RU2346917C2 - Organic and mineral fertiliser based on peat - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention concerns agriculture and can be applied in fertiliser production for growing vegetable, forage crops, flowers, horticultures and other crops in open and covered field. Organic and mineral fertiliser includes peat, mineral additives, deoxidant, and additionally borogypsum and orthophosphoric acid. Potassium hydroxide alkali is used as deoxidant at the ratio of potassium hydroxide to peat 1:29.6-37.5, and the component rationis as follows, wt %: peat 71.0-75.0, borogypsum 7.0-7.4, potassium hydroxide 2.0-2.4, mineral additives 16.0-19.0, orthophosphoric acid 0.8-0.9.

EFFECT: improved structure and fertility of soil due to increased amount of nutrient substances in the form assimilable by plants, facilitating sanitation of soil and improvement of its structure.

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Description

The invention relates to agriculture, namely to the production of fertilizers for growing vegetables, fodder, flower, garden and other crops in open and protected ground.

Organic fertilizer is known, including brown coal, peat, limestone and / or chalk waste, natural phosphorite and quartz-glauconite ores, while the content of the components is distributed as follows, wt.%: Brown coal - 25-35, peat - 10-15, phosphorite ore - 20-30, quartz-glauconite ore - 15-25, limestone and / or chalk waste - 15-25 (RF Patent No. 2096393, IPC C05F 11/02, 1997).

A disadvantage of the known fertilizer is that it does not contain the necessary complex of nutrients, which should ensure the optimal development of plants, which ultimately affects their productivity.

In addition, in order to neutralize the acidity of peat, a large amount of lime is introduced, which increases the complexity of the process and its costs.

Known granular fertilizer based on peat containing peat, mineral fertilizers and a sorbent - natural zeolite with a ratio of peat and zeolite of 2.5: 1.0 -10.0: 1.0 in the following ratio of components, wt.%:

peat (dry matter) - 44-65 zeolite - 5-22 mineral fertilizers - 23-45.

(RF patent No. 2121489, IPC C10F 7/00, C05F 11/00, 1998).

A disadvantage of the known fertilizer is that it acidifies the soil, because does not contain a deoxidizer, which is necessary to neutralize the acidity of peat, which is part of the fertilizer, which leads to a deterioration in the physico-chemical properties of this fertilizer, and in case of its use reduces soil fertility, i.e. additional agrotechnical measures for deoxidation of the soil are necessary.

The closest technical solution to the claimed is a peat-based organic fertilizer containing, in addition to peat, a deoxidizing component in the form of calcareous material, mineral additives (superphosphate), sand and clay (RF Patent No. 2067969, C05F 11/04, C09K 17/00).

The disadvantage of this fertilizer is its tendency to salinization of the soil and insufficiently high productivity when using it due to lack of nutrients. In addition, in order to neutralize the acidity of peat, it is necessary to introduce a large amount of calcareous material, which increases the complexity of the process.

The technical result of the claimed technical solution is to improve the structure and fertility of the soil, providing enhanced processes for increasing the amount of nutrients in a form assimilable for plants.

The technical result is achieved by the fact that a peat-based organic fertilizer containing peat, mineral additives and a deoxidizer, while it additionally contains borogypsum and phosphoric acid, and alkali-potassium hydroxide in the ratio of potassium hydroxide and peat 1: 29.6 is used as a deoxidant -37.5, in the following ratio of components, wt.%:

peat - 71.0-75.0 borogypsum - 7.0-7.4 potassium hydroxide - 2.0-2.4 mineral supplements - 16.0-19.0 phosphoric acid - 0.8-0.9.

Peat, which is especially decomposed, which forms the basis of fertilizer, contains significant amounts of humus-high-molecular, dark-colored organic substances, including humic acids (up to 60%), fulvic acids, and humine. Humic acids are a mixture of weak organic acids that are insoluble in water, in neutral and acidic environments, but soluble in alkali solutions. Humic acids easily form salts (humates) with inorganic macro- and microelements, forming forms that are easily accessible to plants. Under natural conditions, humates form practically insoluble salts with calcium, magnesium, iron, etc., therefore, their molecules are blocked in peat. They cannot be absorbed by plants, therefore, in the production of fertilizers based on peat, they must be converted into a soluble form.

In the claimed technical solution, this problem is solved by treating the peat mass with an alkaline reagent - potassium hydroxide (hereinafter KOH), while the ratio of KOH and peat should be - 1: 29.6-37.5.

The results of the studies showed that it is with this ratio of these components that the formation of potassium humates well soluble in water occurs. With this ratio, the acidic environment of peat is completely neutralized and gradually turns into alkaline, which ensures the maximum yield of humic substances from peat in the form of the corresponding soluble humic acids, humus, cellulose and hemicellulose, thereby contributing to the accumulation of nutrients and closer to the natural conditions of nutrient removal from fertilizers and better absorption by plants. Moreover, the use of potassium hydroxide as a deoxidizing component is more preferable, since potassium, which is part of KOH, is one of the most important elements needed by cultivated plants.

In addition, KOH is a supplier of mineral elements in fertilizers, in particular potassium, and, among other things, to neutralize acidity, a much smaller amount of it is required compared to known deoxidizers (for example, lime).

So, the required amount of KOH in the composition of the claimed fertilizer is not more than 2.4% of the total amount of fertilizer, while there is no need to carry out additional agricultural activities to deoxidize the soil.

Phosphoric acid introduced into the fertilizer in an amount of 0.8-0.9 kg neutralizes the alkaline soil environment to the optimum pH value of 6-7 for the plant root system and, in addition, enriches the soil with one of the main nutrients - phosphorus.

The presence of borogypsum in the fertilizer contributes to a good combination of the components of the fertilizer during its production, since the structureless, loose mass of peat is difficult to mix and granulate. The ability of borogypsum to absorb moisture well contributes to a homogeneous, well-formed mixture, since it acts as an astringent material, absorbing excess moisture from peat, thereby providing a good miscible structure to the fertilizer.

In addition, the presence of calcium (20-30%), sulfur (up to 15%), boron and magnesium, necessary for plants, in borogypsum increases the nutritional value of the fertilizer, and since borogypsum is a natural compound, it is well absorbed by plants, which is important for characterization such fertilizers.

The presence of borogypsum in the range of 7.0-7.4% is sufficient to achieve the claimed technical effect.

The claimed organic-mineral fertilizer is characterized by a prolonged action (up to 2-3 years) due to the adsorption of nutrients by humic acids of peat, which prevents their premature leaching from the soil and improves the water-physical properties of soils.

The ratio of the components of the declared organic fertilizer were selected experimentally taking into account the need for plants and depending on the crop.

The claimed composition does not create dangerous concentrations of mineral salts with a lack of moisture in the event of drought, therefore, the created fertilizer is environmentally friendly, which is a great advantage compared to known fertilizers, and its use changes the conditions of soil nutrition of plants, causing an active intensification of the processes of increasing the amount of nutrients assimilated for plants form, which contributes to the improvement of the soil and improve its structure.

Fertilizer is prepared as follows.

Sifted peat in an amount of 71-75 kg is treated with KOH in an amount of 2-2.4 kg, the treated peat is maintained for 10-12 hours (until pH 9 is reached), and then the excess pH is neutralized to an optimum pH of 6-7 with phosphoric acid 0 , 8-0.9 kg, add mineral additives 16-19 kg, borogypsum 7-7.4 kg and mix until a mass is uniform in physical composition. The resulting mass is either granulated or mixed into powder, then dried and tared.

The finished organomineral fertilizer is a powdery homogeneous mass or granules from brown to black.

Example 1

Composition for cereal crops, wt.%:

peat - 73.2 borogypsum - 7.1 KOH - 2.4 phosphorus - 6.5 nitrogen - 10.0 phosphoric acid - 0.8.

Take 73.2 kg of peat, with a humidity of 50%, crush and mix with 7.1 kg of borogypsum, then add 2.4 kg of KOH to the mixture and hold the mixture for 10-12 hours (until pH 9 is reached), then the excess pH is neutralized to the optimum pH value of 6-7 orthophosphoric acid in an amount of 0.8 kg, add mineral additives: 10 kg of nitrogen and 6.5 kg of phosphorus, after which the mixture is granulated, packaged and packaged.

Example 2

Composition for legumes, wt.%:

The composition is prepared according to example 1 with a ratio of components:

peat - 72.0 borogypsum - 7.4 KOH - 2.0 phosphorus - 17.69 molybdenum - 0.01 phosphoric acid - 0.9.

Example 3

Composition for nightshade crops, wt.%:

The composition is prepared according to example 1 with a ratio of components:

peat - 75.0 borogypsum - 7.0 KOH - 2.0 phosphorus - 6.0 nitrogen - 9.2 phosphoric acid - 0.8.

Example 4

Composition for cruciferous crops, wt.%:

The composition is prepared according to example 1 with a ratio of components:

peat - 71.0 borogypsum - 7.2 KOH - 2.0 phosphorus - 9.0 nitrogen - 5.0 potassium - 5.0 phosphoric acid - 0.8.

In all examples, a powdery homogeneous mass was obtained with a well-miscible structure and the presence of a sufficient amount of nutrients that increase soil fertility.

The declared organic composition of the fertilizer, which changes the conditions of soil nutrition of plants, contributing to the improvement and improvement of the structure, will find, according to the applicant, widespread use in agriculture.

Claims (1)

Peat-based organomineral fertilizer containing peat, mineral additives and a deoxidizer, characterized in that it additionally contains borogypsum and phosphoric acid, and an alkali - potassium hydroxide in the ratio of potassium hydroxide and peat 1: 29.6-37.5 in the following ratio of components, wt.%:
peat 71.0-75.0 borogypsum 7.0-7.4 potassium hydroxide 2.0-2.4 mineral supplements 16.0-19.0 phosphoric acid 0.8-0.9