DE12875C - Innovations in the processing of the caimt - Google Patents

Description

1880.

Class 7 S.

G. BORSCHE and F. BRÜNJES in LEOPOLDSHALL near STASSFURT. Innovations in processing the kainite.

First additional patent to No. 10701 of December 20, 1879.

Patented in the German Empire on April 17, 1880. Longest duration: December 19, 1894.

The process described in the main patent for the separation of sodium and magnesium chloride The potassium magnesium sulfate in kainite is essentially based on kainite in water or cold saturated kainite solution with one below the boiling point of the resulting alkalis to dissolve lying temperature and pure potassium magnesium sulfate from the solution thus obtained by cooling to be deposited.

To carry out this procedure, one can:

1. Either saturate cold water with kainite, bring the lye obtained in this way to fresh kainite and heat it up to about 80 ° by introducing steam, or you can

2. Let the cold water saturate with kainite and then in the same vessel with the excess Heat undissolved kainite up to 80 ° C.

In both cases, alkalis of 1.33 to 1.34 spec. Are obtained. Weight, which when cooling Separate copious amounts of pure potassium magnesia sulfuric acid.

This procedure can now be simplified even further and made more or less continuous remodel in the following way:

One fills a cylindrical _; Iron vessel, for example in the form of the common carnallite dissolving kettle, which is provided with a false, perforated bottom, completely filled with coarsely crushed kainite and then slowly lets hot water rise up in the kettle from below through a pipe placed in the floor. When the water has reached the top of the kettle, turn off the inlet and let the water stand on the kainite for a short time. A saturated kainite solution is quickly formed, which is drained into crystallization vessels and, when cooling, separates pure sulfuric acid potassium magnesia.

The kettle, the content of which has been reduced accordingly after the solution has been drawn off, becomes replenished with kainite and then repeated the operation again as before.

In this way one achieves an even, almost continuous dissolution of the kainite and further an almost uninterrupted use of the dissolving vessels, since in normal operations the operations, as stated above, can follow one another continuously without any purification or emptying the boiler and thus a disruption of the work would be necessary.

The purpose of this process of dissolution is to have all the constituents of the kainite in it Ratios as contained in kainite at the temperature given in the main patent to solve.

If one puts otherwise hot water on fresh, excess kainite, the proportion dissolves more chlorine magnesium and less of the other salts of kainite, so that is the case the resulting lye has a significantly different composition than the kainite.

If, on the other hand, the hot water enters from below in the manner indicated above, this dissolves it is true that the percentage of magnesium chloride is too high the first time, and therefore gives the first solution at the start of manufacture also has poor crystallization; in the next solution, however, a complete change has already occurred. The lowest Layers of the boiler now contain kainite, almost all of its magnesium chloride is deprived; further up the chlorine magnesium content rises, and at the top is that still intact, freshly refilled kainite.

By now with the next solution the hot water these different layers If it is brushed through from below, it does not dissolve chlorine magnesium in the bottom layer, but rather only the other constituents of kainite, sodium chloride and schoenite, but in the middle and above all more magnesium chloride, so that a balance takes place and a solution results which contains the soluble

Components of the kainite exactly in their original Contains proportions.

All later solutions have exactly the same composition and give exactly the same Crystallizations.

The water used for dissolving can be heated to approx. 100 ° C beforehand. be warmed up as the same in contact with the kainite because of the latent properties when the salts are dissolved Heat immediately cools down considerably.

The entry of the hot water from below is, apart from the temperature conditions to be maintained, This is necessary because when the water is supplied from above, it always comes into contact first with fresh kainite and therefore would provide bad solutions.

Claims (1)

Patent claim: The process of dissolving kainite by a rising stream of hot water.