PL118B1 - Method of obtaining artificial potassium fertilizer. - Google Patents

Description

It is known that relatively large amounts of nitrogen can be bound in the form of aluminum nitrite by treating, in the presence of nitrogen, a mixture of alumina with carbon to a high temperature of 1800-2100 ° C. It has also been experimentally found that small amounts of on the other hand, the amounts of nitrogen can be combined with the field spatula (feldspar) by heating the latter with carbon in the presence of nitrogen to a temperature of 1200-1400 ° C; in the above operation, nitrogen is bound in a ratio of 3% to 5%, while the potash is released in a volatile state and can be trapped in special receptacles. However, the latter method is relatively expensive, as it requires a significant addition of carbon for the chemical process, amounting to 50 to 60% of the amount of combustion, and a lot of fuel coal to achieve the necessary high temperature, so its practical application is impeded by economic reasons. Contrary to the method mentioned, the present invention satisfies the modern technical and calculation requirements. According to this new method, from feldspar or from volcanic stones, which contain potash in their composition, the latter can be released and a nitrogen and nitrogen-potassium fertilizer with a significant ruffling value can be obtained. To understand the method, one should be aware that the carbon calcium (carbide) with nitrogen, absorbing and combining with the latter and giving back carbon according to the equation: CaC2 + N = CaCN + C turns into calcium cyanamide; The carbon, separated and mixed with the latter, is a completely worthless component in cyanamide (as a fertilizer), therefore the energy used to bind it to the calcium should be considered completely lost. The inventor made the observation that - similarly as in the process described above - in the presence of nitrogen, a mixture of finely powdered, potassium-containing mineral with calcium carbon, liberating carbon, carby and feldspar, or volcanic mineral in the formation of cyanamide, react with each other, because the nitrogen is absorbed and the food becomes volatile, and then it can be collected in a known way in a receiver. Nitrogen is absorbed in amounts of 6-8% by weight of the potassium-containing mineral or in amounts of 50-70% by weight of aluminum as a chemical component of the mineral. So far, the chemical formula of the relationship between nitrogen and feldspar has not yet been established, the formation of nitrite complexes is possible; in this case it is important that this compound is completely biologically assimilated by the plants. Potassium carbon thus evaporates and can be recovered in all its original quantity. The best results are achieved when the coal, lime and volcanic mineral are mixed in a ratio of 1: 2: 2. By continuously effective roasting at temperatures below the volatilization point of the potash, this phenomenon is prevented and the potassium remains in the nitrogen product and gives Combined nitrogen-potassium fertilizer. It should also be noted that with the currently used production of cyanamide, calcium carbide and nitrogen, large amounts of heat are released during the reaction, which is sufficient to maintain the reaction temperature at an appropriate level, with only the heat necessary to initiate the process is supplied externally. The same is true of the operations of the present invention; Here, too, the amount of heat released in the formation of cyanamide is most completely sufficient to carry out the reaction between the mineral containing potassium carbonate, carbon and lime. Potassium-containing raw materials serve in this method, for example: leucites, volcanic ash, field spears orthoclass, granite, etc. In practice, the method is realized in such a way that the mixture is calcined in a nitrogen stream. By adding carbon to the mixture, we increase the amount of carbon produced (released) during the formation of calcium cyanamide; for in this ratio the proportion of the potassium-containing mineral can be increased, thereby equally increasing the nitrogen uptake. In a similar manner to the reaction mixture, in addition to the calcium carbide, free lime can also be added. PL

Claims (5)

Patent claims. 1. A method of obtaining potassium fertilizer, characterized by the use of potassium minerals, e.g. leucite, volcanic ash, field spar, ortho-grade, granite stones, etc., potassium is obtained by mixing the above minerals with (calcium) carbide and plugging the mixture in a nitrogen stream, as a result of which the potassium becomes volatile and is separately recovered, the nitrogen passes into the calcium cyanamide formed by heating and is bound with a field spatula into a complex assimilable nitrogen compound. 2. The method according to claim 1, this means - 2 - variable that consists in adding carbon and thus increasing the amount of free carbon in the mass, as a result of which the proportion of potassium-containing and nitrogen-absorbing mineral may be correspondingly increased. 3. The method according to claim 1, this is the introduction to the mass of lime necessary to trigger the reaction, in excess, in excess of the amounts already present in the calcium carbide. 4. The method according to claim 1, the state of which the volatilized potassium is left in the reaction mass in a mixture with the nitrogen product, whereby a combined nitrogen-potassium fertilizer is obtained. 5. The method according to claim 1 and 4, this is the practice of carrying out the reaction at a temperature below the volatilization point of the potassium, whereby the latter remains in the nitrogen-containing product and produces a nitrogen-potassium artificial fertilizer with it. ZAKL6RARK0ZIANSKICH IN WARSAW PL