SU1710537A1 - Method of producing boron containing phosphorus fertilizer - Google Patents

Abstract

This invention relates to a method for producing phosphorus fertilizer containing boron and helps to reduce the degree of boron leaching in the finished product and to provide it with properties of an improver. According to the invention, phosphogypsum is treated with a mixture of phosphorus-containing wastewater and a boron-containing mother liquor with a mass ratio of the wastewater, mother liquor and phosphogypsum equal to

Description

This invention relates to a method for producing phosphate fertilizer containing boron, which is used as a valuable fertilizer in agriculture.

The aim of the invention is to reduce the degree of leaching of boron in the finished product and to give it properties ameliorant.

PRI me R 1. A portion of phosphogypsum (FG) 10 g is placed in a reaction flask, pour 1000 ml of a mixture of waste water {DM) and mother liquor (MP) with a corresponding “feeling & CB: MR: FG 9: 1: 1, sodium hydroxide is added. The prepared solutions are placed on a shaking machine with a frequency of 180 rpm. After establishing equilibrium (15–20 min), the solid phase is separated from the liquid and analyzed. The amount of izv / iztochennogo from a solution of P2O5 and VaOz find on

the difference between the initial content of the components and the equilibrium.

In the control experiments, the contents of PaOs and BaOz were additionally determined by acid decomposition of the obtained solid phase. The solid phase is subjected to X-ray phase analysis. As a mixture of phosphorus-containing wastewater, wastewater from the products of decomposition of phosphate raw materials with sulfuric acid is used. As a boron-containing stock solution, the waste of boric acid production from borates is used.

EXAMPLE 2 The experiment is carried out analogously to Example 1, with the only difference that the ratio of waste water to mother liquor-phosphogypsum is 10: 1: 1 and pH 8.5. Analysis of the product obtained under these conditions shows that it contains 20.52% P205 and 0.239% boron.

Froze The test was carried out in the same way as in the previous examples, with the only difference that the ratio of CB: MP: FG changed to 8: 1: 1, while creating a pH of 9.5. Analysis of the obtained product shows that it contains 19.85% P205 and 0.220% boron.

EXAMPLE 4 The experiment was carried out as in the previous examples with the only difference that the ratio of CB: MP: FG changed to 15: 1: 1, while creating a pH of 8.8. An analysis of the product obtained under these conditions shows that it contains 19.15% P205O, 149% boron.

EXAMPLE 5 The experiment was carried out as in the previous examples, with the only difference that the ratio of CB: MP: FG changed to 5: 1: 1, while creating a pH of 8.50. Analysis of the product obtained indicates that it contains 14.80% PaOs and 0.316% boron.

The invention investigated the conditions for obtaining phosphorus fertilizer containing boron by using three chemical industry wastes (phosphogypsum, industrial phosphorus-containing solutions and mother solutions of boron-producing plants). If phosphogypsum is treated with a mixture of waste water and mother liquor in a ratio of CB: MP: PG (8-10): 1: 1 while maintaining a pH of 7-11, a phosphorus-containing fertilizer is formed in the amount of PzOSi not inferior to simple superphosphate, but unlike it containing also a micro additive in the form of boron. Table 1 presents the chemical composition of the Dzhambulsky phosphogypsum.

As phosphor-and boron-containing solutions use waste industrial solutions D ON Khimprom and mother solutions of the Alga chemical plant, the compositions of which are shown respectively in Tables 2 and 3.

The optimal ratio of waste water. Mother liquor - phosphogypsum is the ratio of CB: MP: F. G (8-10): 1: 1 at pH 7-11. Under these conditions, a product is formed containing 18.8-20.52% PgObibor 0.220-0.255%.

An increase in the amount of waste water in the mixture taken for the treatment of phosphogypsum does not lead to an improvement in the quality of the product, and the content of P205 and boron in the final product is somewhat reduced.

Reducing the ratio of waste water mother liquor - phosphogypsum to 5: 1: 1 and 1: 1: 1 in the solution for the treatment of phosphogypsum also does not give good results. The amount of PaOs in the resulting product decreases by 14.8 and 12.5, and the boron content increases. A decrease in the PaOs content in the finished product below 18% is unacceptable according to GOST, and an increase in boron concentration is not economically and agronomically feasible.

The effect of pH on the content of PaOs and boe in the obtained fertilizer samples is presented in Table 4.

Analysis of the data in Table 4 shows that fertilizers are produced in the pH range of 7-11,

0 corresponding to the purpose of the proposed invention. The rationale for the selected process intervals is presented in Table 5.

From the data of table 5 it follows that the best results were obtained when the ratio of CB: MR: FG (8-18): 1: 1 at pH 7-11.

Thus, the combined treatment of phosphorus industry wastes (phosphogypsum, wastewater) and borate industry allows, under certain conditions, to obtain a phosphorus-containing product, the PaOs content is not inferior to simple superphosphate, but still containing microadditive - boron, which is significantly

5 improves the agrochemical qualities of the fertilizer.

Fertilizer obtained by the proposed method, acquires previously unknown properties compared with similar

0 fertilizer with boron. Experimental data are given in table.6.

Thus, in the proposed method, phosphate-free fertilizer containing boron is obtained by co-processing three

5 chemical wastes (phosphogypsum, phosphorus-containing wastewater and boron-containing wastewater). Conditions have been selected in which phosphate fertilizer containing boron of composition 19.1-20.8% P205 and 0.22-0.25% boron can be obtained from the listed wastes. Moreover, neither a decrease nor an increase in the boron content in the finished product is inexpedient, since this is not justified either economically or

5 agrochemical requirements.

Fertilizer for the proposed method can be used as an improver. On saline soils, the proposed fertilizer has shown high activity in

As an improver, it increased the yield of green sorghum by an average of 3-4 times.

Claims (1)

The method of obtaining phosphorus fertilizer containing boron, which includes treating the phosphorus-containing raw material with acidic and boron-containing solutions with mixing, is also distinguished by the fact that, in order to reduce the leaching of boron in the finished product and to give it properties ameliorant, phospho-gypsum is used as a phosphorus-containing raw material which is treated with a mixture of phosphorus-containing waste water from the products of the decomposition of phosphate raw materials with sulfuric acid and 5 Table 1 of a live mother liquor from the production of boric acid from borates with a mass ratio of waste water, mother liquor and phosphogypsum (8-10): 1: 1 and the process is carried out at pH 7-11. Content, mg / l table 2 Table Table 5 Table