RU2704828C1 - Fertilizer - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the agriculture. Fertilizer contains weight fraction of coke-chemical ammonium sulphate in powder form, weight fraction of dolomite (limestone) flour, weight fraction of phosphorite flour, weight fraction of powdered potassium chloride, wherein it additionally contains weight fractions of salt forms of microelements, such as manganese sulphate, iron sulphate, copper sulphate, zinc sulphate and boric acid. All components are taken at a certain ratio.

EFFECT: invention enables to develop a complex universal granular NPK fertilizer composition with a set of trace elements (Mn 0,06 %, B 0,02 %, Zn 0,02 %, Fe 0,1 %, Cu 0,01 %), characterized by pronounced agrochemical efficiency and soil-protective properties, promoting fertility restoration of soil and increased crop capacity.

1 cl

Description

The invention relates to the field of agriculture, in particular to the production of granular mineral fertilizers with low cost, pronounced agrochemical effectiveness and soil-protective properties. Fertilizing the soil helps restore fertility and increase crop yields.

A known method of producing granular calc-potassium magnesium fertilizers, comprising mixing a raw material containing magnesium, potassium chloride and dolomite, and granulating the mixture, using ground electrolyte, which is a waste product of the production of magnesium or potassium chloride, or finely divided potassium chloride, which is mixed with ground dolomite-dolomite flour and dolomite hydrate (see RU patent for the invention No. 2149152, M. cl .: C05D 3/00, 2000).

This method allows to obtain lime-potassium fertilizers with a content of magnesium oxide of about 7% and calcium oxide of about 8.5%. The fertilizers obtained by this method are intended for acidic, sandy, peaty, podzolic, as well as tropical soils, for feeding any crops. The main disadvantage of these fertilizers is the unbalanced mineral composition (lack of nitrogen and phosphorus), i.e. the application of these fertilizers to the soil does not make it possible to satisfy the need of plants for all the basic nutrients. The pronounced effect of the use of such fertilizers is possible only if the soil is adequately supplied with nitrogen and phosphorus.

A known method of producing complex fertilizers, including obtaining nitrophosphate or nitrophosphate-potassium fusion, introducing a magnesium-containing additive into the melt, granulation, while in the melt with a moisture content of not more than 1.5%, a powdery additive containing water-insoluble magnesium compounds and having a pH of an aqueous extract of more than 7.0, and mixing with the melt is carried out at a pH of not less than 4.2, preferably 4.2-5.8 (see RU patent for the invention No. 2233819, M. class. C05D 3/00, 2003).

This method allows to obtain nitrogen-phosphorus and nitrogen-phosphorus-potassium fertilizers with a high content of MgO on the basis of equipment for the production of NPK fertilizers by prilling. The magnesium content in this fertilizer is approximately 0.3%. Fertilizers produced by this method contain the basic elements of the plant’s mineral nutrition, however, the low content of dolomite flour does not allow a pronounced reclamation effect to reduce acidity and improve soil structure. On the contrary, the chemical composition of this fertilizer will increase the acidity and degradation of the soil. In addition, the technology proposed to obtain this fertilizer requires high energy costs.

A fertilizer is known containing a mass fraction of ammonium sulfate, a mass fraction of ammonium nitrate and a mass fraction including lime and / or carbonate and / or magnesium and / or calcium bicarbonate, wherein the mass fraction includes lime and / or carbonate and / or bicarbonate of magnesium and / or calcium, is at least 10 to 20 wt. % and mass fraction of ammonium sulfate 30-50 wt. % fertilizer.

A method of obtaining the fertilizer described above is that a melt or solution of ammonium nitrate and ammonium sulfate is mixed in a mixing device with lime and / or carbonate and / or magnesium and / or calcium hydrogen carbonate, and then fertilizer is obtained by granulating a lime-containing suspension ( see RU patent for the invention No. 2478087, M. C. C05D 3/00, 2013).

The inclusion of lime in the composition of nitrogen fertilizers allows you to compensate for the effect of acidification of the soil when using these fertilizers. The disadvantage of fertilizers produced by this technology is the lack of stability of the granules during storage, leading to the need to use iron or aluminum additives. As you know, these additives lead to adverse environmental consequences. In addition, the composition of lime-containing nitrogen-sulfur fertilizers is not balanced and complete, there are no potassium and phosphorus in the fertilizers.

The closest in technical essence to the proposed one is a fertilizer containing a mass fraction of coke-chemical ammonium sulfate in powder form, a mass fraction of dolomite (limestone) flour, additionally contains a mass fraction of phosphate rock, a mass fraction of powdered potassium chloride in the following ratio, mass. %:

powdery ammonia sulfate 14.5-33.5 phosphorite flour 13.5-39.5 powdered potassium chloride 7.5-30 dolomite (limestone) flour 15,5-64,5

A method of producing fertilizer consists in mixing and grinding the components, followed by obtaining fertilizer by granulation, after mixing and grinding the components, they are fed into a granulator-mixer with the simultaneous supply of a 35% solution of ammonium sulfate heated to 40-50 ° С, the moistened grain from the mixer the granulator is fed to a plate granulator to enlarge and obtain oval-shaped granules, while the granules formed are fed to a drum dryer for drying to a residual moisture content of 1 ... 1.5% (see Pat t RU for the invention №2629215. M. Cl .: C05D 3/00. 2017).

The disadvantage of this fertilizer is its low efficiency due to the lack of basic trace elements., As well as their balance.

The technical result of the invention is the development of the composition and production technology of complex universal granular NPK fertilizers with a set of trace elements (Mn 0.06%, 0.02%; Zn 0.02%; Fe 0.1%; Cu 0.01%). characterized by low cost, pronounced agrochemical effectiveness and soil-protective properties that contribute to the restoration of soil fertility and increase crop yields.

The technical result achieved is achieved by the fact that in a fertilizer containing a mass fraction of coke-chemical ammonium sulfate in powder form, a mass fraction of dolomite (limestone) flour, a mass fraction of phosphorite flour, a mass fraction of powdered potassium chloride, additionally contains mass fractions of salt forms of trace elements, such as sulfate manganese, iron sulfate, copper sulfate, zinc sulfate and boric acid, in the following ratio in the following ratio, mass. %:

ammonia sulfate coke in powder form - 14.5-33.5;

phosphorite flour - 13.5-39.5;

powdered potassium chloride - 7.5-30.0;

dolomite (limestone) flour - 14.5-63.5;

manganese sulfate (manganese sulfate) - 0.2;

boric acid - 0.1;

zinc sulfate - 0.1;

vitriol (ferrous sulfate) - 0.55

copper sulfate (copper sulfate) - 0.05.

Dosing accuracy of manganese sulfate, iron sulfate and copper sulfate plus or minus 3%.

Obtaining fertilizer can be carried out by known technologies, for example, according to the technology described in RU patent for invention No. 2629215, M. Cl .: C05D 3/00, 2017 and consists in mixing and grinding the components, followed by obtaining fertilizer by granulation . After mixing and grinding the components, they are fed into a granulator-mixer with the simultaneous supply of a 35% solution of ammonium sulfate heated to 40-50 ° C in an amount of 10-20%. The obtained moistened grains from the mixer-granulator are fed to a plate granulator for enlargement and obtaining oval-shaped granules, while the resulting granules are fed to a drum dryer for drying to a residual moisture content of 1 ... 1.5%.

The following types of raw materials are used for the production of the proposed fertilizer from finished components by the rolling method:

- ammonia sulfate coke chemical - a source of nitrogen, contains 20.5-21% nitrogen, is widely used in agriculture as nitrogen fertilizer. Sulfates, which are part of ammonium sulfate, make up for sulfur deficiency; nitrogen, which is in ammonium form, has several advantages over nitrate: it reduces nitrogen loss during application, is easily absorbed by plants, and suppresses soil diseases. The main advantages of ammonium sulfate as a fertilizer are its low cost, the ability to be easily absorbed by the soil, and not to be washed out of the soil for a long time (it can be applied during the winter and also not to cake during storage.

- phosphorite flour - a source of phosphorus, contains 19-30% of phosphorus (calculated on P ₂ O ₅ ) and a number of valuable trace elements (calcium, magnesium, iron, etc.). The high dispersion of phosphorite flour significantly increases its ability to dissolve and transfer to a form accessible to plants; an admixture of clay inclusions contained in phosphate rock contributes to the formation of stable granules. The main advantages of phosphorite flour as a fertilizer are its low cost, environmental friendliness, prolonged action, as well as the ability to improve physico-chemical properties and soil structure.

- potassium chloride (a waste product of the electrolysis production of magnesium) - a source of potassium, contains up to 75% KCl. Potassium chloride is the most concentrated potash fertilizer, contributing to increased productivity and winter hardiness of crops. The main advantage of potassium chloride is its low cost, as well as the ability to activate phosphate rock.

- dolomite (limestone) flour - a source of calcium and magnesium. Fertilizers based on dolomite (limestone) flour contribute to an effective and prolonged decrease in soil acidity and improve the structure of the upper fertile horizon. Calcium has a positive effect on the development of the root system, and magnesium activates the processes of photosynthesis. The positive effect of introducing dolomite (limestone) flour into the soil is manifested up to 6-8 years.

- Manganese sulfate - a source of manganese, contains 30-32% manganese (Mn). additionally contains sulfur. Manganese is involved in the process of photosynthesis (chlorophyll synthesis), thanks to it, oxygen is released by plants, and also affects the assimilation of nitrogen by plants.

- boric acid - a source of boron, contains up to 20% of boron (B). The trace element is necessary for plants to increase the absorption of calcium, enhance root respiration and the synthesis of biologically active substances. Boric acid is one of the most affordable and effective micronutrient fertilizers with boron.

- zinc sulfate - a source of zinc, contains up to 25% zinc (Zn), additionally contains sulfur. The use of zinc sulfate can reduce the ripening time of fruits, increase productivity and increase the content of sugars and vitamins in fruits. Zinc sulfate is especially effective when feeding fruit crops, as well as tomatoes and potatoes.

- iron sulfate - a source of iron, contains up to 20% iron (Fe). Iron sulfate is especially effective for the prevention and treatment of chlorosis (appears due to the lack of mobile forms of iron on alkaline soils or due to the uncontrolled introduction of lime into the soil).

- copper sulfate - a source of copper, contains up to 25% copper (Cu). Copper sulfate is one of the most affordable and environmentally friendly micronutrient fertilizers containing copper. Fertilizer plays an important role in redox processes, improves the intensity of photosynthesis, promotes the formation of chlorophyll, has a positive effect on carbohydrate and nitrogen metabolism, and increases the resistance of plants against fungal and bacterial diseases.

The proposed complex granular NPK fertilizers with a set of trace elements contain a complete balanced set of essential nutrients and essential trace elements (Mg, Ca, Mn, B, Zn, Fe, Cu, S); have a set of properties that contribute to the restoration and maintenance of soil fertility; allow to increase the nutritional value of the grown fruits; do not cause negative environmental consequences; have a low cost; are made by energy-saving technology.

The proposed technical solution allows you to:

- get brands of cheap complex fertilizers of prolonged action with the main set of trace elements. A particularly pronounced positive effect is achieved when using fertilizers on acidified sandy soil types depleted in magnesium;

- to optimize the component composition of mineral fertilizers in such a way that the finished product exhibits a pronounced agrochemical effect and soil-protective properties (protection of the soil from acidification and destruction);

- significantly increase the agrochemical effectiveness of the known ameliorant-dolomite (limestone) flour, without significantly increasing the cost of the finished product;

- due to the presence of basic trace elements, significantly increase planting productivity, increase the period of fruiting of crops;

- increase the nutritional value of fruits while ensuring environmental safety of the product;

- to provide domestic agricultural producers and the market of private household plots (personal subsidiary plots) affordable and efficient, due to the manifestation of the synergistic effect of the incoming components, complex minerals with a set of basic trace elements. This is the advantage and advantage of the proposed technical solution compared to the prototype.

Claims (10)

Fertilizer containing a mass fraction of coke-chemical ammonium sulfate in powder form, mass fraction of dolomite (limestone) flour, mass fraction of phosphorite flour, mass fraction of powdered potassium chloride, characterized in that it additionally contains mass fractions of salt forms of trace elements such as manganese sulfate, ferrous sulfate , copper sulfate, zinc sulfate and boric acid, in the following ratio, wt.%: ammonia sulfate coke in powder form - 14.5-33.5; phosphorite flour - 13.5-39.5; powdered potassium chloride - 7.5-30.0; dolomite (limestone) flour - 14.5-63.5; manganese sulfate (manganese sulfate) - 0.2; boric acid - 0.1; zinc sulfate - 0.1; iron sulfate (ferrous sulfate) - 0.55; copper sulfate (copper sulfate) - 0.05.