DE3030321A1 - CASSETTE FILTER FOR SEPARATING RADIOACTIVE PARTICLES FROM THE REACTOR COOLING WATER OF NUCLEAR POWER PLANTS. - Google Patents

Description

Cassette filter for separating radioactive particles from the reactor cooling water of nuclear power plants

The invention relates to a cassette filter for separating radioactive particles from the reactor cooling water of nuclear power plants according to the preamble of claim 1.

In nuclear power plants, chemical attack causes oxides or other substances to form on the surface of various structural parts, such as on the inner surface of the reactor vessel, in pipelines or on the surface of the reactor core belonging items. These oxides dissolve in the form of very small particles due to currents or wear on the individual machine parts, such as valves, pumps, etc.

Because the contaminants arise and circulate in an environment with high radioactivity, this contains Particulate matter also radioactive isotopes. For example, an alloy component such as Kobolt can become a radioactive one Form isotope Co 60. This means that a filter containing a large amount of deposited material is highly effective is radioactive, so that the handling of this filter presents particular problems because of the radiation emitted by it. the

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Filters must be surrounded by radiation protection, and there is a corresponding safety distance when replacing the filter material to be observed. The radiation level can exceed 1000 mrem / h in the immediate vicinity of the filter.

The invention is based on the object of developing a filter of the type mentioned, in which the exchange of the Filter material can be carried out in a simple manner despite a high radiation level.

To the. This problem is solved by a filter of the type mentioned at the beginning Type proposed which according to the invention has the features mentioned in the characterizing part of claim 1.

Advantageous further developments of the invention are set out in the subclaims called.

In a cassette filter according to the invention, the filter cassette can be easily inserted into and removed from the filter housing with simple remote-controlled aids. A filter housing that can be closed by an upper cover can be provided for one or more filter cassettes. The filter cartridges contain a filter material that removes the impurities present in the cooling water of the reactor, in particular solid particles, catches. Preferably the filter housings are cylindrical and are placed vertically. A filter housing is internally provided with an inwardly directed flange or shoulder, which is designed like a valve seat. This flange

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or approach is used to one or more free-hanging filter cartridges to wear with filter material. At least one filter cassette is connected to an outwardly directed ring, which lies tightly against the flange or shoulder of the housing and carries one or more cassettes. By the described execution the cassette housing is divided into two separate rooms. The space above the cassette gets polluted water fed, while purified water is collected in the lower space, which is returned to the reactor vessel. Of the The filter is expediently in a branch lying parallel to the main water flow of the reactor. Just a small part of the Main water flow passes this purification branch.

Several filter cassettes can be arranged in the same filter housing that are connected in series or in parallel. Several filter housings can belong to a filter group, whereby the Filter housings can be connected in series or in parallel. In the filter cassettes, the filter material can be placed between sieves on the Be placed inlet or outlet side. A cassette can be designed with two concentric, ring-shaped slotted screens, between which there is an annular bed of filter material through which the water flows radially. One The cassette can also be provided with sieves at its ends, with the water flowing axially through the bed located between the sieves flows through from filter material. The filter material can consist of pieces of wire cut into small pieces, for example. the Impurities are largely absorbed on the surface of the filter bed material. A filter cartridge can be used with the Cover of the filter housing be connected in such a way that this cassette

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te with any other cassettes attached to this cassette is lifted by lifting the lid. The lid provides when lifting equipment is attached and during transport in a radiation protection an excellent radiation protection against radiation directed upwards to enlarge between the flange or extension in the filter housing and the ring carrying the cassette (s), between the Lid and the filter cartridge spring elements can be arranged.

The invention is to be explained in more detail on the basis of the exemplary embodiments shown in the figures. Show it

1 shows a filter in its arrangement in a nuclear power plant,

FIG. 2 shows the removal of filter cassettes from the filter housing according to FIG. 1,

3 shows a first embodiment of a cassette filter according to the invention,

4 shows a second embodiment of a cassette filter according to the invention,

FIG. 5 shows, on an enlarged scale, a vertical section through part of the filter cassette according to FIG. 3,

6 shows, on an enlarged scale, a horizontal section through part of the cassette filter according to FIG. 3.

In the figures, 1 denotes a space formed from concrete walls 2 and a cover 3. The lid consists of an outer one

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annular part 3a and an inner part 3b. A filter unit 4 is located in space 1. This unit contains a cylindrical filter housing 5 with a removable cover 6, which is fastened to the housing 5 with bolts 9. The filter housing is connected to the primary cooling water system of a reactor via an inlet line 7 and a return line 8. Since the filter unit 4 is connected to the primary cooling water system of the reactor, it must be dimensioned for the same pressure as the system, ie normally around 70 bar in a boiling water reactor. It may also be necessary to adapt the filter unit, the steam temperature is about 300 ⁰ C. Two filter cassettes 10 and 11 are arranged in the filter housing. The upper cassette 10 is connected to an inlet part 12 for controlling the direction of the water flow at the inlet of the cassette 10. The inlet part

12 is connected to the cover 6. When removing the cassettes 10 and 11, the concrete cover part 3b is removed and a radiation protection 13, which is shown in FIG. 2, is attached over the opening 14. After a rod 15 is connected to the lid-6 has been, the from the cover 6, the inlet part 12 and the cassettes 10 and 11 existing unit in the radiation protection

13 lifted into it. The cover 6 forms a protection against radiation radiation directed upwards. The radiation protection 13 with its contents is then removed, and the cassettes 10 and 11 and the inlet part 12 are separated from each other. The cassettes 10 and 11 can then be cast in concrete and deposited in a known manner will.

As can be seen most clearly from Figures 3, 4 and 5, has

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the upper part of the filter housing 5 has a larger diameter than the lower part. At the point of the diameter transition there is a shoulder 16, which with an inclined surface 17 as a valve seat is formed. The upper cassette 10 is provided with a ring 20 with a spherical surface 21 which is attached to the inclined surface 17 of the projection 16 at the diameter transition of the housing 5 is applied. The surfaces 17 and 21 are in direct contact so that there is a seal between two metal surfaces receives. The interior of the filter housing is divided into two spaces 22 and 23 by the ring 20 and the cassette 10. The cassettes 10 and 11 are carried by this ring 20 and hang freely in the filter housing 5. This design of the cooperating and surfaces 17 and 21 sealing one another are obtained automatically a centering of the filter cartridges 10 and 11 during insertion as well as an even and secure fit between the surfaces and thus a secure, good seal even without Sealing rings of any kind. By reducing the acute angle of the conical surface 17, the surface pressure increase to a value desired for a good seal. The feed line 7 opens into the upper space 22 and the return line 8 opens into the lower space 23. The upper cassette 10 contains a socket 24 with flanges 25 and 26. The lower Cassette 11 includes a socket 27, a flange 25a and a circular bottom plate 28. The inlet part 12 is flanged 30 and 31 provided. The cassettes 10 and 11 are connected to one another via the flanges 26 and 25a by bolts 32. The inlet part 12 and the cassette 10 are connected to one another via the flanges 25 and 30 by bolts 33. The inlet part 12 is connected to the cover 6 via the flange 31 through the bolts 34

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bound. The bolts 32 and 33 are in the flanges 25 and 25a welded in place, while the flanges 26 and 30 are provided with openings for the bolt heads and grooves for the bolt shafts are. The bolt heads are pushed through the openings, whereupon the cassettes are rotated so that the bolt shaft enters the groove. So it is a bayonet connection. Between the cover 6 and the flange 31 springs are provided, which the entire cassette unit with increasing Press force against surface 17. The filter material 35 is between two annular, concentric sieves 36 and 37, between a disk 38 and a ring 40 in the upper filter cassette or between a ring 41 and the base plate 28 placed in the lower filter cassette. As can be seen from FIGS. 5 and 6, the sieves consist of disk rings 42 and 43 and spacer elements 44 and 45. These disk rings 42 and 43 and the spacer elements 44 and 45 are made of bolts 46 held together. The gap width is selected to be somewhat smaller than the grain size of the filter material 35. Will be cut up Bits of wire with a diameter of 0.4 mm and a length of 0.4 mm are used as the filter material, so are expediently Spacer elements with a thickness of 0.2 mm are used.

In the filter design according to FIG. 3, water flows from the inlet pipe 7 into the space 22, from there into the inlet part 12, from there into the space 47uad down into the gaps 48 and 50 between the Pipes 24 and 27 and the sieves 36, from there radially through the filter material 35 into the central space 51, from there down into room 23 and then into the return line 8.

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Bel of the filter design according to FIG. 4 are in the cover 51 and 52, respectively as well as in the base plate 53 or 54 sieves 55 or 57 and 56 or 58 arranged. Filter material 60 is arranged in the spaces between the sieves. The lid 51 and the bottom plate 53 are connected by a pipe 61, so that a gap 62 is formed between this pipe 61 and the pipe 24. The lid 52 and the bottom 54 are connected to the pipe 27 and a pipe 63, so that an annular space is formed for the filter material 60. That Tube 63 forms a central axial channel 64. The bottom plate 65 of the filter cassette 10 is provided with a pipe socket 66 and the Lid 52 of the filter cassette is provided with a corresponding nozzle 67 through which the cassettes 10 and 11 are connected to one another are connected. This creates a connection between the space 68 in the cassette 10 and that through the cassette 11 through channel 64.

On the one hand, water flows through the sieve 55 and axially through the filter material 60 and the sieve 56 into the space 68 and from there through the channel 64 to the space 23. Another part of the water flows from space 47 through the gap 62 down to the cassette 11 the sieve 57, the filter material 60 and the sieve 58 to the space 23.

In the filter there can be filter cartridges of other shapes and more Filter material can be used as it was explained with reference to the exemplary embodiments. For example, filter cartridges be built as flat filters of various types.

The cassette filter described above can be self-

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understandably can also be used to separate other solid impurities from any liquid.

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Claims (11)

Patent Attorney and Attorney ^J1 '^,': ' Dr.-ing. Dipl.-Ing. Joachim Boecker 6 Frankfurt / Main I '10 .7.19'-O Ralhonauplalz 2 β _ / qi ~ \ ι χ η 1 ' Telephone: (06Tl) -28 23Oa ^ ZP ^ ' ⁵ ^ * Telex: 4 ΊΘ9 066 itai d Patent claims:
/ '' j ^ -Cassette filter for the separation of radioactive particles Reactor cooling water from nuclear power plants with a cooling water circuit connected filter housing for one or more filter cassettes, characterized in that the filter housing (5) at the top contains an opening that can be closed by a cover (6) and at its upper part an inwardly directed opening Has flange or shoulder (16) which is designed as a valve seat is that a filter cartridge (10) filled with particle-trapping filter material or one that carries the filter cartridge Unit is provided with a ring (20) which is designed so that it seals against the flange designed as a valve seat or approach (16) and the said filter cartridge (10) carries which, possibly with further in the longitudinal direction with her connected filter cassettes (11), hanging freely in the filter housing, and that the ring (20) together with the filter cassette (10) or of the unit carrying it divides the filter housing (5) into two separate spaces (22, 23), which are connected via their respective line (7, B) are connected to the cooling water circuit in the reactor. Cassette filter according to claim 1, characterized in that the supporting ring (20) of the cassette filter (A) directly on the valve seat flange (16) of the filter housing ^ (i?) is applied so that there is a metallic contact between these two elements. 130011/0666 / 2 COPY 7/10/1980 20 839 P. 3. Cassette filter according to claim 1 or 2, characterized in that that designed as a valve seat flange (16) of the filter housing (5) with an inwardly inclined, preferably conical surface (17) is provided. 4. Cassette filter according to claim 3, characterized in that the ring (20) carrying the filter cassette has a spherical one Surface (21) is provided which rests against the inclined surface (17) of the flange (16) of the filter housing. 5. Cassette filter according to one of claims 1 to 4, characterized in that that the cover (6) of the filter housing is provided with gripping members for lifting devices and that the cover (6) and the cassette (10, 11) are connected to one another in such a way that the cassette (10, 11) lifts the cover (6) follows. 6. cassette filter according to claim 5, characterized in that the cover (6) of the filter housing (5) and a cassette (10, 11), for example by bolts (34), are permanently connected to one another in such a way that a certain axial relative movement between cover (6) and filter cassette (10, 11) is possible. 7- cassette filter according to one of the preceding claims, characterized characterized in that several filter cassettes (10, 11) belong to a filter housing (5), which filter cassettes (10, 11) can be connected in parallel or in series. 130011/0666 / 3 7/10/1980 20 839 P. 8. Cassette filter according to one of the preceding claims, characterized in that several parallel or series-connected Cassette filters (4) belong to a filter group. 9. Cassette filter according to one of the preceding claims, characterized in that the filter cassettes (10, 11) contain two concentric wedge wire screens (36, 37), between which there is an annular space with filter material (35) is through which the water flows radially (Fig. 5). 10. cassette filter according to one of claims 1 to 8, characterized in that the filter cassettes (10, 11) at their Ends are provided with slotted sieves (55, 56, 57, 58) and that filter material (60) is arranged in the space between these through which the water flows axially. 11. Cassette filter according to claim 9 or 10, characterized in that that the filter material (35, 60) consists of small pieces of wire cut into small pieces. / 4 13001 1/0666