DE173976C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 173976 CLASS 12 «. GROUP .21.

Apparatus for the preparation of bisulfite liquor. Patented in the German Empire on January 4, 1905.

The present invention relates to the known apparatus for displaying Sulphite liquor, in which the mixture of sulphurous acid in a closed container Gas with a basic solution (lye) takes place by the gas flow after previous Cooling flows through the absorption cells located in the container one after the other. These devices have

various evils that manifest themselves as operational inconveniences and insecurities do. The reason lies first in the ineffective cooling of the sulphurous acid gas before it passes through. 15 flow through the individual absorption cells as well as in the absence of cooling when the gas passes from one cell to the next. These defects are as per the present Invention eliminates the fact that the gases and the solution through which they are passed, a thorough cooling experienced, the gases being distributed in such a way that they are both of the absorption liquor and also present a large target area for the coolant.

For this purpose the apparatus is divided into a number of cells, of which the one for absorption, the other for cooling the gases, the arrangement so is taken that the gases one after the other. Flow through the cold room and an absorption room. Furthermore, the sulphurous acid gas to be conducted into the first absorption cell cooled beforehand, namely the gas flow before it enters the for this purpose upstream cooling chamber reaches, pulled apart or widened to a very quick and efficient heat extraction to achieve.

On the drawings represents

Fig. Ι a vertical section through one for example. Embodiment of the apparatus according to line 1-1 in FIG.

Figure 2 is a top view of the apparatus.

Fig. 3 is a horizontal section along line 3-3 in Fig. I.

Fig. 4 is a vertical section taken on line 4-4 in Figs

Fig. 5 is a vertical section along line 5-5 in Fig. I.

The arrows drawn next to the cutting lines indicate the direction in which the relevant section is seen.

A large container 6 is separated by a number of partitions 7, 8, 9 Divided cells, the wall surfaces of which are covered with coverings 10, 11, 12, 13 of acid-resistant material are clothed. Two large cells 14 and 15 are formed, in the former of which are offset from one another horizontal partitions 16 protrude, while the latter with partitions arranged in the same way 19 is provided.

For stirring those in the container 6 Liquid stirrers 17 and 20 are used.

In addition to the cells 14 and 15, the partitions 7, 8 and 9 also form the two small cells 21 and 2i ^a (Fig. 1), in their

the former two horizontal plates 22, 23 are arranged, the tubes 24 support. These tubes are made of acid-resistant materials and are conveniently held in place by means of lead plates 22 ^a and 22 *. In order to be able to get to the tubes 24, there is a corresponding one in the outer wall of the container 6. Locking device 25 lockable manhole provided.

For the supply of water, which is to wrap around the pipes 24 for the purpose of cooling, pipe sockets 35 ^s and 35 ^{C are passed} through the wall of the container 6.

In the cell 2i ^a webs 26 made of acid-resistant material are attached, which 'serve as a carrier of an angularly bent cooling tube 27 through which a suitable cooling liquid can be sent in the direction of the arrows drawn above in FIG. 3.

The sulphurous acid gases are through (suitably three) nozzles 28, their mouths are relatively close to the ceiling of the container 6, fed to the apparatus. The nozzles 28 are connected to pipes 34, which serve to supply the sulphurous acid gas.

The container 6 is also provided with an upwardly projecting frame 29 which forms a channel 30 (FIGS. 1 and 2), in which the flanges 31 of a closure lid 32 which can be lifted off by means of handles 33 engage, whereby - in conjunction with an in.

this channel located liquid - a gas-tight seal of the cell 21 is formed will. A is used to drain away any excess liquid in the gutter Overflow pipe 35.

The gases are passed through the container 6 by means of the suction line 36, which opens into cell 15 at the top.

Furthermore, there is a pump 42 (FIGS. 2 and 4), which with pipes 43 and 44 is connected, in the first of which a valve 45 is arranged, while the pipe section: 44 has a valve 47. Into the pipe section connecting the pump 42 to the pipe 44 48 an A ^ valve 49 is switched on.

To introduce the liquor into the container 6, the ceiling of the container is provided with a filling opening 50 provided. The liquid in the container 6 is drained off through the pipe equipped with a valve 51 52 to which the tube 48 is connected. The apparatus described is used in worked in the following way:

First of all, a certain amount of the lye is introduced into the container through the opening 50 6 brought while the cover 32 is in place. Then through the tube 36 in the Cell 15 is sucked out air, as a result of the liquid in the cell 15 rises. At the same time, the pump 42 is put into action and thereby a part of the in the Cell 15 located liquid after the cell 14 pushed over. For the purpose the valves 45 and 47 are opened while the valves 49 and 51 are closed. Through this it is achieved that the cells 14 and 21 initially filled uniformly with the liquid will.

But since the removal of the cells in cell 15 trapped air with the help of the pipe connected to an exhaustor or the like 36 happens quickly, the liquid level in the cooling and Absorption cells are at different heights, as indicated by the broken lines in Fig. Ι is shown.

The sulphurous acid gases now penetrate as a result of the exerted by the exhaustor Suction from the tubes 34 through their nozzles in the upper part of the cell 21, expand in the process and then sweep through the tubes 24 into the lower part this cell. Here they continue to spread and pull, in a manner of speaking in the form of a thin barides, passing below the underside of the septum 7, then rise slightly and brush along the underside of the lowest septum 16 and continue in the direction of the arrows.

In this excellent distribution, the gases offer the action of the lye a large surface area, which means that the caustic solution quickly and effectively dissolves the gases act, d. H. it can absorb a large part.

But it is now known that gases, which Stroke through a vessel in which there is a (basic) liquid, the aspiration show to follow the walls of the vessel, whereby the described effect of the partitions can be explained and the fact It is understandable that the diffusion occurs with relatively great uniformity takes place.

The mixing of the gases with the solution is promoted by moving the stirrer bridges 17, and this happens in each department formed by the partitions 16 of cell 14.

Gradually the not yet absorbed gases heat up noticeably, so that at first their cooling appears to be desirable. This takes place in the cell 2i ^a provided with the cooling pipe 27.

The now cooled gases leave the cell 2i ^a under the partition 9 away in a similar spread as when flowing around it

of the wall 7 and come in the compartments of the cell 15 formed by the partitions 19 under the influence of the rotating stirrers 20.
Naturally, the absorption in the cell 14 will take place more vigorously, so that the caustic solution enclosed therein is ready more quickly. Therefore, the valve 49 is now first closed and then the valves 47 and 51 are opened. The pump 42 then draws the finished bisulfite liquor from the cell 14. By reversing the valves in such a way that 47 and 51 are closed again, while 45 and 49 are opened, the contents of cell 15 are directed to cell 14, whereupon cell 15 is filled with fresh liquor. In this way, the whole operation is uninterrupted, since there is no interruption due to the excess.

ao leadership of the lye from one cell to the other, respectively. by emptying takes place in a cell.

Since the gases are cooled before entering the cell 21 and their subsequent further cooling, as described, ^{takes place in the cell 2i a} , this double cooling eliminates the previously common arrangement of separate cooling chambers into which the gases were directed / Turn afterwards to be brought into contact with the lye again is superfluous. Of course, instead of the uniform container 6, the individual, correspondingly designed cells could also be moved together and connected to one another in an acid-tight manner.

Claims (3)

Patent Claims: 1. Apparatus for the preparation of bisulfite liquor, in which several cells of a closed container filled with absorption liquor are traversed by the previously cooled sulphurous acid gases, characterized in that between each two cells (14 and 15) of the container (6) a cooling chamber ( 2i ^a ) is switched on. which the gas stream must flow through when passing from one absorption cell to the other. 2. Apparatus for the preparation of bisulfite liquor according to claim 1, characterized in that the absorption cells (14, 15) and cooling chambers (21, 2i ^a ) through, not down to the ground or respectively. Partition walls (7, 8, 9) reaching to the ceiling of the container are formed for the purpose of preventing the gases from flowing over from one absorption cell into the adjacent cooling chamber and from this into the next. To guide the cell in the form of a wide band, which means that they present a large area of attack for both the absorption liquor and the coolant. 3. Apparatus for the preparation of bisulfite liquor according to claim 1, characterized by one in front of the first cooling room or the like (21) for the in sulfuric acid gas flowing into the apparatus, which the sulphurous acid gas is fed in divided through one or more nozzles is to flow through the cooling space (21) in this distribution. 1 sheet of drawings.