SU849996A3 - Method of producing phosphorous fertilizer - Google Patents

Description

(54) METHOD FOR PRODUCING PHOSPHOROUS FERTILIZER

Claims (2)

This invention relates to a process for producing phosphate fertilizer, consisting in treating a phosphate feed, such as apatite or phospho-RHS, with sulfur trioxide gas or its mixture with other gases. A method of producing phosphorus fertilizer is known by treating the phosphate raw material with a mixture of gaseous sulfuric acid and gaseous sulfur trioxide mixed with other gases. The degree of decomposition of phosphate raw materials is about 8–7%. The disadvantage of this method is a large amount of water in the gas mixture (up to 5%), which leads to the decomposition of the phosphate raw material with sulfuric acid gas and the formation of Pj. In plant inaccessible form. The closest to the proposed technical essence and the achieved result is the method of obtaining phosphate fertilizer by treating the phosphate raw material with a gas mixture containing sulfur trioxide, water and water vapor at. Sodip, 7 O e- in plant-accessible form is 55% pj. A disadvantage of the known method is also the presence of water vapor in the reaction zone and, as a result, a low content in the form available to the plants, as well as the need to conduct the process at a constant temperature. The purpose of the invention is to increase the content in an absorbable form. The goal is achieved by the fact that according to the method of obtaining phosphate fertilizer, the treatment of phosphate raw materials is carried out with a gaseous mixture containing 5-11% SOj and not more than 0.012% water. For the production of phosphate fertilizers, mineral phosphate raw materials of any composition and different initial moisture and different granulation are used. Applied gaseous sulfur trioxide can be obtained from any source and can be mixed with air, sulfur dioxide, nitrogen, oxygen and other neutral gases. The gaseous mixture contains 5-11% SOj and no more than 0.012% C3. The gaseous mixture of this composition is contained in the gas, which is obtained from the contact apparatus of the plant for the production of sulfuric acid from sulfur and pyrite. the minerals are ground and then exposed to the reaction gas. When sulfur trioxide contained in gases with grains of a raw material containing phosphorus comes in contact, as a result of which insoluble, in calcium and tetraphosphates. Calcium and concentrated concentrated linear and metaphosphates are obtained. For the separation of gases, the product reaction in the form of a bulk, hygroscopic and non-knocking powder is a ready-to-use fertilizer. Over 90% of the phosphorus contained in the fertilizer produced is absorbed by plants due to the fact that phosphorus is contained in the form of insoluble mx in water, but soluble in weak acids compounds. The degree of utilization by plants of phosphorus contained in the phosphate fertilizer produced according to the proposed method is more than three times higher than the degree of utilization of phosphorus contained in simple and triple superphosphates. Example. 1 ton of raw phosphorite is placed in the ring mill and ground to a granulation of 2 mm. Then, the raw materials are dried in 350-45r s in a drum dryer heated by gases obtained from burning fuel oil. Exhaust gas temperature 120 -. 865 kg of dried material containing less than 1% of water is directly supplied from the dryer to the reactor using fluidized fuel, in which it is contacted with sulfur oxide introduced into the mixture with oxygen and nitrogen in a volume ratio of 10:18:72 in the amount of 1150 N / m The temperature of the gas introduced into the reactor is 300-35 () Pc, the reaction time is 20-30 s. Then the material cools down; in a cooling drum and fed into a storage bin, from where it is poured into bags. Thus, 1246 kg of phosphorus fertilizer is obtained in the form of a dry, not knocked into clod, and a non-hygroscopic powder with the following weight composition,%: phosphorus in terms of P ,, 5 (in TON 2% soluble in water, 19.4% soluble in 2% citric acid); CaO 37.2, 50.34.1 /, 61) A140zO, 31; , 02; MDO 0.12 N “0 + NaO O, 96; F 1.6; and 0.003; 0.4. There are no free acids. The method of obtaining phosphate fertilizer, which includes treating the phosphate raw material with a gaseous mixture containing sulfur trioxide at elevated temperature, characterized in that, in order to increase the content, in an assimilable form, the treatment is carried out with a gaseous mixture containing 5-11% SO- and no more than 0.012% vods. sources of information taken into account in the examination l.lnd.and Chem. Fundament, 1969, 3, p. 401-407. 2. Ind. and Chem, Process Desing and Developm, 1967, 4, p. 407-408 (prototype).