DE3109646A1 - METHOD FOR PRODUCING SOLUTIONS AND DEVICE FOR IMPLEMENTING THE METHOD - Google Patents

Description

jci, .A. ΙΑ-ίΚ,.:. ^ Υ u. ^ Ucuiliikbiiiü 4 - 67ΟΟ Ludwigshafen / Rh.

- KS 519 -

Process for the preparation of solutions and device for carrying out the Procedure

The invention relates to a method for producing solutions that are sparingly soluble and / or tend to clump Substances by introducing the solid into a violently agitated solvent.

It is known to introduce solids into the solvent stream in a pipeline in uniform doses.

It is also known to produce a solution in a vessel, the solvent first being filled in and during or after entering the solid is stirred.

For substances that are difficult to dissolve and / or tend to clump It takes a longer time for the solid particles to completely dissolve and for a homogeneous mixture to be achieved. Multiple Part of the solid is deposited in dead spaces in which it is difficult to dissolve.

- KS 519 - Joh.A.Bendüser \ tÄ £ jerkdiniköinbH

- 5 -

The object of the invention is to improve the distribution and movement of the solid particles in the solvent and for longer to keep floating, so that the dissolving process is prolonged and there is intensive contact with the solvent.

According to the invention, this is achieved in that at least during the addition of solids, the solvent is mixed with fine Gas bubbles displaced.

The solid is expediently added after a predetermined one has been prepared Minimum amount of the water-gas mixture.

According to the preferred embodiment of the invention, the gas-solvent mixture is brought under a high flow rate into the area near the bottom of a solvent container.

In a further embodiment of the invention it is proposed that the gas by the kinetic energy of the solvent or into the solvent under a pressure greater than hydrostatic pressure brings in.

It is also proposed that after introducing the specified Amount of solvent circulates the mixture until the solid is completely dissolved.

The invention also relates to a mixing device for implementation of the procedure. This is characterized in that it is like an ejector with a downstream input station is designed for the solid.

The mixing device is preferably in the area close to the ground a solution container arranged. Here, the input station for the solid can be in the upper area of the solution container be arranged. Such an input station can have a filling funnel, the exit opening of which is divided by webs is, which are preferably designed like a roof, the inclination of their surfaces that of the inner surface of the funnel

Job. A. Bendiser Yi üs> & ricchnik GiHi) H

- KS 519 -

is equivalent to.

According to the preferred embodiment of the invention, the mixing device has several ejectors that are parallel or are arranged radially.

The ejectors are expedient with a common solvent line and one surrounding it as a jacket tube at a distance concentric gas pipe connected.

According to a further proposal, the gas line is arranged in the solution container and has a with in its upper area the inside of the container communicating opening.

Furthermore, the container can be connected to the atmosphere.

To produce a circuit it is proposed that the Solvent line is connected to the solution tank via a lockable branch line and a pump.

It has been found that the rate of dissolution of solids can be increased significantly if the vigorously agitated solvent is mixed with fine gas bubbles. In a pipe In this way, an axial and a radial movement component is created, through which a solid particle not only moves with but also in the resulting solution is moved.

Conditions similar to flotation occur in a solution tank with the difference that the foam formation is expediently limited, so that the ascending, the solid particles transporting gas bubbles burst on the surface, after which the particles sink again until they are replaced by new gas bubbles be carried back to the surface.

_ 3! 096 ί 6

Joh.A. Benckiser hWrui

- K3 519 -

In many cases, the solid particles succeed in filling the container with the specified amount of solvent to dissolve the required time completely. If this is not the case, the solution can then be circulated until the solid residue is also dissolved.

For example, it is possible to use a concentrated polyphosphate solution in a few minutes in a simple manner, as used as limescale protection for pipes in water treatment is used.

Since the method can be carried out in a flowing medium as well as in a turbulent moving medium, the in the manner of an ejector with a downstream input station Mixing device designed for the solid is connected upstream of the storage vessel for the finished solution or is arranged in it be.

A basic form of training for an ejector is intended here, in which there is an inlet for the gas to be admixed in front of the solvent nozzle, which is entrained by the solvent stream passes into an enlarged, preferably cylindrical channel, in which or behind which the solid component is introduced will.

An embodiment of the invention is explained in more detail with reference to the drawings. It shows:

Figure 1 - a solution container with mixing device in section; Figure 2 - the ejector device of the item of Figure 1 in longitudinal section;

FIG. 3 - a filling funnel in longitudinal section; Figure 4 - the subject of Figure 3 in plan view;

The solution container t is used to produce a supply of concentrated polyphosphate solution for preparing the drinking

- KS 519 -

Joh. A. Benckiser V / assertechnik GmbH

and domestic hot water in a building. The cylindrical container 1 is via a solvent line 2 and a shut-off valve 3 connected to the water pipe 4. The line 2 is in a vertical, central jacket tube 5 down to the bottom area of the container 1 out concentrically. At its lower end is the line 2 with a nozzle head 6 and the jacket pipe 3 connected to an output head 7, the radial from the central bore 8 of the nozzle head 6 Nozzles 9 with the cylindrical bores 10 of the output head 7 opposite their mouths form an ejector ring. In the area of the nozzle 9, the nozzle head 6 has a smaller diameter than the inner diameter of the pipe 5, so that a Annular space 11 between the exit of the nozzles 9 and the entrance the holes 10 is present. At its bottom is that The nozzle head 6 is firmly connected to the output head 7. The jacket tube 5 is at its upper end with the top wall 12 of the Container 1 is firmly connected and has an opening 13 in this area.

The filling station for the solid consists of an opening in the top wall 12 of the container 1, into which the filling funnel 14 can be inserted. Its exit opening 15 is divided by intersecting webs 16, so that partial openings 17 form therein, the webs 16 being designed like a roof and the inclination of their surfaces 18 corresponds to the inclination of the inner surface 19 of the funnel 14.

The mixing device works as follows. After opening the valve 3, water flows through the line 2 into the container 1. Here, the water jets emerging from the nozzles 9 suck out of the Annular space 11 air, which distributes into fine bubbles in the water jet with this exits through the bores 10 in the container 1.

- 9,. Joh. A. Benckiser 'vt'osscrtechnik GmbH

519 -

You can start adding the phosphate now, but it is advisable to wait until the water level is reached is slightly raised, about the height of the holes 10 is. Since the solids in a relatively short time from the Funnel 14 run out and when the water level is low, the transport effect of the air bubbles is lower, on the other hand the Turbulence of the water is not a sufficient speed of dissolution otherwise the risk of slight clumping cannot be completely ruled out. On the other hand, it's for filling the The time required to fill the container with water is much longer than the time required for the phosphates to be added, so that there is no need to to rush the administration of phosphate. In practice, everyone can necessary operations can be carried out conveniently one after the other by a single operator.

The webs 16 built into the outlet opening 15 of the filling funnel 14 have proven to be sufficient for a sufficient to ensure delayed, even inflow of the phosphate in a finely divided stream. The funnel doesn't need that to be able to absorb the entire amount of phosphate to be added, it can be filled in portions.

After phosphate has been added, a longer one is required Time until the rest of the required water has run in. During this time, the phosphate particles are further removed from the Air bubbles carried to the surface, where the bubbles burst and the not yet dissolved phosphate particles sink again until they meet another air bubble, which carries them up again. Since here the phosphate particles with always If new parts of the resulting solution come into contact, their dissolution is significantly accelerated.

Once the required amount of water has been poured in, a ready-to-use solution is usually already available. The funnel 14 can removed and the opening and the valve 3 are closed.

- ίο -] oh.A.Bendiser ν «CiS ^ rifedinikGmbH

- KS 519 -

Now the pipe 5 fills with solution and the pipe 2 can be connected to a metering device and acts as a suction pipe through which the solution is removed and the water in the Water line 4 can be added (not shown). Of course, a separate suction pipe can also be used, e.g. through the opening for the funnel 14 can be introduced. The container 1 can also be an integral part of a metering device or be arranged so that the solution can be withdrawn through an exit in the floor. Likewise, the Ejectors in the tank bottom or parallel in the area close to the floor e.g. a square container, which can also have a sloping bottom.

To produce other types of solutions, in which the solids solution takes a longer time, the solution removed from the container and fed back into the tube 2 in the circuit. A corresponding branch line would be used for this and pump required.

In the embodiment shown, the air is taken from the container, some with the rise of the water level escapes through the funnel opening. A pressure increase can be achieved if the filling station is designed as a pressure lock. Of course, increasing the pressure can also be useful, e.g. in the case of chemicals that tend to foam too much be. Conversely, if the lock is advantageous for other reasons, the normal pressure in the container by arrangement a connection with the atmosphere.

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Claims (17)

Joh.Ä. Bendiiser Wüssertechnik GmbH 6700 Ludwigshafen, 03/11/1981 TF / P - KS 519 patent claims 1. Process for the preparation of solutions of poorly soluble and / or substances with a tendency to clump by introducing them of the solid in a vigorously agitated solvent, characterized in that at least during the Entering solids, fine gas bubbles are added to the solvent. / 2. The method according to claim 1, characterized in that one enters the solid after producing a predetermined minimum amount of the water-gas mixture. 3. The method according to claim 1 or 2, characterized in that the gas-solvent mixture under high flow rate introduces into the area of a solution container near the bottom. 4. The method according to any one of claims 1-3, characterized in, that the gas by the kinetic energy of the solvent or under a higher than the hydrostatic Introduces pressure into the solvent. - 2 - KS 519 - 31096AS ■ j PAIRED 1 5. The method according to any one of claims 1-4, characterized in that that after introducing the predetermined amount of solvent, the mixture until the complete solution of the Solid leads in the circuit. 6. Mixing device for carrying out the method according to Claim 1-5, characterized in that it is like an ejector with a downstream input station for the solid is formed. 7. Mixing device according to claim 6, characterized in that that it is arranged near the bottom of a solution container (1). 8. Mixing device according to claim 7, characterized in that the input station for the solid in the upper area of the solution container (1) is arranged. 9. Mixing device according to claim 8, characterized in that the input station has a filling funnel (14), whose outlet opening (15) is divided by webs (16). 10. Mixing device according to claim 9, characterized in that that the webs (16) are designed like a roof and the inclination their surfaces (18) that of the inner surface (19) of the funnel (14) corresponds. 11. Mixing device according to one of claims 6-10, characterized characterized in that it has a plurality of ejectors. 12. Mixing device according to claim 11, characterized in that that the ejectors are arranged in parallel. 13. Mixing device according to claim 11, characterized in that the ejectors are arranged radially. Joh. Ä. Benckiser \ ι as; a technik GmbH 519 - 14. Mixing device according to one of claims 11-13, characterized characterized in that the ejectors with a common solvent line (2) and one of these as Casing pipe (3) are connected with spaced surrounding, concentric gas line. 15. Mixing device according to claim 14, characterized in that that the gas line is arranged in the solution container (T) and has an opening (T1) communicating with the interior of the container in its upper region. 16. Mixing device according to claim 15, characterized in that the container (1) is connected to the atmosphere. 17. Mixing device according to one of claims T 4-16, characterized in that the solvent line (2) is connected to the solution tank (1) via a lockable branch line and a pump.