DE167246C - - Google Patents

Description

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IMPERIAL

PATENT OFFICE.

r167246 CLASS

for fertilization purposes.

In addition to the easily soluble potash salts, find the nature of the Staßfurt overburden salts In nature, large amounts of poorly soluble in the form of feldspar and the like Minerals and the rocks that are composed of them. The exploitation of this Potash treasures are only possible for the plant to a lesser extent than weathering which loosens the rocks.

ίο To these now quickly and in large quantities To make it usable, one can, as has been found, proceed in such a way that the minerals are broken up more or less roughly to the Thomas slag as long as it is still liquid, in a similar way as one now add sand (i.e. quartz) to make the phosphoric acid soluble in weak acids do.

This way will be at the same time

ao by the silica of the potash mineral the phosphoric acid of the slag and by the Slag unlocked the potash of the mineral.

An example of a suitable potash carrier is a phonolite from the Brenk quarries listed in Brohlthal with the following composition:

Silica 50.09 percent,

Alumina 23.96

Iron oxide 2.30

Lime 1.22

Plaster of paris, water-free ... ... 1.41

Magnesia 0.28

Potash 9.28 -.

Baking soda 8.05 percent,

Carbonic acid 0.22

Phosphoric acid 0.05

Water, hygrosc. . . . 1.15
formerly born ... 2.12

The method described has some similarities with various already known Proceedings, but against each of them it shows considerable differences.

I. First, the patent 80615, class 16, to call. According to this, for an artificial phosphate,. the Thomas slag, an addition of 5 to 15 percent artificial alkali silicate, water glass, is suggested. Man but would only achieve unlocking in this way at very significant costs, since the use of water glass first the production of alkali salt and then which requires fusing with silica, i.e. two fabrications. Natural Using alkali silicates instead has so great commercial advantages that This is the only way to make a digestion process possible. It is also important to consider that the water glass process is only about the digestion of the Thomas slag acts, d. H. about the recovery of phosphoric acid, but not about recovery of the Kalis. The potash would be more digested in the raw materials of the water glass than later in the slag. The procedure does the opposite in this respect of unlocking. It is also available as a

naturally to assume that the cheap soda water glass is used for this purpose would take.

In contrast, the present proceedings are just about the transfer of potash from a form that is unusable for plants into a soluble, absorbable form.

2. Natural alkali silicates have been used to break down more natural ones Phosphates, not from Thomasschlacke, according to patent 114482. In this digestion However, it is not a matter of digestion in the chemical sense, but, as the patent claim expressly states, a dissolution and re-separation in a finely divided form, i.e. a comminution of the tribasic phosphoric acid, which was originally present in coarse pieces Lime. The description expressly states that the phosphates are dissolved in the glowing heat, in order to be finely distributed when slowly cooling, but chemically unchanged, to leave again. The process is reminiscent of the representation of milk glass from tribasic phosphoric acid lime and cannot be compared with the present one Process for the formation of a complex, as such soluble, silicophosphoric acid tetra-basic, while unlocking the potash at the same time free of charge.

3. According to patent 101205, artificial alkalis and alkaline silicates are used Soils melted together with natural phosphates. It is a very expensive melting process. The same thing requires incandescence for the utilization of the Kalis. It can be done on a small scale only run in graphite crucibles. From this alone the difficulty arises Process in relation to temperature and vessels. Siemens furnaces are used for large-scale operations suggested that shaft furnaces would lead to losses. Whether the procedure has ever been used on a large scale seems questionable because of the cost must be very substantial; even the mere furnace system costs several hundred thousand Mark.

4. In contrast to all of these procedures, the present one is natural Potash stone of the composition given above is used, which is already used in Brohlthal free of charge as waste from the manufacture of small chips in small splinters on the Stockpile lies, and already melted artificial phosphate, like the Thomas slag it is used as a free reagent and heating means while flowing into the cinder block to produce both the potash as well as to unlock the phosphoric acid. If you also consider that you have the Sand, which must now be added to the Thomas slag, almost as much has to approach the splintery phonolite waste, and further consider that at all No technical systems are required for the new process, so is the commercial one and technical progress is unmistakable.

There is also another technical effect. The Thomas slag This is because the phonolite unlocks more than the sand that is otherwise used, like the test series and experience in the case of large requests, have proven to be on a smelting works.

There is thus a decisive difference in each of the patents cited. It should also be mentioned that the present process, the great advantage of which is its extraordinary simplicity, was not an obvious thought, because no one has yet participated in this recovery of the Phonoliths thought.

Thomas slag not only includes that from the Thomas process in the narrower sense, namely to understand slag emerging from the converter, but any phosphoric acid-rich Slag from the basic go steel process, including that from the original or modified Martin process, ζ. Β. the Bertrand-Thiel trial.

Claims (1)

Patent claim:
Procedure for exploiting difficult-to-solve licher and insoluble potash minerals for agriculture, especially the Phonolite waste, characterized by the addition of potash rocks or potash minerals instead of sand to melted Thomas slag.