DE699130C - Process for the production of soil improvers or additives for fertilizers from minerals containing silica - Google Patents

Description

process for the production of soil improvers or additives to fertilizers made from siliceous minerals Silica and silicate minerals are already often in finely ground condition as soil improvers and recommended as additives to fertilizers. Since an actual fertilizing effect usually only possible after the diesel acid has entered the plant's cycle is, so to the extent that only the part going into solution in the soil comes into effect, lies It seems reasonable to try to increase the degree of solubility of the silica mineral. Experience has shown that solid substances are soluble the more easily and quickly the finer .they are comminuted, i.e. the larger the size that comes into contact with the solvent Total area is. Therefore, one has silica mineral content, it is as fine as possible ground. But, also using finely ground silica minerals was the success as. Fertilizers cannot be foreseen with certainty. Sometimes it was growth strongly promoted, _ in other cases such an effect would be at all not recognizable.

It has now been found that silicic acid minerals @ with a wholly or partially amorphous structure are more readily soluble than those with a crystalline structure. The experiments also showed that the solubility of the amorphous silica only decreases to a certain extent with the comminution: #i Up to a degree of fineness at which the silica passes through a sieve with 6,000 meshes per square centimeter, the solubility increases . At this level of fineness, the silica flour contains more than 210/0, a particle size of over 0.060 mm, after fractionation and classification, and most of this amount contains particles with a particle size of 0.075 mm. In 100 cc of water, 0.8 to 43 mg of silica dissolve: after further comminution to a mesh fineness of 10,000 per square centimeter, only 0.6 to 0.7 mg of silica dissolve in roo cc of water, with one mesh fineness from 13,000 only 0.4 to 0.5 mg. - If milling is continued for a long time, the silica is evidently heated too much, and there is a transition from the more easily soluble amorphous to the more difficultly soluble crystalline form. In the case of silicates, it is possible to comminute further without reducing the solubility again. With these it takes up to a mesh fineness of to ooo per square centimeter. to. The flour then contains at most 2.6 % particles with a grain size of more than 0.06 mm.

According to the invention, amorphous silica minerals, such as Silica gravel from the chalk (Mecklenburgische Flöse), silica sand from the Tertiary (Frechen, Dörentrup etc.), flint, quartzite and the like, so gentle grind so that they pass through a sieve of 6q.00 meshes per square centimeter, amorphous silicates such as serpentine, olivine, lime, potash, soda lime, feldspar, pegmatite, so far that they pass through a sieve of 1,000 meshes per square centimeter. After fractionation and classification, the fineness of the flours corresponds to that given above Grain sizes.

This new way of working not only results in optimum solubility achieved when fertilizing with silica in the arable soil, but it is also the Eabrikationskosten considerably lower than with the now usual more extensive Crushing.

The so-produced keselic acid powder is used on lowland moors and marshland. Mixtures of silicic acid are used for neutral main fertilizers. and silicate flour. The choice of silicate depends on the nature of the plant, so one takes z. B. soda lime silicate for beets, magnesium silicate for hops. the The finest parts of the flour that fall off during the sighting are physiologically ineffective, however, they can be used with advantage for pest control.

It has hitherto been assumed that it is involved in the crushing of silica does not matter: whether, you through the. Comminution process larger or smaller Amounts of heat are supplied. So one has z. B. Silica minerals, -to get them from to free the clayey components, washed before grinding and then measured 120o ° gC dried. By such and other common methods it becomes, however, the silica too large an amount of heat supplied, which in turn changes the chemical structure-the same b, eei.n $ necessary, so that the solubility decreases considerably. Hence the procedure of the invention treats the silica mineral so carefully that each is not necessarily necessary heat supply is prevented. The mineral is sifted from the clayey Components freed and the Mahlurig is with as little heat as possible carried out.

Claims (1)

PATENT CLAIM: Process for the production of soil improvers or Additives to fertilizers. from siliceous minerals by mixing, characterized in that amorphous ioselic acid, in particular silica gravel, Silica sand, flint, quartzite and the like, or silicates such as serpentine, olivine, Potash, lime, soda lime feldsp, ate or pegmatite, subjected to gentle grinding and the flours obtained are sifted in such a way that the silica flour is more , than 21% of a grain size of over 0.06o mm, in particular - mostly one grain size of 0.075 mm, and the silicate flour does not contain more than 2.6% of a grain size of more than 0.06 mm.