RU2796610C2 - Organo-mineral fertilizer based on lowland peat - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates specifically to production of liquid organo-mineral fertilizers for growing crops in open ground. Organo-mineral fertilizer based on lowland peat contains peat, mineral additives in form of nitrogen, phosphorus and potassium, metal ions - zinc chelate and copper chelate, and sulphur, alkali-potassium hydroxide is used as a deoxidizer. In this case, lowland peat is used stripped from large plant residue, mixed with tap water and then under the influence of potassium hydroxide in a ratio of potassium hydroxide and peat 1:10.5-11 and subjected to cavitation-gravitational process for an hour at a temperature of 70-80 degrees to obtain a concentrate, which is filtered using a centrifuge. Nitrogen, phosphorus, potassium, metal ions - zinc chelate and copper chelate, and sulphur are added to the finished solution at the following ratio of components, kg: tap water 60, lowland peat 22, potassium hydroxide 2.0-2.1, nitrogen 5.5-6, phosphorus 0.1-0.2, potassium 1.0, zinc chelate 3.2, copper chelate 2.0, sulphur 3.0.

EFFECT: invention provides an increase in the yield of cereal crops and an improvement in the quality of grain.

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Description

The invention relates to agriculture, namely the production of liquid organomineral fertilizers for growing crops in open ground.

The invention provides an increase in the yield of cereal crops and an improvement in the quality of grain, and the components included in the composition allow the use of fertilizer in organic farming.

Known organo-mineral fertilizer, including brown coal, peat, limestone and/or chalk waste, natural phosphorite and quartz-glauconite ores, 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).

The 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 sorbent - natural zeolite at a ratio of peat and zeolite 2.5:1.0 -10.0:1.0 in the following ratio, wt. %:

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

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

The 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 physicochemical properties of this fertilizer, and, if used, reduces soil fertility, i.e. additional agrotechnical measures are needed to deoxidize the soil.

The closest technical solution to the claimed is a peat-based organo-mineral fertilizer containing peat, mineral additives, a deoxidizer, borogypsum and phosphoric acid, alkali - potassium hydroxide is used as a deoxidizer in a ratio of potassium hydroxide and peat 1: 29.6-37.5, with 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.

(Patent of the Russian Federation No. 2346917, IPC C05F 11/02, published: 20.02.2009).

A disadvantage of the known organomineral fertilizer is the content of borogypsum in the composition, since it is characterized by heterogeneity of components, is a waste of the chemical industry, and its components can lead to environmental pollution. Borogypsum is obtained by the production of boron by the sulfate method, and the finished product is a paste-like consistency, which determines its use in the production of dry or granular fertilizers. The main component of borogypsum is calcium sulfate, with an excess of its content in the soil, iron compounds are bound, which makes this microelement inaccessible to plants, which leads to the next chain - a violation of the absorption of nitrogen, potassium and boron by the root system of plants.

In addition, the composition of the fertilizer does not contain zinc sulfate, copper sulfate and sulfur compounds, which makes the composition of the fertilizer less balanced, and as a result, reduces the possibility of its use in organic farming, which leads to an inevitable decrease in the ability to increase harvest from sown areas and ensure high quality characteristics.

The technical objective of the invention is the development of organomineral fertilizer with increased balance and the ability to use in organic farming.

The technical result is achieved by the fact that an organomineral fertilizer based on lowland peat containing peat, mineral additives in the form of nitrogen, phosphorus and potassium, alkali is used as a deoxidizer - potassium hydroxide is additionally used, lowland peat is used as peat with purification from large plant residues, mixed with tap water and then under the influence of potassium hydroxide in the ratio of potassium hydroxide and peat 1: 10.5-11 and the cavitation-gravity process for an hour at a temperature of 70-80 degrees, a concentrate is obtained, which is filtered using an OGSH 221 centrifuge into a ready-made solution add nitrogen, phosphorus, potassium and metal ions - zinc chelate and copper chelate and sulfur in the following ratio, wt. %:

tap water 60 lowland peat 22 potassium hydroxide 2.0-2.1 nitrogen 5.5-6 phosphorus 0.1-0.2 potassium 0.7-1.0 zinc chelate 1.5-2.0 copper chelate 3.0-3.2 sulfur 2.7-3.0

Lowland peat is the basis of organomineral fertilizer. This name indicates the position of a natural fossil in the relief. Compared to other species, lowland peat has a lower acidity.

Lowland peat contains humic acids (up to 40%) and fulvic acids (up to 17%).

It has been experimentally proven that humic acids are insoluble in aqueous solution, but easily soluble in alkaline solutions, and more efficient dissolution occurs at elevated temperatures from 70 to 80 ° C, when dissolved, humic acids form humates - salts, which are later easily absorbed by the root plant system.

In the untreated lowland peat with alkalis, humates are present in the form of insoluble salts, the process of ionization with metal molecules does not occur, which makes them inaccessible for plant assimilation. In order to start this process, it is necessary to achieve complete dissolution of humates with alkalis - potassium hydroxide in the production of organic fertilizer.

Fulvic acids are obtained by extraction from the humus contained in lowland peat with the help of strong acids. Fulvic acids easily react with simple inorganic molecules of mineral substances and break them down into bioavailable substances - ions. Ionized minerals in combination with fulvic acids have the ability to penetrate into the cell membranes of plants, and are also easily absorbed by the root system of plants.

In the claimed technical solution, this problem is solved by mixing lowland peat with tap water and alkali. The ratio of potassium hydroxide and peat is 1:10.5-11. The resulting mixture is placed in a mechanical cavitation generator and the concentrate is exposed to the cavitation-gravity process for an hour at a temperature of 70-80 degrees, resulting in the formation of caverns (cavitation bubbles). The energy released during the collapse of the cavity is sufficient for the excitation, ionization and dissociation of water molecules, gases and substances with a high vapor density, while temperature and energy are released.

The resulting concentrate is enriched with humic and fulvic acids, alkali (potassium hydroxide) and forcing the temperature, the salts of these acids are made water-soluble, therefore, in the future, when they enter the soil, they are easily digestible for plants. The next technological step is filtration using an OGSh 221 centrifuge and the addition of copper chelate and zinc and sulfur chelate.

It has been experimentally proved that the ratio of potassium hydroxide and peat is 1:10.5-11 in the manufacture of the organo-mineral fertilizer composition and the use of an elevated temperature of 70-80 degrees in the technological process ensures complete dissolution of humate salts in lowland peat. The resulting water-soluble concentrate is dark brown, has a pH level of 8.5-10.5 and a product density of 1.1-1.3 g/cm ³ .

Potassium hydroxide, which is part of the organomineral fertilizer, does not exceed 1.5% of the total composition of the concentrate, which allows the concentrate to be applied simultaneously in tank mixtures with pesticides and disinfectants and has low consumption rates per 1 ha.

In the process of humification of plant residues (mosses, reed grasses, horsetails, reeds, etc.), the predominant part of nitrogen passes into the composition of nitrogen-containing humic acids; -6%. Nitrogen is the main element that ensures the active growth and development of plants at the beginning of the growing season.

The content of phosphorus in the organomineral fertilizer is presented in a mineral-soluble form and is 0.1-0.2%. Phosphorus has a form available to plants, since this process is greatly influenced by the use of alkali (KOH). Even such a small percentage of phosphorus content in the composition of organomineral fertilizer affects the energy processes in the cells of cereal plants, which helps to increase the yield and immunity of plants to various types of diseases.

The mass of potassium in the organomineral fertilizer is 1.0%, which positively characterizes the composition, since the gross content of potassium in peat on average ranges from 0.16 to 1.16%.

In the life support of cereal crops, potassium is considered the most important mineral element and, when interacting with nitrogen and phosphorus, it affects the active growth and development of the green parts of the plant and, as a result, provides productively high yields. Potassium ceases to be assimilated by cereal crops by the beginning of milky ripeness, and further affects the quality of grain and gluten.

Zinc and copper in the organomineral fertilizer are presented in a chelated form easily accessible to plants and make up 2.0% and 3.2%. They are easily absorbed by plants because the inorganic substances contained in their composition are found in organic molecules. Humic acid acts as a chelating agent, enveloping the walls of molecules, forming a kind of “microcapsules”. This kind of “microcapsules” with trace elements is perceived by cereal plants as their own, therefore they are more efficiently absorbed by the root system of plants. Due to this, the digestibility of organomineral fertilizer enriched with zinc chelate and copper chelate is more active.

The presence of sulfur in organomineral fertilizer is 3%, which has a significant impact on the formation of chlorophyll in young plants, as well as active protein production and oil synthesis during the vegetation of plants. Product quality, protein, gluten increase and the amino acid process improves.

Organo-mineral fertilizer for grain crops, based on lowland peat, with the addition of nitrogen, phosphorus, potassium, sulfur and enriched with chelated forms of zinc and copper metals, allows assimilation of soil microelements up to 90%, which reduces the chemical load on the soil several times.

The claimed composition of the organomineral fertilizer is aimed at eliminating the deficiency of zinc and copper in grain crops. The organic and mineral components that make up the fertilizer are in a balanced ratio. Experimentally, the need for cereal crops in the consumption of elements declared in the composition of organomineral fertilizer was determined.

The advantage of the claimed organomineral fertilizer compared to known analogues is: a balanced composition that allows the use of fertilizer in organic farming; the ability to increase the harvest from sown areas and ensure high quality characteristics: grain crops (winter wheat) - yield increase up to 7-12%; increase in gluten content 1-2.6%; reduction of production labor costs by reducing the use of nitrogen and microfertilizers; ensuring the environmental sustainability of agrophytocenoses by reducing the toxicity of heavy metals; the consumption rate in the tank mixture when processing vegetative cereal plants is 0.5 l / 1 ha with a multiplicity of processing 1-2 times.

Method for obtaining fertilizer: crushed sifted lowland peat 22 kg is mixed with tap water 60 kg and alkali (KOH) in the amount of 2.0-2.1 kg. The resulting mixture is placed in a mechanical cavitation generator and the concentrate is affected by the cavitation-gravitational process for an hour at a temperature of 70-80 degrees. Next, the solution is filtered using a centrifuge OGSH 221. After that, mineral additives are added to it (nitrogen - 5.5-6 kg, phosphorus - 0.1-0.2 kg, potassium - 1.0 kg). 2.0 kg of copper chelate and 3.2 kg of zinc chelate, 3 kg of sulfur are added to the resulting mass, and the resulting concentrate is poured into plastic containers with a volume of 10 liters.

The organomineral fertilizer is a dark brown liquid concentrate with a highly alkaline pH level of 8.5-10.5 and a product density of 1.1-1.3 g/cm ³ .

Example 1

Organo-mineral fertilizer for spring barley, wt. %

tap water 60 lowland peat 22 potassium hydroxide 2.0 nitrogen 5.5 phosphorus 0.1 potassium 0.7 zinc chelate 1.5 copper chelate 3.0 sulfur 2.7

To obtain an organomineral fertilizer for spring barley, 22 kg of lowland peat are taken, mixed with 60 kg of tap water and alkali is added - potassium hydroxide 2.0 kg. Within an hour at a temperature of 70-80 degrees and the cavitation-gravitational process, a concentrate is obtained, which is filtered, filtered using an OGSh 221 centrifuge and nitrogen is added to it - 5.5 kg, phosphorus - 0.1 kg, potassium - 0.7 kg, add metal ions - zinc chelate - 1.5 kg and copper chelate - 3.0 kg; sulfur -2.7 kg.

The resulting concentrate is poured into plastic containers with a volume of 10 liters. The organomineral fertilizer has a pH of 8.5-10.5 and a product density of 1.1-1.3 g/cm ³ .

Organo-mineral fertilizer for winter wheat is prepared according to example 1.

Example 2

Organo-mineral fertilizer for winter wheat, wt. %

tap water 60 lowland peat 22 potassium hydroxide 2.1 nitrogen 6 phosphorus 0.2 potassium 1.0 zinc chelate 2.0 copper chelate 3.2 sulfur 3.0

The obtained water-soluble concentrate of organomineral fertilizer in two examples has a liquid structure, dark brown color, pH level 8.5-10.5 and product density is 1.1-1.3 g/cm ³ .

The claimed organomineral fertilizer is recommended for cereals, applicable in organic farming and is aimed at eliminating the deficiency of zinc and copper in crops.

Claims (2)

Organo-mineral fertilizer based on lowland peat, containing peat, mineral additives in the form of nitrogen, phosphorus and potassium, alkali - potassium hydroxide is used as a deoxidizer, characterized in that lowland peat is used as peat with cleaning from large plant residues, which is mixed with tap water water and then under the influence of potassium hydroxide in the ratio of potassium hydroxide and peat 1: 10.5-11 and the cavitation-gravity process for an hour at a temperature of 70-80 degrees, a concentrate is obtained, which is filtered using a centrifuge, nitrogen, phosphorus are added to the finished solution , potassium and metal ions - zinc chelate and copper chelate, and sulfur in the following ratio of components, kg: tap water 60 lowland peat 22 potassium hydroxide 2.0-2.1 nitrogen 5.5-6 phosphorus 0.1-0.2 potassium 1.0 zinc chelate 3.2 copper chelate 2.0 sulfur 3.0