DE3623919C2 - - Google Patents

Description

The invention relates to a method for reducing volume the conditioning and fixation of contaminated, filter media containing radioactive cation and anion resins from nuclear facilities.

The cation and anion Exchanger resins are used in nuclear power plants in various filter systems sets z. B. for reactor water purification, pool cleaning treatment, condensate cleaning or wastewater treatment. These cation and anion exchange resins are formed on filter cartridges or filter plates as ions swapped masses. They are used to activate Filter out particles or nuclides (mechanical filtration, Ion exchange desalination). These particles arise as a result of corrosion and erosion processes in the pipeline systems. They become steam and water from the flowing medium worn away. These residues are caused by water withdrawal up to the dry substance (powder) as filter concentrates works and via the filter concentrate bunker as a collection put in 200 l drums and fed to the drum storage.

It is known to use filter concentrates with concrete as a container in qualified containers from official regulations (Nuclear Ge set) and in compliance with the activity limits of the beam protection regulation. It is also known that Filter concentrates in qualified waste and storage containers,  which correspond to the repository conditions.

It is also known that the interim storage capacities of Nuclear power plants will be almost exhausted in the near future. A The final repository for radioactive waste will be available in 1992 at the earliest Available. With intermediate or final storage is a volume extraordinary reduction in waste containers to be stored important.

To reduce the volume of waste materials, including those that occur in nuclear power plants and are contaminated with radioactive substances have been, among other things, ion exchange resins proposed to finely shred the waste materials with thermoplastic resins to mix and in extruders to compress (DE-OS 36 00 537). This procedure leads but not yet to make optimal use of the pre wrote qualified storage containers because of the compression limited in extruders and obtained with this process can not be stored tightly enough.

The object of the invention is to be achieved with an optimal process of the type mentioned To achieve compression and shaping of the filter mass, through the maximum possible utilization of the stacking space in the qualified storage containers.

To solve this problem it is proposed that the filter  mass first dried and in powder or granules be brought into shape and that the filter concentrates then by means of injection molding solid, non-leachable, flame-retardant molded articles be transferred their shapes and dimensions in such a way to the training the storage containers are adjusted so that they are in the Containers are stackable.

Further features of the invention are in the subclaims 2 to 5 specified.

The following results from the method according to the invention Advantages:

• 1. Volume reduction to approx. 40% of the initial volume.
• 2. Higher storage capacity in the intermediate and final storage.
• 3. High cost savings through greater use of power factory interim storage facility.
• 4. Further cost savings, since the final storage bins after Volume must be paid.
• 5. Conditioning by concreting (fixation with cement under vacuum) where a volume doubling occurs, can be omitted in the future.
• 6. The resulting shaped bodies or pellets are without further encapsulation leak-proof.
• 7. In the injection molding process, there is the possibility of to easily incorporate transport eyelets. By fast Striking and transporting results in a lock reduction in personal dose. (Dose rate minimization the Radiation Protection Ordinance.)  
• 8. In the injection molding process, each z. Currently conceivable Manufacture pellet shape adapted to each repository.

Based on the drawings, the invention is intended are explained further below. The drawing mentions show in

Figs. 1 to 3 different pellet forms,

Fig. 4 is a rectangular storage containers of concrete for the pellets,

Fig. 5 is a round storage container made of cast iron with pellets and arranged therein

Fig. 6 shows a lid for such a container.

The pellets of FIG. 1 are relatively flat square body that can be as indicated in Fig. 4, packed in a rectangular storage container. The pellets according to FIG. 2 have the shape of a circular ring segment and, as can be seen from FIG. 5, can be stored around circular pellets according to FIG. 3 in the round container, making optimum use of the space in the container. The pellets can according to FIG. 3 consist of slightly contaminated material and so strongly contaminated material in the form of pellets according to Fig. 3 shield to the outside.

The lid for the round container, as shown in FIG. 6, can also have special threaded bores for attaching screw eyes for the transport of the container.

Claims (5)

1. A method for volume-reducing conditioning and fixing of contaminated, radioactive cation and anionic resin-containing filter media from nuclear plants, characterized in that the filter media are first dried and brought in powder or granular form and that the filter concentrates are then by means of injection molding in solid, not leachable, difficult to combustible moldings are transferred, the shapes and dimensions of which are adapted to the design of the storage containers so that they can be stacked in the containers. 2. The method according to claim 1, characterized in that the filter concentrates before shaping approx. 10% poly propylene components are added. 3. The method according to claim 1 and 2, characterized in that the shaped body depending on the radioactivity of the filter con centers in different shapes and / or dimensions will. 4. The method according to claim 1 to 3, characterized in that for storage in containers with a round cross section Shaped body in the core of the container round and around it grouped shaped bodies formed as circular ring segments will. 5. The method according to claim 1 to 4, characterized in that the molded body with molded or molded transport eyelets.