DE695890C - e soil bacteria - Google Patents

Description

Process for the production of nutrients for the soil bacteria Soil bacteria (microorganisms) need too. its maintenance and nutrition is well known organic substances.

The nutrients of the soil and the artificial fertilizers can be used for the growth of the plants does not take full effect when the bacterial life is insufficient in the soil, and every farmer knows from practical experience that he has to give his cultivated soil sufficient manure from time to time to use it above all to maintain and promote bacterial life.

Scientific work z. Some of them are already two decades ago, have shown that certain types of sugar are good sources of energy for promoting bacterial life are. There was then no lack of further work and procedures in order for the above Purpose of finding a substance that is available in large quantities.

Known processes use lignite, wax coal, lignite and peat as starting materials, of which the first three can hardly be considered for the formation of sugar, since they lack the prerequisites for this, namely the Cellul @ aseanteble. As far as the known processes use peat as the starting material, the treatment takes place either with strong acids or with weak acids using oxidizing agents such as nitric acid. So it is z. B. known to mix peat in the crushed state with - 2.5 to 20% dilute aqueous sulfuric acid solutions containing small amounts of nitric acid and to treat the mixture at temperatures of 100 ° or more under pressure. - For the production of humus fertilizers, a dilute phosphoric acid has already been used, with which the vegetable raw materials (peat) are treated at higher temperatures under pressure.

So it is known to apply the organic matter of the peat hydrolysis with weak acids with cleavage the one in the peat to convert existing cellulose particles to sugar in a soil nutrient.

While with the known methods t, dilute solutions are obtained are, d a 'end product, namely as soil improver t means, directly not in Question ko, one wins after the method of the present invention a fixed one Product that is ready for dispatch and in this form easily used as a soil improver serves.

In the known processes, sugar formation can, if at all, only be low, since carbohydrates are oxidized to carboxylic acids, and formic acid and acetic acid. At temperatures up to 2oo ° you will instead of sugar, oxalic acid or carbonic acid are found in the end product.

The method of the invention now has the manufacture of an article made from peat with a much higher content of sugar than previously with the known method was possible to the subject, which at the same time a high Has water-soluble carbon content. With these valuable properties the nutrient obtained according to the invention is a very good substitute for manure what with the lack of this natural fertilizer, especially for the gardening and settler economy is of considerable importance.

The invention consists in a new combination method in which the following individual measures interact: i. Crushed, air-dry white peat (Moostorf) is about 1/5 of the weight of its own weight sulfuric acid of 4.7 ° B6 soaked.

2. The mixing takes place without any addition of oxidizing substances, especially nitric acid.

3 The peat so soaked in this way is heated to temperatures of up to i2o ° several Heated for hours.

4. Thereby an increased pressure of 6 to 8 atm. applied.

5. After releasing the excess pressure, the decomposed peat mass is in one Drying room dried.

According to the method of the invention, especially when machining the upper layers of the peat deposits, not from the so-called white or moss peat only a very good humus obtained, but through the extensive sugar formation and .the high percentage of water-soluble carbon compounds in the product obtained an excellent nutrient for the bacteria. It is important to that cooking,: this type of cooking under very specific temperatures., 'tures (not above i2o °) and takes place under the given pressure ^ * @ _.

Compliance with these specific working conditions in the manufacturing process ensures that the hydrolysis of the hydrocarbons is almost completely achieved "without the lower types of sugar formed being broken down again, for example by oxidation or the use of strong acids and at higher temperatures, and thus for the nutrition and promotion of the microorganisms Embodiment iookg chopped up moss peat (sphagnum peat) with about 50% moisture is soaked evenly with 20 kg of sulfuric acid at 4.7 ° B6 . The mass is then placed in an autoclave and heated. The autoclave is then heated to 6 with atmospheric air brought up to 8 atmospheres and the temperature increased up to 120 ° C. The digestion process takes 2 to 3 hours, depending on the amount of peat used and the supply of heat.

The finished product is made in a known way with lime: or phosphate flour blunted to a weakly acidic reaction and dried. It contains depending on the salary of the cream of cellulose parts 13 to 17 o'o sugar.

Depending on the duration of the treatment and the type of peat used the sugar yield becomes even higher. -

Claims (1)

PATENT CLAIM: Process for the production of nutrients for the Soil bacteria by treating crushed peat with mineral acids at increased Temperature and under increased pressure, characterized in that the crushed air-dry White peat (moss peat) with about one-fifth of the weight of its own weight sulfuric acid of 4.7 ° B6 soaked without any addition of oxidizing substances and then the mass heated to temperatures of 12o ° and at these temperatures under increased Pressure from 6 to 8 atm. Heating is continued for several hours, after which it is drained the decomposed peat mass is dried in a drying room and, if necessary, the overpressure is mixed with acid dulling agents.