SE510806C2 - Purification device for a nuclear power plant as well as a purification plant with a number of such purification devices - Google Patents

Abstract

The present invention relates to a cleaning device (4) for a nuclear power plant for cleaning of water which is contaminated by radioactive particles and/or radioactive ions. The cleaning device comprises a filtering member arranged in a container (5). A pump means is arranged connected to the cleaning device for circulation of water therethrough. The container (5) is made as a substantially straight cylinder which is sealed at both ends and which exhibits an outer geometry which corresponds to the outer shape of a fuel assembly intended for the nuclear power plant in question.

Description

510 806 Most devices known today for purifying the polluted water are arranged at such a great distance from the source that the pollutants have time to spread over a large area in the basins before it reaches a purification device. During ongoing service work where release of particles occurs, therefore, some form of suction nozzle is usually arranged in the vicinity of the place where the radioactive particles are released.

The suction nozzle is arranged for suction of at least the main part of the polluted water to a treatment plant.

After completion of service work, the reactor and fuel basin is emptied of the water that is removed via the treatment plant, after which, for example, the pool walls and the reactor tank are cleaned before clean water is filled and the nuclear reactor is put back into operation.

For purification of the water, a treatment plant is usually used which comprises a filter. These filters often consist of so-called ion exchange filters. An ion exchange type filter comprises an ion exchange mass enclosed by a container. When the ion exchange compound is consumed, it is replaced with a new ion exchange compound while the container is reused. A disadvantage of the ion exchange mass is that it is bulky, which leads to large amounts of waste. The radioactivity emitted by the particles contained in the ion exchange mass can degrade the ion exchange mass which is usually a polymer. Such degradation of the ion exchange mass can lead to the release of radioactivity and degradation products which may be corrosive to piping and tanks or the final waste container.

A known device for purifying water which contains radioactive particles comprises a suction nozzle connected to a bag-like member placed in a container which is currently arranged in the basin.

The container is, for example, made of stainless steel and has, for example, the shape of a circular cylinder. The bag-like means comprises an inlet for water to be purified, an outlet for purified water and a filter arranged between the inlet and the outlet for purifying the water. After cleaning, the bag-like member is lifted together with the container to the surface and placed in a concrete mold. The mold is then filled with some casting mixture, eg cement.

A difficulty with conventional filters is the handling of these after the water in the pool has been purified.

Conventional filters, due to their design, must be handled and transported in specially designed containers, usually large and heavy, which are very expensive.

Another difficulty is that the personnel handling the filters after completion of use receive a certain radiation dose from the radioactive particles collected in the used filter. A particularly sensitive occasion is when the soiled filters are lifted above the water surface. In addition, personnel may be exposed to radioactive radiation in the event that the radioactive particles are not disposed of directly at the source. The radioactive particles can be collected in places such as in gaps, passages with lower water flow, valves or in pipe bends which are arranged in connection with the basins. When personnel perform service work in such places, it is exposed to radioactive radiation.

DESCRIPTION OF THE INVENTION The present invention relates to a purification device for purifying water which contains corrosion products in the form of radioactive particles and / or ions, such as crud from nuclear fuel or radioactive contaminants from performed or ongoing service work.

The purification device comprises a container which is designed in such a way that its outer shape corresponds to the outer shape of a fuel assembly intended for use in the nuclear reactor in question. Furthermore, the container at its upper end normally arranged in the reactor comprises a handle designed as a handle for co-operation with a lifting means so that the container can be handled as a fuel assembly intended for use in the nuclear reactor in question. Furthermore, the container at its lower part normally arranged in the basin comprises a bottom support intended to enable the utilization of existing storage means, such as fuel racks, for fuel assemblies arranged in the basins.

The upper end of the container normally arranged in the basin further comprises an opening for inlet of water to be purified and an outlet for purified water. At least the majority of the space enclosed by the container is filled by a filter for purifying the water contaminated with radioactive particles and / or ions. The filter as such is preferably a filter conventional for this purification purpose.

The advantage of the present invention is that by designing the tank in such a way that its outer dimensions correspond to the outer dimensions of a nuclear fuel assembly used in the current nuclear reactor, the purification device can be handled with handling equipment existing in the nuclear power plant intended for handling fuel assemblies or other reactor internal parts.

Furthermore, the design of the container allows the system for transporting radioactive core components to move radioactive internal parts from the reactor tank to, for example, a warehouse located in 510 806 a plant separate from the nuclear power plant, for example a final storage plant, to be used.

By enabling the use of handling equipment and transport systems already existing for fuel assemblies, the costs for handling and transport of the device according to the invention are significantly reduced.

The radiation dose to which personnel are exposed is reduced by the present invention by collecting the radioactive particles and / or ions at the source and transferring them to a filter arranged in a container which accompanies the filter for final disposal in the same manner as the fuel assemblies of the nuclear reactor plant in question. .

The container in the device according to the invention can, for example, be given the same external shape as a fuel element intended for a BWR, PWR or a VVER reactor. An advantage of this is that the placement of the purification device in a final repository is facilitated by its design.

The design of the treatment device means that already existing storage means adapted for final disposal of fuel assemblies can be used.

The tank is preferably made in the order of four meters in length, ie the length of the tanks corresponds substantially to the length of the fuel assemblies in question for the nuclear reactor plant. The container can also be made significantly shorter.

DESCRIPTION OF DRAWING FIGURES The invention will now be explained in more detail by reference to the accompanying drawing figures. Figure 1a schematically shows in a view from above a nuclear power plant comprising a purification device according to the invention.

Figure 1b shows the nuclear reactor plant in figure 1a in a side view.

Figure 2 shows schematically in a side view a purification device for purifying water containing radioactive particles.

Figure 3 shows a purification device according to the invention in a section A-A in figure 2.

Figure 4 shows a schematic embodiment of a treatment plant comprising a plurality of treatment devices according to the invention.

DESCRIPTION OF EMBODIMENTS Figures 1a, 1b show a reactor tank 1 arranged in a normally water-filled reactor basin 2. At each side of the reactor basin 2 a fuel basin 3 is arranged.

A purification device 4 according to the invention is arranged at any place in one or more of the basins.

Furthermore, a handling machine M arranged in connection with the basins is shown. The handling machine M is of a conventional type and intended for eg lifting and handling of fuel assemblies in and out of the reactor tank 1 and between the reactor basin 2 and one of the fuel basins 3, respectively.

Figure 2 shows a purification device 4 according to the invention embodied with an outer shape which corresponds to the outer shape of a fuel assembly selected for the embodiment for a boiling water type reactor. In case the purification device is to be used in a pressurized or VVER type reactor, it looks like the one shown in the figure but with the outer mats modified so that they correspond to the outer power of fuel assemblies for use in these types of reactors. Internally, there is no significant difference between the various embodiments of the invention.

The cleaning device 4 comprises a container 5 in the form of a substantially straight cylinder with a substantially rectangular cross-section. The normally downwardly arranged end of the container 5 is closed by means of a bottom part 6, and its normally upwardly arranged end is closed by a top part 7. The top part 7 is made with a handle 7a for lifting and handling by means of the handling machine M.

The bottom part 6 has been given a shape which corresponds to the shape of the bottom part of a fuel assembly intended for the nuclear reactor in question, the shape of which allows placement in a fuel rack arranged in at least one of the basins.

In the top part 7 there is arranged an inlet opening 8 for inlet of water to be purified with respect to contaminants in the form of radioactive particles and / or ions in the purification device 4 and an outlet opening 9 for outlet of water which has been purified.

Connected to the inlet opening 8 is a hose member 10 whose inlet opening is in turn formed with a suction nozzle-like member 11 for sucking in water to be purified for transport via the hose member 10 and the inlet opening 8 to the cleaning member 4. The hose member suction nozzle-like member 11 is preferably placed near in the basins, or in the reactor tank 1, where radioactive particles and / or are released to achieve efficient collection of the pollutants. In an alternative embodiment, the purification device is arranged in a closed system comprising an object, for example a fuel assembly, which is arranged for decontamination. The water which is passed through, for example, the fuel assembly for decontamination thereof is then conveyed to the purification device according to the invention for purification before it is returned to the water in the basin.

Figure 3 shows a section of the container 5, its bottom part 6 and its top part 7. In this embodiment, the filtering means is embodied in eight filter units 12 for filtering the contaminated water in four steps. During operation of the purification device 4, this is normally arranged vertically and immersed in the water in the basins.

The exemplary embodiment shown in Figure 3 relates to a cleaning device 4 where the container 5 in its normally arranged upper part comprises filter units 12 with a filter structure which allows capture of the relatively large particles in size, for example in the order of ten micrometers in diameter or larger. Furthermore, the normally arranged lower part of the container 5 comprises filter units 12 with a filter structure for capturing the relatively small particles in terms of size, for example in the order of one micrometer in diameter. When the water passes the filter units 12, a pressure drop occurs.

The pressure drop inside the container 5 is a measure of the degree to which the radioactive particles are stuck in the filter units 12. When a certain pressure drop has been obtained, the filter unit 12 and thus the purification device 4 is consumed, whereby this is replaced by a new one.

The filter units 12 have an extension in the axial direction of the container 5 which substantially corresponds to half the length of the container in axial direction. The space enclosed by the container 5 is divided into two, substantially equal, parts arranged axially separated by a partition wall 13.

The filter units 12 located in the normally arranged upper space 13a of the container 5 are arranged in a parallel manner. The filter units 12 in the normally arranged lower space 13b of the container 5 are arranged in the same parallel manner.

The water filtered through the filter units 12 arranged in the upper container space 13a is carried to the lower container space 13b through a passage opening 14 arranged in the partition 13. In an embodiment of the invention, partitions with an axial extent are also arranged (not shown) for separating filters 12. each other.

After purification of the filter units 12 arranged in the lower container space 13b, the purified water is conveyed to a collecting space 15 arranged in connection with the bottom part 6. An outlet line 16 is arranged to connect the collecting space 15 to the outlet opening 9. The purified water is thus discharged from the container 5 via the outlet line 16 and the outlet opening 9.

When the ability of the filtering means to purify the water has been reduced to a predetermined level or when the purification procedure is to be completed, the hose means 10 is detached from the outlet opening 9, after which the outlet opening 9 is closed.

Before closing the inlet opening 8, a drainage of the container 5 with respect to water and moisture must be made.

The hose member 10 arranged to the inlet opening 8 is arranged with the suction nozzle-like member 11 to a compressed air generating device (not shown). The supplied compressed air is preferably heated to a temperature, preferably in the range 20-80 ° C.

Heating of the compressed air allows a faster drainage. The compressed air is passed through the purification device 4, whereby remaining water in the container 5 is forced into a filter unit 12 in the upper container part 13a, 510 806, after which it is forced out into the space 18 between the filter units 12. Then the water is pressed into one of the filter units 12 in the lower container part and down into the collecting space 15. A drainage channel 19 is arranged to connect the collecting space 15 with a drainage opening 20 arranged in the top part 7. The water and the moisture are thus drained by means of the compressed air out of the container 5 via the drainage channel 19.

When the inside of the container 5 has been dried to the desired degree, the hose member 10 is removed from the inlet opening 8, after which it is closed as well as the drainage opening 20.

The drained container 5 is then transported by means of the handling machine M from the basin 2 or 3 to a space where a transport container for burnt out nuclear fuel intended for the nuclear reactor in question is located. Thereafter, the drained container in the transport container is transported, for example, to a final storage warehouse.

An example of a material useful in the filtering means is glass fiber which is arranged in the form of a tree in several turns around a core, preferably of stainless steel. This filter has a limitation in that it allows ionic radioactivity to pass through. In this case, since the level of radioactive activity is high, the purification device needs to be supplemented with a separate ion exchanger for trapping the radioactive ions, which is preferably inorganic. This ion exchanger is made, for example, of zeolite or a metal oxide ceramic.

In an alternative embodiment, the filtering means comprises a mechanical filter means. This filter means handles both radioactive particles and radioactive ions. Such a mechanical filter means comprises, for example, a ceramic filter made of zeolite or some metal oxide. Figure 4 shows a purification plant 21 for purifying water comprising a plurality of purification devices 4 of the above-described embodiment. The purification plant 21 comprises a first and a second purification device 4 arranged in series in such a way that water to be purified passes through only the first or first through the first and then through the second or only through the second purification device 4. The first and the second the purification device 4 is in an embodiment of the invention arranged in parallel with a third purification device 4a through which the water to be purified passes. This third purification device 4a can either be placed before or after the purification devices 4 arranged in series.

Figure 4 shows an example of a treatment plant 21 which more specifically comprises five treatment devices 4 according to the invention. Four of the purification devices 4, i.e. a first, a second, a third and a fourth purification device 4, are connected in series with each other.

The four series-connected cleaning devices 4 are in turn connected in parallel with the fifth, compare third above, the cleaning device 4a. The series-connected treatment devices 4 are connected as the treatment devices 4 arranged upstream are filled with impurities. The fifth purification device 4a contains a filter, a so-called fine filter, which is capable of trapping particles which are relatively smaller in size than the particles trapped by the series-connected purification devices 4. All water which is led into the purification plant 21 is thus able to pass through this fine filter. In an alternative embodiment, the fine filter consists of an ion exchange filter.

In a further embodiment of the invention, an ion exchange filter 30 is arranged downstream of the fifth purification device 4a. The treatment devices 4 are connected via a pipe system comprising a supply line 22 for directing contaminated water to the treatment plant 21 and an outlet line 23 for directing purified water from the treatment plant 21 back to the basin 2 or 3 in which they are located.

Downstream of an opening to the inlet line 22 and upstream of an opening to the outlet line 23, a valve means V1 is arranged for opening and closing the inlet and outlet flows, respectively.

A pressure measuring means 25 is connected between the inlet 22 and the outlet line 23 for continuous measurement of the pressure difference in these lines. Depending on the pressure difference, connection and disconnection of individual cleaning devices 4 is controlled. Furthermore, valve means V2 are arranged for connection and disconnection of the respective cleaning device 4, 4a.

The treatment plant 21 shown in the exemplary embodiment is designed in a very flexible manner. As the pressure drop across one or more purification devices 4 increases, further purification devices 4 are switched on.

Preferably, the already used purification devices 4 are not disconnected until they have been filled to a predetermined degree. The advantage of this is that each cleaning device 4 is allowed to be filled to the maximum before it is closed and passed on to final disposal. This in turn reduces the consumption of purification devices 4, 4a which otherwise have to be discarded before their capacity is utilized to the maximum. This also significantly reduces the cost of final disposal of the treatment devices 4.

By arranging the purification devices 4, 4a according to the invention according to Figure 4, filling of a minimum number of purification devices 4, 4a is made possible. This means that only half-full purification devices 4, 4a do not occupy unnecessary space in, for example, fuel racks in the basins or in a final repository.

A purification device 4, 4a according to the present invention can of course contain any number of filter units 12 for obtaining purification of water passed through it. The purification device 4 according to the invention can either be used as a separate unit for purification of contaminated water or be used as part of a system where purification of water is included.

Claims (13)

510 806 PATENT CLAIMS 14 A purification device (4) for a nuclear power plant for purifying water contaminated with radioactive particles and / or radioactive ions, the purification device comprising a filtering means arranged in a container (5), wherein a pumping device is arranged connected to the purifying device for circulation of water by this characterized in that the container (5) is designed as a substantially straight cylinder with a first end closed with a bottom part (6) and a second end which is closed with a top part (7) forming a unit having a external geometry corresponding to the external shape of a fuel assembly intended for the nuclear power plant in question, an inlet opening being provided for the inlet of the water to be purified and an outlet opening being provided for the outlet of the purified water. Purification device (4) according to claim 1, characterized in that the inlet opening (8) and / or the outlet opening (9) are arranged in the top part (7) of the container (5). Purification device (4) according to claim 1, characterized in that it comprises a first and a second filter unit (12) arranged one after the other in such a way that the water to be purified passes first through the first filter unit (12) and then through the second filter unit. (12). Purification device (4) according to claim 1, characterized in that the container (5) is divided into a first and a second part (13a, 13b) for purifying the water in two steps, the first part (13a) comprising a filter unit ( 12) for filtering relatively larger particles while the second part (13b) comprises a filter unit (12) for filtering relatively smaller particles. Purification device (4) according to claim 4, characterized in that the container (5) comprises a third part (15) arranged in connection with at least one downstream end of a filter unit (12) and to an outlet line (16) which opens into an outlet line ( 9) at the outside of the container (5). Purification device (4) according to claim 4, characterized in that the container (5) comprises a third part (15) arranged in connection with at least one downstream end of a filter unit (12) and to a drainage channel (19) which opens in the form of a drainage opening (20) at the outside of the container (5). Purification device (4) according to claim 6, characterized in that the drainage opening (20) is arranged in the top part (7) of the container (5). Purification device (4) according to one of the preceding claims, characterized in that a handle (7a) is arranged connected to the other end of the tank (5) so that the tank (5) can be handled as a fuel assembly intended for the nuclear power plant in question. A treatment plant (21) characterized in that it comprises a plurality of treatment devices (4) according to any one of claims 1-7, wherein the treatment devices (4) are connected by means of an inlet line (22) and an outlet line (23). Purification plant (21) according to claim 9, characterized in that it comprises a first and a second purification device (4) arranged in series in such a way that water to be purified passes through only the first or first through the first and then through the second or only through the second 510 806 purifier (4). l6 11. ll. Purification plant (21) according to claim 10, characterized in that the first and the second purification device (4) are arranged parallel to a third purification device (4a) through which the water to be purified passes. Purification plant (21) according to claim 11, characterized in that the third purification device (4a) is arranged downstream of the first and the second purification device (4) and comprises a fine filter or an ion exchange filter for purifying the water to a greater degree than the purification provided by means of the first and the second purification device (4). Purification plant (21) according to Claim 11, characterized in that an ion exchange filter (30) is arranged downstream of the third purification device (4a).