RU2514306C1 - Method of producing granular potassium phosphate fertiliser - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to agriculture. The method of producing granular potassium phosphate fertiliser involves mixing a calcium phosphate component and potassium chloride, granulating the mixture and drying the end product, wherein the calcium phosphate component used is pulp with viscosity of 20-150 cP, which is obtained by neutralising phosphoric acid or a mixture thereof with sulphuric acid with calcium carbonate, wherein the ratio of reactants and neutralisation time are kept in a range required to obtain a ratio of monocalcium phosphate and dicalcium phosphate in the pulp of 1:(0.3-0.5).

EFFECT: invention enables to obtain an end product of granular potassium phosphate fertiliser with improved physical and chemical properties.

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Description

The invention relates to a method for producing granular complex fertilizer containing phosphorus and potassium, widely used in agriculture.

Numerous methods are known for producing monocalcium phosphate and dicalcium phosphate, which are prepared by reacting phosphoric acid with a calcium-containing component, granulating the resulting mixture, and drying the finished product. As a calcium-containing component, calcium carbonate or lime is taken. Using various technologies, either monocalcium phosphate or dicalcium phosphate is obtained, which are used as fodder products and mineral fertilizers (see, for example, the USSR AS No. 146373, class C01B 25732, 1989, USSR plant No. 981300, class C05B 3/00 , 1982, the USSR AS No. 1169941, class C01B 25/32, 1985, patent of the Russian Federation No. 2256607, class C01B 25/32, patent No. 2411222, class C05B 25/32, 2010)

Due to the fact that over the past decades, the consumption of fertilizers containing potassium has sharply decreased in all economic regions, including the traditionally considered areas of high efficiency for their use, the need for them has increased sharply.

Attempts have been made to obtain granular phosphorus-potassium fertilizer based on monocalcium phosphate and dicalcium phosphate. However, they were unsuccessful. In the granulation process, it is not possible to obtain particles with a size of more than 2 mm and they have low strength.

Other known methods for producing phosphorus-potassium fertilizers were analyzed.

A known method for the production of dehydrated phosphorus-potassium fertilizer, in which the apatite concentrate is decomposed in a mixer with sulfuric acid in the presence of KCl. The pulp hardens in the chamber, from where the product is cut out and then granulated together with the retur. The granules are calcined at 300 ° C to obtain a product containing 18% P ₂ O ₅ and 12-17% K ₂ O.

The disadvantage of this method is the complexity of the process: the need to capture the released HF and HCl, the energy consumption for drying the product (A.A. Sokolovsky "Technology of mineral fertilizers", Chemistry. M., 1966, p. 256).

The possibility of producing potassium phosphorus fertilizer by neutralizing phosphoric acid with potassium carbonate was studied. The resulting potassium phosphate solution was proposed to be dehydrated in a spray dryer. The resulting product contains 17-20% K ₂ O, 35-40% P ₂ O ₅ .

The disadvantage of this method is the use of expensive potassium carbonate, obtaining a powdery product (A.A. Sokolovsky "Technology of mineral fertilizers", p.255).

Also known is a method of producing phosphorus-potassium fertilizer by pressing a mixture of powdered superphosphate and potassium chloride, followed by crushing and classification.

The disadvantages of the methods are to obtain heterogeneous, irregularly shaped granules, which complicates their introduction into the soil, creating uneven distribution of the product.

Closest to the described technical essence and the achieved result is a known method for producing granular phosphorus-potassium fertilizer (patent No. 2029756, class C05D 1/02, 1995), including mixing the phosphorus-calcium component and potassium chloride, granulating the mixture and drying finished product. In this method, powdered superphosphate (its solid phase consists mainly of Ca (H ₂ PO ₄ ): H ₂ O, CaSO ₄ mixed with CaSO ₄ · 5H ₂ O) is mixed with potassium chloride (KCl) with a particle size of 0.2 mm.

The mixture is fed into a drum granulator, where limestone is simultaneously served as a neutralizing additive. The mixture is granulated by rolling at a temperature of 50-60 ° C and a moisture content of 15-18% and dried at a temperature of 90 ° C.

The disadvantages of the method are the high content of free acidity in the granules of fertilizer up to 4% in terms of H ₃ PO ₄ , which limits their use.

Fertilizer with high acidity can be used only on alkaline soils, on ordinary soils they will be acidified, which leads to a decrease in efficiency.

In addition, the finished product has a relatively low pellet strength (2.5-3.0 kPa), increased caking (up to 30 kPa) and hygroscopicity.

The low technological quality of the process is due to the fact that it is necessary to use a practically dusty fraction of KCl (0.2 mm), and also due to the fact that superphosphate, which is currently produced only in granular form, needs to be crushed. Such a process will require large volumes of crushing and dust-cleaning equipment, which makes the process as a whole unprofitable.

The objective of our invention was to develop a high-tech process that will not only simplify the process, increase its environmental friendliness, but also obtain a finished product of granular phosphorus-potassium fertilizer with improved physicochemical parameters.

The problem is solved and the necessary technical result is achieved in our proposed method for producing granular phosphorus-potassium fertilizer, comprising mixing a calcium-phosphorus component and potassium chloride, in which pulp with a viscosity of 20-150 cP obtained by neutralizing phosphoric acid is taken as a phosphorus-calcium component or mixtures thereof with calcium sulfuric carbonate, the reagent ratio and neutralization time being maintained within the range necessary to obtain the monocalc ratio in the pulp iiphosphate and dicalcium phosphate equal to 1-0.3-0.5.

It is possible to supply a mixture of phosphoric and sulfuric acid to the neutralization step. This will allow to expand the range of fertilizers without changing the physical and chemical parameters of the product, because for some crops, the introduction of sulfur into the fertilizer is mandatory. The ratio of acids due to the brand of the resulting finished product.

The invention consists in the following.

In order for the obtained granular fertilizer to meet the requirements set by us in the task of our invention, it is necessary to have a certain composition and certain physical and chemical characteristics of the granules, such as strength and caking. This depends, first of all, on the quality of calcium phosphorus pulp, which is mixed with potassium chloride and then granulated. Such a pulp is obtained by neutralizing phosphoric acid or its mixture with sulfuric calcium carbonate. In this case, calcium carbonate is used in various qualities, both pure and for example, containing magnesium oxide and other impurities, which naturally affects the neutralization process. In order to achieve a positive result, a pulp of a certain composition is used - with a certain ratio of calcium phosphate salts in it. This ratio is Ca (H ₂ PO ₄ ) ₂ : CaHPO ₄ = 1: 0.3-0.5. Also, this pulp must have a certain viscosity, namely 20-150 cps.

The limit of ratios of calcium phosphates in the product is determined for the following reasons. With a ratio of Ca (H ₂ PO ₄ ) ₂ : CaHPO ₄ <0.3, the product is obtained with a low pH (i.e., acidic), low strength granules and high caking.

With an increase in the ratio of Ca (H ₂ PO ₄ ) ₂ : CaHPO ₄ > 0.5, the content of aqueous forms of P ₂ O ₅ and CaO in the product decreases, because a large amount of dicalcium phosphate is formed in the product, which is an assimilable form, but poorly soluble in water, which reduces the agrochemical properties of the product.

The accepted ratio of calcium phosphates in the product allows you to get the brand of RK - fertilizers with different contents of phosphorus and potassium, with a high content of easily digestible water forms of P ₂ O ₅ and CaO.

The viscosity of the pulp affects the granulation process and, accordingly, the quality of the resulting product.

When the viscosity of the pulp decreases below 20 cP, the pulp contains a lot of water, which must be removed during drying, which reduces the productivity of the process and increases energy consumption.

With an increase in viscosity above 150 cP, the pulp thickens with a decrease in temperature, which leads to a dosage violation when it is fed to granulation and drying.

Obtaining the specified ratio in the pulp depends on such factors as the ratio of the reagents supplied to the stage of neutralization and the time of neutralization. These indicators are selected and maintained in each individual case in such a way that the indicated ratio of salts in the pulp and its viscosity corresponded to the stated declared indicators necessary to obtain the stated result.

The proposed method allows the use of a non-dusty fraction of potassium chloride, thereby simplifying production by reducing the volume of equipment for separating milling of raw materials and significantly reducing dust emission and, accordingly, reducing equipment for collecting it, while physicochemical and physicomechanical properties of the product are significantly improved. The strength of the granules increases to 7.0-9.8 kPa (in the prototype 2.5-3.0).

The method is illustrated by the following examples.

Example 1. 820 kg of extraction phosphoric acid with a concentration of 25% P ₂ O ₅ and containing 1.06% SO ₃ are charged into the reactor; 1.28% F; 1.57% CaO; 0.38% Fe and 165.4 kg of sulfuric acid with a concentration of 92.5% H ₂ SO ₄ . The mixture of acids is neutralized with vigorous stirring (for faster removal of CO ₂ from the reaction products) with calcium carbonate taken in an amount of 309 kg. The reaction is carried out at a temperature of 75 ° C for 60 minutes The result is a pulp with a ratio of Ca (H ₂ PO ₄ ) ₂ : CaHPO ₄ = 1: 0.4. 328 kg of potassium chloride with a content of 61.3% K ₂ O are introduced into the resulting pulp with a viscosity of 50 cP.

The resulting phosphate-potassium pulp is fed to granulation and drying. Get 1000 kg of finished RK - fertilizer composition: 20% P ₂ O ₅ , 20.2% K ₂ O and 5.3% S. The strength of the granules (+3 mm) - 7.5 kPa, caking product 2.2 kPa.

Example 2. In the neutralization reactor load 572 kg of hemihydrate extraction phosphoric acid with a concentration of 35.2% P ₂ About ₅ and containing 1.25% CaO; 1.5% F; 0.06% MgO; 0.48% S and neutralize the acid with calcium carbonate taken in the amount of 198 kg at 80 ° C for 45 minutes. The result is a pulp with a ratio of Ca (H ₂ PO ₄ ) ₂ : CaHPO ₄ = 1: 0.5 and a viscosity of 62 cP, then 490 kg of potassium chloride and 120 kg of phosphogypsum are introduced. The resulting pulp is fed to granulation and drying. Get 1000 kg of RK - fertilizer with a content of: 20.2% P ₂ O ₅ and 30% K ₂ O (P ₂ O ₅ : K ₂ O = 1: 1,5). The strength of the granules is 8.8 kPa, the product is practically not caked.

The results of the remaining experiments are summarized in the following table.

Table 1 The ratio of the components of Cao: P ₂ O ₅ Temperature ° C Neutralization time, min Ca (H ₂ PO ₄ ) ₂ : CaHPO ₄ Pulp viscosity, cP goth product pH The strength of the granules, kPa Composition of the product P ₂ O ₅ water.,% CaO _water ,% 0.55 80 35 1: 0.26 twenty 3.6 5.27 17.60 14.65 0.7 85 40 1: 0.30 one hundred 4.0 7.0 17.75 15.40 0.75 85 45 1: 0.35 108 4.2 8.2 17.23 14.80 0.85 90 fifty 1: 0.40 115 4.4 9.1 16.25 13.88 0.90 90 60 1: 0.50 130 4.6 9.8 15.85 13.36 0.95 95 70 1: 0.8 150 5.5 9.0 12.82 11.85

Claims (1)

A method of producing a phosphorus-potassium granular fertilizer, comprising mixing a phosphorus-calcium component and potassium chloride, granulating the mixture and drying the finished product, characterized in that the pulp with a viscosity of 20-150 cP obtained by neutralizing phosphoric acid or its is taken as a phosphorus-calcium component mixtures with sulfuric calcium carbonate, and the ratio of reagents and the neutralization time are maintained within the range necessary to obtain a ratio of monocalcium phosphate and dicalcium phosphate in the pulp o 1: (0.3-0.5).