SU1719386A1 - Method of producing fodder and fertilizer grades of phosphates - Google Patents

Abstract

The invention relates to a method for producing feed and fertilizer phosphates, which can be used in agriculture as feed additives for animals or as fertilizer for all types of soil. The purpose of the invention is to increase RaOs. in the finished product while simplifying the process. To this end, the phosphate raw material is mixed with nepheline with a P20s: nepheline ratio of 3.4-4.0. the resulting mixture is moistened to give T: W 1: 0.18-0.4, and then calcined at 1350-1500 ° C. C with an excess of air 0.05-0.35. Technology makes it possible to reduce technological stages. The content in the finished product is 95-96%. 3 tab. cl

Description

The invention relates to a method for producing feed and fertilizer phosphates, which can be used in agriculture as feed additives for animals or as fertilizer for all types of soil.

The purpose of the invention is to increase the content of P20busv. in the finished product while simplifying the process by eliminating the granulation step.

Example 1. 1000 kg of phosphorus is mixed with nepheline to obtain the ratio of components in the raw material mixture Pa05: nephelin-3A, then it is moistened to a T: W ratio of 1: 0.18 and fed to the calcining in a rotary kiln. In this case, the fluctuation of excess air is maintained at a level of 0.05. The resulting product leaves the oven.

quenched and contains 86% of P20s in digestible form.

EXAMPLE 2. 1000 kg of phosphorus is mixed with nepheline to obtain the ratio of components in the raw material mixture P20o: nefelin-3.7, then it is moistened to a T: W ratio of 1: 0.35 and served for firing in bake. While the fluctuation of excess air is maintained at a level of 0.25. The resulting product leaves the furnace without quenching and contains 95% PaOs in an assimilable form.

Example 3. 1000 kg of phosphorus is mixed with nepheline to obtain a ratio of components in the raw material mixture of PaOf nefelin-4.0, then it is moistened to a T: W ratio of 1: 0.5 and fed to the kiln for firing. In this case, the fluctuation of the excess is maintained at a level of 0.35. The resulting product output

s

WITH

about

It dies from a furnace without quenching and contains 89% PgOv in an assimilable form.

Example 4. 1000 kg of phosphorus is mixed with nepheline to obtain a ratio of components in the P20b: nephelin feed mixture equal to 4.0, then it is moistened to a T: W ratio of 1: 0.4 and fed to the kiln for firing. While the fluctuation of excess air is maintained at 0.35. The resulting product leaves the furnace without quenching and contains 96% P20s in an assimilable form.

The essence of the method is as follows.

When using nepheline as a reagent, containing Na2d not less than 7%, K20 not less than 10%, not less than 28%, S102 stop, with the ratio of the components of the mixture P20b: nepheline 3 4-4.0 solid solutions based on tricalcium phosphate and calcium-sodium are formed phosphate, which are readily soluble in solutions of citric acid and other solutions. If the ratio of the components in the P205: nepheline-3,4-4.0 raw mix changes, the degree of tricalcium phosphate and calcium sodium phosphate formation decreases with the appearance of tricalcium phosphate, which is poorly soluble in these solutions, which leads to a decrease in the digestible P2U5 content.

In this case, in all cases, the process proceeds with defluorization of the phosphate raw material and the production of a defluorinated product.

Thus, in order to provide the required amount of the product obtained, the use of nepheline is required in such an amount that a series of tricalcium phosphate and calcium sodium phosphate-based solid solutions are formed.

The use of such a technological technique as the use of nepheline in a certain amount increases the transition of P20s into an assimilable form from 80 to 95%. In addition, to obtain enhanced P4 Os, the ratio T: W in the mixture fed to the calcination, as with an increase in the solid phase in the mixture in the furnace, the pulp separates, the homogeneity of the mixture is disturbed, which leads to disruption of the above-described processes and decreases accordingly RaObusv. With the increase of the liquid phase Р20бусв. remains at the same level, but at the same time excess moisture causes increased fuel consumption and greatly simplifies the process, which does not require pre-granulation of the mixture with the addition of phosphoric acid and pulsed feed

fuels leading to reduced reliability of the process. The formation of scaly lumps due to homogeneity is also excluded.

mixtures and the absence of local overheatings with high diffusion resistance, and no additional equipment is required for quenching the finished product.

The effect of the ratio of components when using nepheline is presented in Table. 1 (T: W 1: 0.25).

When the ratio of components is more than 4.0, the transition of P20s into an assimilable form

does not exceed 70% due to the lack of reagents for the formation of the required amount of solid solutions based on tricalcium phosphate and calcium-sodium phosphate. When the ratio of the components is less than 3.4, the transition of P20s into the digestible form is reduced due to the formation of an excess of melt in the system, which requires special conditions for quenching the product.

The effect of the ratio between solid and

liquid phases on the performance of the process are presented in table. 3 (P20b: nephelin ratio 3.5).

With a T: W ratio of 1: 0.12, the loading of the material into the furnace is complicated, since the churn occurs and at the same time the charge charge increases.

Maintaining T: W 0.5 is advisable, since a larger amount of these is required to evaporate excess moisture.

The effect of the fluctuation range of excess air during fuel combustion is presented in Table. 3 (G: F 1: 0.85; R20b: Nefelin 3.5).

Thus, with the exception of the stage

granulation content of P20s yy. in the finished product is 95-96%, while in the known method 65-70%.

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Claims (1)

Invention Formula The method of obtaining feed and fertilizer phosphates, including the mixing of phosphate raw materials with nepheline and roasting the mixture at 1350-1500 ° C air, characterized in that, in order to increase the content of P20s uev in the finished product while simplifying the process by eliminating the granulation stage, mixing the phosphate raw material with nepheline is carried out at a mass ratio of RaOz / nepheline of 3.4-4.0. the resulting mixture is moistened to a content of T: W 1: 0.18-0.4, and the calcination is carried out with an air excess factor of 0.05-0.35. Table 1 table 2 Table 3