DE602551C - Process for adding reagent solutions to liquids - Google Patents

Description

GERMAN EMPIRE

ISSUED ON
U. SEPTEMBER 1934

REICH PATENT OFFICE

PATENT WRITING

JV * 602551 CLASS 85 b GROUP

P 62823 IVb / 8sb Date of the announcement about the granting of the

934

In order to achieve chemical reactions it is often necessary to use liquids, in particular to Water to add reagents in only a relatively small amount. Result here difficulties arise with regard to the metering of these reagents in one of the to be treated Liquid in each case corresponding amount, especially if the addition in facilities takes place after the displacement process, in which a partial flow of the to be treated Liquid the reagent solution from a container by means of an existing one or artificially generated pressure difference is displaced. These difficulties exist in that the reagent to be added because of its relatively low level absolute amount to increase the accuracy of the addition in the form of highly diluted Solutions is applied, in which case the

ao difference in the specific gravity between the additive solution and the displacement liquid (e.g. water) is only very small and a mixture of both becomes inevitable. However, this in turn greatly affects the accuracy of the addition.

According to the method of the invention

this disadvantage avoided by the fact that the reagent solution diluted at will others are added, which in each case the intended chemical reaction and also otherwise does not adversely affect the use of the treated liquid. Here the Concentration of the other solution can be arbitrary.

example

It should increase the oxygen content of an oxygen-containing water by adding Sodium sulfite are bound. With an oxygen content of 10 g per cbm in the water around 80 g of sodium sulphite per cbm of water are required, and therefore for an hour treated amount of water of 10 cbm around 800 g sodium sulfite per hour.

If a S ° / _o solution used as in the conventional method, the amount of solution to be added every hour is only about 161 or sekundliche Meaige only about 0.00451, or at a 1 / _o solution ° 0.022 sec /. 1 A solution with 1% sodium sulfite content, however, has only such a small difference in specific gravity compared to the displacement water that the two are mixed. By adding sodium sulfate to the sulfite solution in such an amount that this example 2 ° / ₀ contains sodium sulphate, the concentration of the mixture is increased to about three times. This increase in concentration prevents the displacement liquid from mixing with the additional liquid. One can for example, also possible to proceed such that a 2 ° / _o by weight sodium sulfate solution is added in any amount to 1 ° / o sulfite solution, which in addition to the increase in the concentration and the amount of the additive solution and such an addition to the prevention of its mixture with the Verdrängüngslösung Increase in

Accuracy of the addition achieved as a result of larger amounts of solution to be added will.

Similarly, e.g. B. alkaline water can be neutralized by adding sulfuric acid. A water of ² 5 ^m sweet caustic soda content needed to neutralize 30 mg / 1 sulfuric acid. To achieve a sufficiently accurate dosage, ι ° / _o sulfuric acid must be used, but a mixture between this thin sulfuric acid and the displacement fluid (water) as a result of only slight difference of the specific gravities is inevitable. According to the invention, for. B. the sulfuric acid solution is admixed with sodium sulfate in an amount that appears suitable and thus prevents the mixture by increasing the specific gravity of the solution, without the accuracy of the dosage being impaired.

The method can be used for a wide variety of reagents and liquids and any neutral and for the respective use

purpose of the liquid to be treated 25 harmless substances are used, such as also for two or more simultaneously acting on the liquid to be treated Reagents.

Claims (1)

30 claim: Process for adding reagent solutions to liquids, in particular to water in the displacement process, avoiding the mixing of the reagent solution with the displacement liquid as much as possible, characterized in that the reagent solution diluted as desired is a solution of any desired Concentration of an indifferent to the reaction to be carried out and adversely not affecting the intended use of the treated liquid Agent is admixed in an amount that is suitable for the specific gravity to increase the resulting mixture sufficiently.