SU975698A1 - Process for producing complex fertilizers - Google Patents

Description

The invention relates to the production of complex fertilizers and can be used to obtain fertilizers by processing natural phosphates with mineral acids.

The known method of sulfuric acid decomposition of phosphate raw materials, according to which the resulting slurry is filtered on a rotary vacuum filter, the incomplete residue — phosphogypsum is subjected to a threefold countercurrent flow through recycled filtrates and heated water 1.

The deficiency of this method is a low degree of washing of phosphogypsum from 5 and a large consumption of water, which is used for pouring of phosphogypsum and reducing the content in the production extraction phosphoric acid.

Closest to the present invention is a method in which an insoluble residue obtained by decomposing Karatau phosphorites with nitric acid is washed three times with two circulating solutions and water 2.

The disadvantage of this method is a large consumption of water for washing, as well as losses from the third wash water, since.

It cannot be used for technological purposes due to the low concentration of the components. In addition, according to a known method, washings are used for chemical enrichment of low-grade phosphate rock of the Karat: ay basin, since they are excluded from direct processing into complex fertilizers.

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The aim of the invention is to increase the recovery rate. into the finished product.

The goal is achieved by the fact that an insoluble residue,

During the decomposition of Karatau phosphorites with nitric acid, npoNMs are 56% nitric acid, followed by a three-stage water wash, and nitric acid

20 for washing take in the ratio to the insoluble residue 1-1.1: 1 (by the amount of the insoluble residue in the phosphate raw material.).

The filtrate obtained after washing the insoluble residue with nitric acid is sent to the decomposition stage of the phosphate raw material. The wash water, successively passing each wash step, is concentrated in the content of P-z. Hno and

CaO and combined with the basic filtrate (nitric acid extraction, proceeding at the stage of calcium nitrate extraction, ammonization) and granulation of the obtained product by known methods.

The content in the nitric acid extract when mixed with wash water decreases slightly from 10.24% to 9.70%,

After washing the insoluble residue, the separated nitric acid is fed to the decomposition of phosphate raw materials

When conducting similar experiments with the same amount of wash water, but without pre-washing the precipitate with nitric acid, is achieved only. 60% degree of washing, and in the insoluble residue remains 2.0% 0.

Example 1. 100 g Fosmuk composition, wt,%: 25.0; CaO 37.6; . MDO 3.0; F 2.7; 18; SO .. 5, 6; but. 21.0 decomposed at 50 ° C for 30 minutes. 209.8 g of 56% nitrogen of the 1st acid (120% of the stoichiometric amount). When decomposed, the pulp is stirred with a stirrer. The pulp was filtered under a vacuum of 0.92 kgf / cm on a Buchner funnel, with a filtration area of 66.44 cm. The obtained insoluble residue was washed with 56% nitric acid in an amount of 21 g (according to the amount of insoluble residue in 100 g of fosmouca). Then, the filter cake is washed with two filtrates and water using a three-stage counter-current scheme, filtering and washing modeled on a rotary vacuum filter. The resulting nitric acid extract is processed in a known manner.

The table shows the comparative data on the washing of the insoluble residue according to the well-known and proposed methods.

Claims (2)

As can be seen from the table, the content. in the insoluble residue after washing with nitric acid and subsequent water is 0.016%, which is 200 times less than by a known method, the degree of washing of the insoluble residue is increased from 71.15% to 99.68%. 79756 Claim of the invention A method of obtaining fertilizer fertilizers by treating natural phosphates with nitric acid followed by 5 separating the insoluble residue, washing it with water, separating calcium nitrate followed by ammonizing the nitric acid extract and granulating the obtained product, about -10 times that in order to increase the degree of extraction into the finished product, the insoluble residue is pretreated88 wate with nitric acid in relation to the insoluble residue, equal to 1-1.1: 1. Sources of information taken into account during the examination 1. Processing of phosphate rock Karatau, Himi, Leningrad branch, 1975, p. 100-103. 2. Madalieva S.Kh., Irgashev I.K., Kasymova M.A. Optimal conditions for washing the insoluble residue upon decomposition of Karapau phosphate by nitric acid. - Uzb. chemical Journal, 1978, No. 2 (prototype).