DE398710C - Device for dissolving salts, especially calcium salts, consisting of several individual cells - Google Patents

Description

Device for dissolving salts consisting of several individual cells, especially potash salts.

The invention relates to a device for dissolving salts. in particular Potash salts, and refers in particular to that type of dissolving device, which are composed of several individual cells.

The purpose of the invention is to completely separate the individual cells equally interchangeable and designed in such a way that each cell has its own side taken out of the overall arrangement and immediately replaced by another cell can be without it being necessary to therefore disassemble the entire assembly to have to.

This results in extraordinary advantages. The individual cells can, since they represent independent elements, be heated differently. That is useful for some types of operations. Steam and lye rooms can changed by increasing or decreasing the number of cells depending on the operating conditions will. Each cell can be monitored for leak tightness. aside from that arise with regard to the management of the salts to be dissolved and the dissolving liquid special advantages, which are explained in the description below.

It shows Fig. I an embodiment of the Vorrich device in the vertical Section, Fig. 2 a section along the line x-x of Fig. 1, Fig. 3 a further embodiment, Fig. 4 the combination of two devices, Fig. 5 to 8 schematic representations the possible uses for a system constructed according to Fig. 4.

The device according to Fig. I consists of individual cylindrical Segments 1. These have flanges 2 at the top and bottom, with which the segments are connected to one another get connected. so that they form a round tower. Each of the segments carries a heating pipe system 3 to which a steam feed line 4 or an exhaust steam or Condensate drain 5 is connected. The Heizrohrein construction 3 does not extend over the entire contents of the cylindrical segment. He leaves a certain space free in the lower half of the segment. In this room one runs with cell 7 Stirring device 6, which receives its drive from a back gear 7 '. The single ones Cells are separated from one another by inlaid bases 8. These, however, close not over the entire area, but rather have an expediently circular one at one point Dropout opening 9. As can be seen from Fig. 2, the heating fixtures 3 leave a Part of the interior of the elements is free. The raw salt is given up by any Transport and feeding device 10, which is to be enriched with further salt content Lye enters at 11. The device consists in the embodiment according to Fig. 1 of four identical heating and stirring elements. At the top is a head piece 12 put on, the device is closed at the bottom by a special funnel 13, which is connected to a discharge line 14.

The salts added at 10 are released by the upper agitator blades 6 gradually pushed over the opening 9, fall through the inside of the heating installation free molasses. a space on the conclusion below plate 8. Like the upper plate 8, this has an opening 9. However, this is offset so far from the one above that the salt first hits the ground falls and then slowly from this point through the stirring and transport device 6 is slid to the next opening. This salt transport is repeated from Level to level. The lye is stirred well at the same time, and it takes place all things a good heat exchange takes place between the heating installations and the lye.

By offsetting the openings 9 arranged in the bottoms 8 (See in particular Fig. 2) that despite the relatively low height the device, the crude salt covers a very long way to trigger. So it is achieved by this device an effect that was previously only possible with the large recumbent release devices.

The drive shaft 7 is subdivided several times, namely by shaft couplings 15. If any of the elements leak, it can be prevented as a result of the above Take out the entire structure and replace it with another reserve element immediately replaceable. This is compared to the previously known facilities of of particular importance, as this is entirely possible even in the event of minor operational disruptions have to fail. In addition, most known devices suffer from the fact that the heating elements are located in the upper part of the device, while the residue collects on the bottom and also the specifically heavier lye sinks while it ought to be at the top because it is because of its advanced concentration for the further solution a large supply of heat is required.

Such deficiencies are completely avoided by the invention. In every segment, the lye comes into close contact with every heating installation. Also the The heaviest lye always finds effective heating in the deepest part of the device before. This advantage is retained even if the lye is not used as before described, in cocurrent with the crude salt, but in countercurrent to this rises from the bottom up through the device.

The invention also has the advantage that dead spaces are completely avoided are. The external dimensions of the device are much smaller than that of the previously used release devices. This in turn gives the advantage lower heat losses.

The radiators 3 can be any saturated or superheated steam Origin to be heated. The heating temperatures are entirely based on the type of processed Crude salts or heated according to the character of the solution to be prepared. The condensate can be used in the usual way, for example, for feeding or preheating. In the former However, it is advisable to arrange a control device for each radiator 3, which automatically ensures that the draining condensate is not as a result Leakage of the pipe installation 3 is salty.

Instead of the indirect heating shown in Fig. I. Heating coils 3 can also be directly heated in such a way that the steam is sent through perforated pipes, from which it is immediately enters the lye and mixes with it. Also steam outlet nozzles for introduction of the steam and for a better mixing of raw salt and lye can be used.

The peculiar leadership of the crude salt through the openings 9 between the free space of the Heizeinbaues 3 through brings the advantage that the Heating elements can cover themselves little or not at all with residue.

Small circulation openings can also be provided in the bottoms 8 be to avoid the creation of dead spaces, even below the floors 8 under all circumstances to avoid.

The agitators 6 can be installed and removed through Alann holes.

The embodiment according to Fig. 3 of the drawing corresponds essentially of Fig. I. The difference, however, is that in the lower part of the Dissolving device arriving residue as well as the saturated liquor by means of a screw is fed to a bucket elevator or any other means of transport, so that so the whole tower is fully used without any dead space.

Fig. 4 shows the combination of two loosening towers 17 and 8. From the transport device 19 the crude salt initially falls into the first via a feed line 20 of any type Loosening tower I7, which is designed according to Figs. I to 3. A second supply line 21 brings crude salt into the second loosening tower I8. The two towers can be completely independent working from each other, but also working together.

The residues are removed from both devices by means of bucket elevators 22 and 23 brought up onto a removal device 24.

In this arrangement, both towers can be parallel to each other, for example work according to the direct current principle. But it can be done without difficult changes also the Carry out operation in the following way: The crude salt is In the first tower I7, the residue is largely leached out by the bucket elevator 22 conveyed upwards and now brought to a feed device 25, from where it falls into the second dissolution tower to be subjected to another leaching here to become.

The different operating modes are shown schematically in Fig. 5 to 8 shown. According to Fig. 5, the lye runs through according to the drawn Direction of the arrow the first loosening tower 17 in cocurrent, the second 18 in countercurrent.

In Fig. 6, the liquor initially goes through the second in countercurrent Release tower 18 * is then pushed over to the first tower 17 and runs through it in direct current.

According to Fig. 7, both devices are connected directly one behind the other and are traversed in direct current by the lye, while Fig. 8 also the One behind the other shows both or the charging with lye in countercurrent.

The description can cover all of the operational management options do not treat exhaustively, for it goes without saying that depending on the species of the crude salt to be dissolved and the lye to be achieved, the operational management itself will change. In any case, however, prove the examples explained that the new device can find an extremely versatile application without it being necessary to use them to change when transitioning from one operating mode to the other.

As Fig. 4 shows, the heating fittings can each be connected to a line 26 for superheated steam or to line 27 for saturated steam. The condensate is drawn off through line 28. The condensate itself can be removed with the aid of a condensate pump 29 either fed through line 32 to the heating elements of the second loosening tower 18 are or are pressed through the line 30 to a preheater 31, which the raw liquor preheated.

In order to check the condensate for its purity and thus immediately To be able to determine any leaks in the heating device, the condensate drain can be used each cell a condensate tester 3 1 arranged, the condensate example monitors for chlorine content and triggers alarms if necessary.

Claims (4)

PATENT CLAIMS: 1. Device consisting of several individual cells for dissolving salts, in particular potash salts, characterized in that each A special heating device (3) and a special discharge (g) for the cell Salts to be dissolved and a special stirring device (6) whose drive from a common vertical wave (7j, which corresponds to the cell height is subdivided, and that furthermore all cells under sidi are equally interchangeable and generally are designed in such a way that each cell for itself laterally from the overall arrangement can be taken out and replaced by another cell immediately without that 'the entire assembly needs to be disassembled. 2. Apparatus according to claim I, characterized in that in particular when using different heating means in the cells of the overall arrangement each The cell has a condensate detector located on the condensate drain (5), so that each cell is tested individually for the reliability of the heating device. 3. Apparatus according to claim 1, characterized in that in the A space is recessed from the heating device of each cell and the floors of each Cells each with a passage opening (g) for the crude salt provided and offset against each other in such a way that the one Bodeir dropping salt first over the perimeter of the floor from the stirrers and only then fall through the floor opening (gj into the next cell can. 4. Device for operating release devices according to claim 1 in multiple arrangements, characterized in that the release devices with conveying means (Bucket elevators, etc.) Are provided, which are set up in such a way that they the lye and the crude salt either to another place of use or to another Feed the release device, the lye supply depending on the type of operation in direct current or countercurrent can be passed through one or more dissolving devices can.