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Abstract

The method of obtaining granulated complex fertiliser includes application to the surface of the granules of mineral fertiliser, which is used as a center of granulation, liquid and solid components at their separate feeding and simultaneous occlusion in a rotating granulator, followed by drying of the resulting granules. Granules of mineral fertiliser are used as granules of nitrogen-phosphorus-containing fertilisers, as a solid component of phosphate-free raw materials, in the amount of 50-80 % to the mass of granules of nitrogen-phosphorus-containing fertiliser – ash, and the liquid component is used in the amount of 10 – 50 % to the mass of raw materials. The solid phase for the rolling is carried out in a dosed manner.

Description

The useful model belongs to the production of mineral fertilizers, namely granular complex chlorine-free fertilizers based on nitrogen-containing mineral fertilizers, and can be used in agriculture to increase the yield of agricultural crops.

In the production of granular mineral fertilizers, there is a tendency to create technologies that allow flexibly changing the composition and content of nutritional components, increasing the share of organic components, and producing granules with an enlarged granulometric composition close to monodisperse with increased static strength.

There is a known method of obtaining granulated mineral fertilizer, chosen by us as an analogue, which includes applying to the surface of granules of nitrogen-containing fertilizer, which is used as a center of granulation, liquid and solid components with separate and simultaneous feeding of them during rolling in a rotating granulator. An aqueous solution of ammonium polyphosphate is used as a liquid component, and a powder of defluorinated phosphate is used as a solid component.

USSR Patent No. 1546457 was published on February 28, 1990. BI Mo 8, 1990

The disadvantage of the known analogue is the impossibility of ensuring the required stable composition of the granulated fertilizer due to the insufficient quality of the coating, due to the hygroscopicity of the constituent components, which does not allow creating a coating with minimal pore sizes for the slow dissolution of the nitrogen core of the granule, all of which leads to a decrease in the yield of agricultural crops.

The basis of the useful model is the task of creating an effective method of obtaining a highly effective chlorine-free nitrogen-phosphorus-potassium complex fertilizer with the content of the main nutrients in an agrochemically balanced ratio and the content of Re2Obvr. not less than 20 95 from Rg2Ozvzag, which effectively acts to increase the yield of agricultural crops on all types of soil.

The problem is solved by the fact that in the method of obtaining granulated complex fertilizer, which includes applying the liquid and solid components to the surface of mineral fertilizer granules, which are used as the center of granulation, with their separate feeding and simultaneous coating in a rotating granulator, followed by drying of the obtained granules , according to a useful model, as granules of mineral fertilizer

Nitrogen-phosphorus-containing fertilizer granules are used as a solid component, potassium phosphate raw materials that do not contain chlorine are used in the amount of 50-80 95 to the mass of nitrogen-phosphorus-containing fertilizer granules - ash, and the liquid component is used in the amount of 10-50 95 to the raw material mass. in addition, the supply of the solid phase to the coating is carried out in a dosed manner.

Additionally, water is used as a liquid component.

Additionally, an aqueous solution of a plasticizer in organic and/or mineral acids is used as a liquid component.

The selection of components that are included in the liquid and solid component of the coating, which provide the necessary final composition of the fertilizer that is granulated, is made in such a way that their interaction improves the quality of the obtained granules. The quantities of components and their composition are selected on the basis of the required composition of the final product, namely, obtaining a highly effective chlorine-free complex fertilizer with the content of the main nutrients in an agrochemically balanced ratio and the content of Рg2Озвр. not less than 20 95 from Rg2Ovzag. The distribution of substances between the liquid and solid phases is selected in such a way that chemical interaction occurs between them, which contributes to the improvement of the quality of the coating. The minimum contact time of the liquid and solid components, which excludes their negative chemical interaction with each other, is determined by dosing the liquid and solid components separately in space and simultaneously in time into the granulator.

The supply of liquid and solid components in the ratio necessary for continuous binding of the powder flow to form a shell on the surface of the nitrogen-phosphorus-containing core eliminates involuntary granulation in the powder and ensures solidification of the liquid component with the powder particles on the surface of the granule.

The method is carried out as follows.

To prepare the cores of complex granulated chlorine-free fertilizer, granules of monoammonium phosphate and/or diammonium phosphate with a size of (0.3-1.0) mm are isolated on a vibrating screen. At the same time, a powder of phosphate-potassium-containing raw materials, which does not include chlorine, is prepared as a product of burning agricultural crops with a particle size of no more than 200 microns. Water, aqueous solutions of mineral or organic acids, alkalis, salts, surface-active compounds are used as plasticizers. Granules of monoammonium phosphate and/or diammonium phosphate are loaded onto the rotating plate of the granulator and moistened with water in the amount of 10-30,906 to the mass of raw materials. An aqueous solution of the plasticizer is sprayed onto the layer of granules with the simultaneous supply of phosphate-potassium-containing raw materials that do not include chlorine - powdered ash. Gradually,

by the agglomeration method, a phosphate-potassium-containing shell is formed on a granule of monoammonium phosphate and/or diammonium phosphate, the ratio of the mass of the core of the granule and the mass of the coating is selected in such a way that in the formed granule the ratio ReoOzvr/RgOvzag is (20-70) 9o. The formed granules are dried at a coolant temperature of 100 "С.

Examples of specific execution of the method.

Example 1. Monoammonium phosphate granules up to (0.3-1.0) mm in size are pre-prepared on a vibrating screen. At the same time, a powder of pre-scattered ash of agricultural crops with a particle size of no more than 200 microns is prepared. Water is used as a plasticizer. Monoammonium phosphate granules in the amount of 300 g are loaded onto the rotating plate of the granulator, and they are moistened with water in the amount of 10 96 to the mass of the raw material being granulated. Spray water on a layer of granules with a simultaneous supply of powdered ash. Gradually, by the agglomeration method, a phosphate-potassium-containing shell is formed on the monoammonium phosphate granule in such a way that in the formed granule the ratio RegOvzvr./P2O»vza. consisted of 7095. The finished granules with the coating formed on them are dried at the temperature of the heat carrier at 100 "C. 630.0 g of complex encapsulated chlorine-free fertilizer with the following composition is obtained: nitrogen - 5.5 95; Rg2Obzag. - 31.58 95, R2Ozvvr. - 22 ,1 905, ratio Pg2Ozvr./P2Ozzag. - 70 905, K2O - 16.18 90, H2O - 9.15 95, pH - 6.9, Static strength 2.5 MPa.

Example 2. Diammonium phosphate granules up to (0.3-1.0) mm in size are pre-prepared on a vibrating screen. At the same time, a powder of pre-scattered ash of agricultural crops with a particle size of no more than 200 microns is prepared. Water is used as a plasticizer. On the plate of the granulator, which rotates, load diammonium phosphate granules in the amount of 300 g and moisten them with water, in the amount of 20.0 96 to the weight of the raw material. Spray water on a layer of granules with a simultaneous supply of powdered ash. Gradually, by the method of agglomeration, a phosphate-potassium-containing shell is formed on a diammonium phosphate granule in such a way that the ratio RegOzvr/Ро2Ovza" in the formed granule was 31.58 905. The finished granules with the coating formed on them are dried at a coolant temperature of 100 "C. 660.0 g are obtained complex encapsulated chlorine-free fertilizer with the following composition: nitrogen - 7.79 95;

RgOvzakg. - 29.41 95, Pg2Ozvvr, - 9.28 96, ratio ReoOzvr/Pg2OzFzag, - 31.58 90, K2O - 13.35 90, HgO - 10.07 95, pH - 7.4, Static strength 2.15 MPa

З Using the proposed useful model will make it possible to obtain an ecological fertilizer that has a ratio of Re2Ozv»r./Rg2Ozvzag in the finished product of at least 20 95, the strength of the granules is not less than 2.0 MPa, the output of the marketable fraction (2-5) mm up to 8095, which will allow to increase the assimilation coefficient of nitrogen, phosphate and potassium components of fertilizer by plants, to significantly reduce the negative impact of fertilizer on the environment and to improve the quality of plant products.

Claims (3)

USEFUL MODEL FORMULA 1. The method of obtaining granulated complex fertilizer, which includes applying to the surface of mineral fertilizer granules, which are used as the center of granulation, liquid and solid components with their separate feeding and simultaneous rolling in a rotating granulator, followed by drying of the obtained granules, which is characterized by that as mineral fertilizer granules nitrogen-phosphorous fertilizer granules are used, as a solid component potassium phosphate raw material that does not contain chlorine is used in the amount of 50-80,956 to the mass of nitrogen-phosphorus fertilizer granules - ash, and the liquid component is used in an amount of 10-95 to masses of raw materials, in addition, the supply of the solid phase to the coating is carried out in a dosed manner. 2. The method according to claim 1, which differs in that water is used as a liquid component. 3. The method according to claim 1, which differs in that an aqueous solution of a plasticizer in organic and/or mineral acids is used as a liquid component.