DE2227317A1 - Ultracentrifuge column - Google Patents

Description

The invention relates to an ultracentrifuge _{column or part of an ultracentrifuge column in a common housing P.} Such a column is known for example from DT-PS 1 191 To protect centrifuges from damage in the event of damage to an adjacent centrifuge In addition, the known column requires complicated pipe laying for transmission and cooling pipes.

The present invention is based on the object of improving an ultracentrifuge column of the type mentioned in such a way that that the difficulties just mentioned are avoided.

To solve this problem, an ultracentrifuge column of the type mentioned at the outset is proposed, which is characterized by is that several or all ultracentrifuges and possibly

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the drive elements of which are mounted in common upper and lower perforated plates, which are in one common for the centrifuges Housing are arranged. Such a structure enables maximum effective use of the space within the Housing and good stability of the centrifuges in relation to the housing and to each other · Placing the centrifuges in Groups with intermediate protection in the form of protective plates or rows of protective tubes is simple and, moreover, the Configuration chosen in different ways within the groups without the need for Uin constructions. That the centrifuges in this way in a common housing also means that the wall thickness of the protective plates and housing plates is exactly as large as the plate thickness, which would be required to protect a single centrifuge. The invention thus also leads to a significant saving in material .

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

1 shows a section through a centrifuge,

2 shows a column housing, partly in section,

3 shows a cross section through a column housing,

4 shows a pipe laying plan,

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FIG. 5 shows a cooling system for a column and FIG. 6 shows a column circuit diagram.

Fig. 1 shows a single standing centrifuge belonging to a column. A hollow rotor consisting of a cylindrical part 17 and two end parts 14 and 15 is mounted in a perforated disk 36. The rotor 14-17 is driven by an asynchronous motor (rotor 12, stator 13) or another drive element, and the lower part of the rotor or the motor is fastened in a lower perforated plate (grid plate) 29. The bearing 19 is lubricated via a lubricant supply 20 and a lubricating wick 21. The upper and the lower perforated plate 29 _t 36 are zusammengehalten- of reinforcing pipes 32nd The rotor of the centrifuge is mounted in an electromagnetic bearing 22 at the top.

The gas or the isotope mixture that is to be separated comes through the pipe 23, possibly from an upstream in a column located centrifuge or centrifuge floor and the enriched gas is via the pipe 24 and the impoverished ones discharged via the pipeline 25. The gas is taken off at the gas outlet opening 27 and 28. The motor stator 13 is attached to the lower bearing plate 18 and this in turn in the lower perforated plate 29.

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Fig. 2 shows a housing for a centrifuge column in which the various centrifuges are fixed in the upper and lower perforated plates 29, 36, and the whole column in one Housing 37 is arranged. The individual centrifuges are shown at 38.

3 shows in cross section a centrifuge column with rows of protective tubes 40, the centrifuge groups 41 of others Define centrifuge groups so that centrifuge damage does not cause any further damage than possible Centrifuges within the same delimited group of the column; the others are protected by the row 40 of protective tubes. the Rows of protective tubes can be replaced by protective plates. One achieved by these protective devices the advantage that a Protection that was previously required around each individual centrifuge, now only on the outer walls of the housing and / or between needs to be arranged the centrifuge groups, which leads to a significant saving of material.

Should be * Fig. 6 shows a Bltrazentrifugenkolonne in which 0.71 owned ^U S 235 ⁶ * ¹ * ^61111, so that one ^{gets hurt} ^ enriched 235 ^'fc · In the depletion portion is also contain U ₂ ^ _8. In FIG. 6, the blocks symbolically designate the floors of the column and the number indicated in the blocks with a prime symbol designates the number of centrifuges operating in parallel on the floor. At 42, unseparated gas (or isotope mixture) is introduced and

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separated into 14 centrifuges working in parallel, after which the partially enriched gas mixture is passed in the direction of enrichment (upwards in the figure) to the next "level" of the column with 10 centrifuges working in parallel. The fact that the number is smaller here is because the amount of gas has become smaller. Depleted gas is directed at 43 to the previous floor where it is re-enriched. At the end of the enrichment process, as you can see, only one centrifuge is still working and the enriched gas contains 2.1 % ^^ c · It can be seen that depleted gas is fed to preceding centrifuges in the direction of the columns on all floors.

Depleted gas with 0.25 % ^ 235 is taken from the three parallel centrifuges furthest away in the direction of depletion.

Fig. 4 shows * the pipe system for gas transmission between the various column levels of the schematic diagram according to FIG. 6. Natural UFg is fed to a column at 44, and from this junction point the gas mixture becomes common pipelines (main lines) for several centrifuges of the same Floor fed. The different floors (see Fig. 6) are labeled 1-11 in Fig. 4, with the same number for all Centrifuges on one floor, 1 is the one in the direction of impoverishment furthest floor (with 5 centrifuges in the one shown Case) and 11 (2 centrifuges) those in the direction of enrichment corresponding floor.

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From the feed point 44, the gas 16 is working in parallel Centrifuges are supplied and in the enrichment direction the gas partially enriched with Up-zc is in the pipeline 46 and removed. Coupling details are not shown. In this way, a complicated pipe laying with many pipes becomes avoided, and all pipes are in the housing 37 'which means that in the event of a leak in the pipe connections only effects within the column housing arise.

Depleted gas from floor 1 is withdrawn at 48, and enriched gas from floor 11 is withdrawn from 49.

The cooling system is shown in Fig. 5 and consists of several tubes 50 and 51 which pass through the upper and lower perforated plate 29 » 36 run, not along the centrifuges between the perforated plates. So you limit yourself to one cooling system per column instead of one per centrifuge.

Only the centrifuges that are connected to the column inlet are preferred

provided closest to each other, with perforations 50 /. Appropriate catfish if a pressure gauge is attached in the outer housing, Indicates that one or more centrifuges have stopped. The reason is that a centrifuge unit that has stopped causes greater leakage than a rotating one. The upper perforated plate 36. Has a hole for each centrifuge unit 38 and that said hole has a diameter which is slightly larger than the diameter of the centrifuge cylinder. The magnetic bearing stator

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' ORIGINAL INSPECTED

(at 22) the centrifuge unit has a larger diameter than said hole and is screwed to the top of the top plate (Fig. 1). The holder for the stationary Internal parts of the centrifuge unit are on the upper side of the upper perforated plate or on the aforementioned magnetic bearing stator screwed tight. The drive motor (12, 13) of the centrifuge unit, bearing plate (18) and bearing shell are on the lower Perforated plate 29 (Fig. 1) attached. The vertically arranged centrifuge units are expediently in transverse, parallel rows (Fig. 3) arranged in the column housing and connected so that the centrifuge units one and the same Process the uranium hexafluoride series with almost the same degree of enrichment. Collecting pipes (46, 47) for uranium hexafluoride (Fig. 4) with essentially the same degree of enrichment run parallel to the series mentioned. The shortest of the series mentioned on one side (11, Fig. 4) of the column housing contains one or more centrifuge units, the uranium hexafluoride. of the lowest possible enrichment level, and piping from these units goes through the wall of the Column housing to the outer main line for depleted uranium (49, Fig. 4). The short row (1), that of the mentioned row (11) is connected in an analogous manner to the outer main line for enriched uranium (48, Fig. 4), and at least one of the long rows (3-8), which lies approximately in the middle between said short rows, contains a number Centrifuge units, which via the pipe 45 with the outer

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Main line for the supply of uranium hexafluoride with a isotope content of TCrbonds corresponding to the starting material are.

The invention can be implemented in many ways within the scope of the following Claims are varied.

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Claims (12)

Patent claims: Ultracentrifuge column or part of an ultracentrifuge column in a common housing, characterized in that several or all of the ultracentrifuges and possibly their drive elements are mounted in common upper and lower perforated plates (29,36) which are common to the centrifuges Housing (37) are arranged. 2. Ultracentrifuge column according to claim 1, characterized in that that several centrifuges are connected to one another by transfer pipes that are located above the upper perforated plate (36) are enclosed in the housing (37). 3. ultracentrifuge column according to claim 1 and 2, characterized in that the centrifuges in several floors or Groups (1-11) are summarized, each of which, with the exception of possibly the floor at the end of the column, consists of several there is parallel centrifuges, the number of which is greatest at the inlet for the gas mixture to be separated, the floors are connected to each other in a cascade and the number the centrifuges decreases essentially from floor to floor in the direction of enrichment and / or depletion. 4. Ultrazentrifugenkionne according to one of the preceding claims, characterized in that sheet metal walls or rows of tubular protective elements (40) between the centrifuge levels or groups are arranged. 209853/0682 - 10 - 5. Ultracentrifuge column according to one of the preceding Claims, characterized in that the upper perforated plate (36) for each centrifuge unit has a honing plate with a Has a diameter that is slightly larger than the diameter of the centrifuge cylinder. 6. ultracentrifuge column according to claim 5, characterized in that that the magnetic bearing stand of the centrifuge unit has a larger diameter than the said hole and that the magnetic bearing stand is bolted to the top of the upper perforated plate. 7. ultracentrifuge column according to claim 6, characterized in that that the holder for the stationary inner parts of the centrifuge unit on the top of the perforated plate or is bolted to the magnetic bearing stand. 8. Ultrazentrifugenkionne according to one of the preceding Claims, characterized in that the drive motor, bearing plate and bearing shell of the centrifuge unit on the lower perforated plate (29) are attached. 9. Ultracentrifuge column according to one of the preceding claims, characterized in that the vertically arranged Centrifuge units are pleaded in transverse parallel rows in the column housing and connected in such a way that the centrifugal - 11 - 209853/0682 joint units of the same row with uranium hexafluoride edit almost the same degree of enrichment. 10. Ultracentrifuge column according to claim 9 »characterized in that that collecting pipes (46, 47) for uranium hexafluoride with essentially the same degree of enrichment parallel to the aforementioned Rows are arranged. 11. Ultracentrifuge column according to claim 9-10, characterized in that that the shortest of said rows on one side (11, Fig. 4) of the column housing one or more Contains centrifuge units that process uranium hexafluoride of the lowest possible degree of enrichment, and that a pipeline from these units through the wall of the column housing to the outer main line for depleted uranium (49, Fig. 4) leads. 12. Ultracentrifuge column according to claim 11, characterized in that that the short row diametrically opposite said short row in an analogous manner with the outer one Main line for enriched uranium (48) is connected and that at least one of the long rows, which are essentially between the said short rows are arranged, contain a number of centrifuge units, which via a pipe (45) to the external main line connected for the supply of uranium hexafluoride with an isotope content corresponding to the starting material are. - 12 2 0 9 8 5 3/0682 13. Ultracentrifuge column according to one of the preceding claims, characterized in that the housing contains a pressure gauge to indicate the failure of one or more centrifuges are attached. 209853/0682 Blank page