NL8203791A - MARITIME CONTROLLED STORAGE OF HARMFUL MATERIAL. - Google Patents

Description

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Maritime controlled storage of harmful material

The invention relates to a storage space for controlled storage of harmful material, and in particular of radioactive waste material packed in vats or the like.

5 Various options are available for the storage of this material.

One is that the radioactive material is dumped into sea troughs far from civilization. Although such storage is safe in itself over a long period of time, there is no longer any control over the material once dumped.

It is quite conceivable that in the future opportunities will be created that provide a definitive solution and that are fully environmentally acceptable.

It would therefore be highly desirable to have an opportunity to recover the radioactive material from the sea bed to store this material in the improved art. The recovery of this waste material from the seabed is, apart from the enormous costs, extremely complicated, if not impossible, for the time being.

In addition to the dumping of radioactive material in the sea, the radioactive waste material packed in barrels or the like can also be stored in so-called salt domes which are located quite deep underground. Although it has the advantage here that the radioactive material can be recovered relatively simply and at not too high a cost, and in addition interim corrections can be made in the storage against any undesired developments, it is felt as a drawback that the salt domes are too dense 30 are located in the civilized world, and the waste material stored therein could possibly come into contact with groundwater intended for use, as a result of a possible movement of the soil layers in which the salt water coils are located.

The object of the invention is to provide a storage space in which the radioactive waste material stored in barrels or the like, measured over a long period of time, can be stored safely and in a controllable manner, and can subsequently be recovered therefrom in a simple and inexpensive manner, wherein moreover, the storage is located far enough away from the civilized world and therefore does not endanger society and the ecosystem in which society functions.

The object is achieved in that, according to the invention, the storage space is a floating and submersible construction that can be sunk at least in part into the sea bottom and is provided with a lockable access for storing the harmful waste material in the construction.

The storage space is preferably divided into a number of separate compartments, each of which can be closed with an access hatch. The state of the material stored in the compartments can e.g. be measured, registered and regulated using measuring and control equipment. Any undesired developments can then be intervened, e.g. in the form of a forced cooling of the seawater or freshwater present in the compartments if the temperature of the vessels with the radioactive material stored therein threatens to become critical, or e.g. by lifting the storage space from the seabed and to. another better place to transport.

A specific advantage of the described storage space is that, before being sunk, it is first fully or partially loaded at the quay, or where possible at the location where the radioactive waste is produced, and then to the desired location. to be towed and sunk.

The possibility of both full or partial loading of the storage space on the quay or in its submerged state provides a high degree of processing flexibility.

8203791 *% -3-

The invention will be explained in more detail below with reference to an exemplary embodiment and with reference to the drawing. In the drawing: Fig. 1 shows a longitudinal section of a storage space divided into a number of 5 compartments along the lines I-I of Fig. 2, partly sunk into the seabed and wherein e.g. the compartments are filled under water with the waste material by means of a floating trestle; fig. 2 shows a top view of the storage space of fig. 1; fig. " 3 a side view of the storage space.

The drawing shows an elongated storage space 1 which is divided into a number of separated compartments 2, each of which can be closed with an access hatch 3. The storage space is preferably made of reinforced concrete, in order to allow a long service life and is designed to be a floating and also submersible construction with sufficient stability and the possibility of being brought back into a floating position from its sunken position.

Instead of reinforced concrete, another material or material combination can also be chosen with a long service life and possibly with a sufficient shielding factor for radioactive radiation. The construction must be provided with a seal to prevent osmosis.

It is clear that in addition to an elongated construction, other shapes are also possible. In view of a floating displacement over the sea 4, a long-throw shape is clearly preferred.

Generally, the storage space 1 will be constructed in a dry dock to be towed from there to a desired location, to be sunk there and using e.g. sand dredgers 35 (not shown) to be placed partially or under the seabed 5, thereby fixing the location.

8203791. -4- • The installation of the storage space down to the seabed should be such that at least the access hatches 3 protrude above the seabed.

With the aid of a floating trestle 6 and the radioactive waste material packed in vessels 8 or the like with a vessel 7, these vessels 8 can be placed in the compartments 2 concerned via the opened access hatches 3.

The use of separate compartments 10 makes it possible to store different types of radioactive waste separately, and it also has the advantage that the storage space can be filled in stages.

In addition to the closure with the access hatches 3, an additional closure can be obtained by applying underwater asphalt over the 15 access hatches or pouring concrete thereon, if desired. Such a barrier largely ensures that the seawater or freshwater present in the compartments, which is possibly "contaminated" via the vessels, as a result of loading under water, cannot come into contact with the seawater outside the storage space. The packaging of the waste material can be provided with cathodic protection if necessary.

If desired, with the aid of a closed cooling water circulation system 9, each of the compartments can be individually forced cooled by the - isolated - sea water or fresh water present in the compartments.

This cooling water circulation system can serve as additional safety for the case in a particular compartment, where a vessel present there threatens to reach a critical temperature by heat development of the radioactive waste material. Here too, the advantage of the individual compartments is evident, as any undesired effects per compartment remain limited.

If the storage space is provided with a closed cooling water circulation system, it can be accommodated in a suitable separate compartment 10 within the storage space 1. The drive section of 8203791-5-r. the cooling water circulation system can be forced. cooled with the open water, via so-called intercooling 11.

Measurement and control equipment for measuring, recording and controlling the conditions in each of the compartments 2 can also be arranged in such a compartment, the measurement results being transferred via a transmitter to a central reporting station on shore. It is also possible to provide an underwater lock, not specified in more detail, for gaining access to the compartment 10 under water. Under the compartment 10, another compartment 12 can be arranged, with an energy source for it. the cooling water circulation system and the measuring and control equipment.

If desired, the measuring and control equipment 15 can be accommodated on a tower 13 constructed on the storage space 1, which protrudes above the water surface 4 and in which the transmitter is also arranged, and which tower can also be designed such that via the interior of the tower access is gained to compartments 10 and 12. The tower is an important stabilizing element during the sinking phase of the storage space, which tower is removably coupled to the storage space in order to repair or replace the equipment housed in the tower elsewhere.

The cooling water circulation system 9, at least the driving part thereof and the energy source, can also be accommodated in the tower.

The presence of equipment compartments 10 and 12 and / or tower 13 may e.g. be made dependent on the depth of the seabed in which the storage space rests. It is clear that even without these elements one has a very controlled storage.

The immersion can take place by pumping sea water into the compartments of the storage space.

The seawater in the compartments can be replaced after the access hatches have been installed by pumping in freshwater, in order to create a less corrosive environment for the stored vessels.

8203791

Claims (4)

1 CONCLUSIONS. 1. Storage space for controlled storage of harmful material packed in barrels or the like, characterized in that the storage space (1) is a floating and submersible construction that can be sunk at least in part 5 in the seabed (5). Storage space according to claim 1, characterized in that the storage space (1) "is divided into a number of separate compartments (2), each of which can be closed with an access hatch (3). Storage space according to claim 1 or 2, characterized in that the storage space (1) contains equipment that responds to the state of the harmful material (8) stored in each of the compartments, wherein the information obtained can be registered in a central report. 15 thing post. Storage space According to claim 3, characterized in that the equipment comprises a closed cooling water circulation system (9) to cool each compartment (2) separately when the harmful material (8) threatens to reach an undesirably high temperature. 8203791