall. Then the waste ge bind covered by the bulk material, the distance of the Outlet slot to the waste container is determined in such a way that a predetermined coverage level is reached. Turning the bulk container does not only even bulk distribution is achieved, it will rather the surface of the bulk material is also compared moderate and a relatively smooth footprint for the next waste container is formed.

To close the outlet opening is patented claim 2 a sealing strip attached to the outer container, which the outlet opening in the rest position of the bulk covers well. The bulk container rotates the outlet opening is opened in the outer container and the bulk material emerges. So always a certain one Coverage of the waste container with bulk material reached a spacer is attached to the outer container brings that before the bulk material exits into the drill hole a predetermined distance between the outer container  and top side of the waste container determined, Patentan saying 3. The distance is chosen so that the distance from the bulk Bulk quantity of bulk goods carried after covering of the waste container when turning the bulk container leveled from the bottom of the exit opening that can. You can adjust the distance electrical contactor or a computerized Use depth control. In the simplest case, Spacer one foot to put on the outer container provided on the waste container, claim 4.

In a further development of the invention it is after Claims 5 and 6 provided the bulk goods container in the outer container by means of a gear drive to turn its drive pinion into a ring gear intervenes. The drive motor is preferred for the on Drive pinion attached to the outer container and the On Drive pinion moves the bulk container over one gear ring attached to the bulk material container.

To guide the outer container in the borehole, the Outer container skids, which, if not on the spacer with a foot that can be attached to the waste container is provided, are preferably designed such that the outer container when rotating the bulk container Fix ters in the borehole, claims 7 and 8.

Below, the invention and further Ausge Events of the inventions based on Ausführungsbei play explained in more detail. The drawing shows in the individual:

FIG. 1 is cross-section through an apparatus for embedding A of waste packages in crushed salt accelerator as section line I / I of FIG. 2;

Fig. 2 is cross-sectional line II / II, which is intra-half placed a borehole on a waste container by a device according to Figure 1 in accordance.

Fig. 3 is partial section through a device of Figure 2 according to section line III / III.

Fig. 4 partial section analogous to FIG. 3 for a Vorrich device with pneumatic closure of the discharge opening.

In Fig. 1-3, a device for embedding waste containers that contain radioactive waste ent, reproduced in boreholes underground in a storage section in a salt dome. The waste containers are showered with salt grains after they have been brought into the boreholes. Fig. 2 shows the Vorrich device as an offset device in a borehole in a salt dome 1 above a waste container 2 placed in the borehole. The device is used to fill a space 3 remaining after the waste container 2 has been parked between the waste container 2 and the borehole wall 4 and at the same time to cover the waste container over its top side 5 with a layer of salt 6 , which in the exemplary embodiment according to DE-PS 39 24 625 is such it is dimensioned that each waste container is completely surrounded by salt gravel.

The device consists of a cylindrical outer container 7 in game Ausführungsbei, which can be closed or designed as a basket, and a likewise cylindrical bulk container 8 , which is rotatably mounted about its longitudinal axis 9 in the outer container 7 . For this purpose, the bulk goods container has a pin 10 which supports the bulk goods container on an axial / radial bearing 11 in the outer container. At its head, the bulk container 8 is driven in the exemplary embodiment via a gear drive which has a drive motor 12 attached to the outer container 7 with drive pinion 13 which can be driven by the drive motor, which engages to move the bulk container into a sprocket 14 spanning the bulk container 8 . To guide the bulk container 8 during its rotation in the axial / radial bearing 11 , the drive pinion 13 and further meshing gears 15 are used , which are rotatably fastened to the outer container 7 on supports 16 .

Outer container 7 and bulk container 8 are at the top of fen, the outer container has no bottom. At the container bottom 17 of the bulk container there is a slot-shaped outlet opening 18 for salt gravel, which is in the exemplary embodiment as bulk material in the interior 19 of the bulk container. The container bottom 17 tapers in a wedge shape towards the slot-shaped outlet opening 18 . In this narrowing in nenraumbereich of the bulk container there is also a displacement body 20 , which affects the distribution of the pouring out of the outlet slot good in the radial direction.

In the exemplary embodiment, the bulk container 8 has only one outlet opening 18 , which extends diagonally across the entire cross-section of the container bottom 17 and is dimensioned such that the bulk material, when falling onto the waste container 2 deposited in the borehole, also the space 3 between the waste container and Filled borehole wall 4 . Instead of only one outlet opening, two, three or more slot-shaped outlet openings can also be provided in the container bo 17 .

The outlet opening 18 is closed in the embodiment by means of a sealing strip 21 which is attached to the underside of the outer container 7 , see Figs. 2 and 3. In the angular position shown in the drawing between the outlet opening 18 and sealing strip 21 , the sealing strip covers the outlet opening so that Saltgrass cannot escape. If the bulk material container is rotated in the outer container 7 , the outlet opening moves relative to the sealing strip and opens to the outlet of the bulk material.

At the lower end of the outer container 7 , a spacer 22 is fastened in the embodiment, for example, with a base ring designed as a foot 23 . The height of the spacer 22 corresponds to a desired distance 22 a and is dimensioned in accordance with the saline overlap to be produced.

The diameter of the cylindrical outer container 7 is slightly smaller than the diameter of the borehole, the outer container is guided in the borehole via skids 24 .

The skids are in the case that no on the fall container 2 adjustable spacer with foot is seen before and the outer container 7 in the borehole hangs freely above the waste container on the rope of the storage machine, designed such that it the waste container 2 in the borehole on the borehole wall 4 fix and secure against rotation.

To handle the outer container with the storage machine, the outer container has a mushroom head 25 , which serves to anchor the gripper system of the storage machine. For filling with salt gravel, the bulk material container is positioned in the outer container so that the discharge opening 18 is closed by the sealing strip 21 . The volume of the filling is larger than the free volume to be filled with salt gravel in the space between the waste container and the borehole wall and above the waste container in the borehole.

The outer container is brought to the storage machine at the borehole in a shielding bell. After coupling the gripper system and opening the borehole slide closing the borehole, the storage machine takes over the controlled lowering of the outer container hanging on a rope into the borehole. When Absen ken the outer container is guided by its skids 24 . The outer container is lowered in the borehole until the foot 23 of the spacer 22 is placed on the waste container 2 previously placed in the borehole.

By rotating the bulk container 8 about its longitudinal axis 9 , the discharge opening 18 is free, the salt grus trickles over the discharge opening in the intermediate space 3 between waste container 2 and borehole wall 4 and in the free volume between the lid side 5 and 18 from opening. The salt grit falls into the free space below the discharge opening. The height of the bed is given by the height of the spacer 22 . When the bulk goods container 8 is turned further, the bed is widened until, after a corresponding angle of rotation, the entire cavity below the bulk goods container is filled with salt gravel.

A movement of the outer container 7 when the bulk container 8 is rotated is prevented by a frictional connection between the foot 23 and the top side 5 of the waste container 2 or alternatively by sliding skids 24 supported on the borehole wall.

After filling and embedding the waste container The bulk container is made with the salt grit ter brought into a position in which the discharge opening is closed again by the sealing strip. The excess salt grit remains in the bulk container ter.

The outer container is returned to the well entrance pulled and hung there from the gripper system.

After the downhole valve is closed, the Outer container removed within a shielding bell will. Another waste container can enter the borehole be lowered. It is being trained on the settled upper salt gravel layer.

Instead of the sealing strip 21 , other machine-technical elements for opening and closing the outlet opening 18 can also be used. A pneumatic sealing element 26 is shown by way of example in FIG. 4.

As an alternative to the spacer 22 for determining the height of the salt gravel covering the waste container and for positioning the outer container above the waste container to be embedded in the borehole, it is possible to lower the outer container to the ceiling side 5 of the waste container 2 , put it there and then increase it by the amount of Raise the height of the salt gravel cover to be introduced before the salt gravel is unloaded. A use of a computer-aided depth control is also advantageous.

In both of the above cases, the path results If the spacer is used, the overall height is reduced of the outer container and thus a reduction in it required height for the shielding bell for the outside container during its handling in the storage site. To fix the outer container in the drill hole without placing the outer container on the drain To reach drop containers, the skids will spread trained bar and the outer container by spreading the skids against the borehole wall against a ver turn secured.

Claims (10)

1.Device for embedding a waste container lowered into a borehole by covering it with bulk material by means of a bulk material container which can be introduced into the borehole and contains the bulk material and which has a closable outlet opening for the bulk material on its container bottom, via which the bulk material can be placed in a place after being placed of the waste container in the borehole between the waste container and the borehole wall , the gap and to cover the waste container is introduced, characterized in that the bulk container ( 8 ) is rotatably inserted in an outer container ( 7 ), which after lowering it at a distance ( 22 a) above the Waste container ( 2 ) can be fixed in the borehole, and the bulk container ( 8 ) has at least one slit-shaped outlet opening ( 18 ) which extends diagonally over the container bottom ( 17 ) and can be opened when the bulk container ( 8 ) rotates. 2. Device according to claim 1, characterized in that on the outer container ( 7 ) a sealing strip ( 21 ) is BEFE Stigt, which closes the outlet opening ( 18 ). 3. Apparatus according to claim 1 or 2, characterized in that on the outer container ( 7 ), a spacer ( 22 ) is introduced, which is a predetermined distance ( 22 a) between the container bottom ( 17 ) of the bulk container ( 8 ) to the ceiling side ( 5th ) of the waste container ( 2 ) determined. 4. The device according to claim 3, characterized in that the spacer ( 22 ) has a foot ( 23 ) for putting on the outer container ( 7 ) on the waste container ( 2 ). 5. Device according to claims 1 to 4, characterized in that for rotating the bulk material container ( 8 ) in the outer container ( 7 ) a gear drive ( 12 to 15 ) is provided, the drive pinion ( 13 ) engages in a ring gear ( 14 ). 6. The device according to claim 5, characterized in that the drive pinion ( 13 ) by a ter on the outer container ( 7 ) attached drive motor ( 12 ) is driven and the ring gear ( 14 ) on the bulk material container ( 8 ) be fastened. 7. Device according to one of claims 1 to 6, characterized in that on the outer container ( 7 ) skids ( 24 ) for guiding the outer container are attached in the borehole. 8. The device according to claim 7, characterized in that the skids ( 24 ) fix the outer container ( 7 ) when rotating the bulk container ( 8 ) in the borehole. 9. Device according to one of claims 1 to 8, characterized in that the bulk container ( 8 ) has a ver to the outlet opening ( 18 ) or to the outlet openings ver young container bottom ( 17 ). 10. Device according to one of the preceding claims 1 to 9, characterized in that a displacement body ( 20 ) for distributing the bulk material is provided in the bulk material container ( 8 ).