RU2598632C1 - Organomineral fertiliser - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. Organomineral fertiliser includes an organic component of brown coal, or peat, or potassium/sodium humate, mineral component, wherein fertiliser additionally contains a chelating agent, wherein mineral component contains salts of alkali and alkali-earth elements, and additive contains metallurgical slag. All components are taken at definite ratio.

EFFECT: invention makes it possible to restore soil on content of humus and trace elements.

1 cl, 1 tbl, 5 ex

Description

The invention relates to the chemical industry for the production of organic fertilizers and may be applicable in agriculture to increase fertility and improve soil structure.

Known granular fertilizer containing organic substances (brown coal, peat) and mineral components (urea, sodium chloride, ammonium sulfate and calcium phosphate) (Japanese application N 4157705, CL C05F 11/02, publ. N 45-6852 from 09.03. 70).

The disadvantages of the known fertilizer include the low ability to restore the structure of the soil, the need to use deficient concentrated mineral fertilizers in its preparation.

A known composition for improving soil on the basis of brown coal, the content of which in the mixture is 5.0-50.0 mass. %, and fertilizer additives with a content of up to 20.0 mass. %, which are superphosphates, calcium phosphates, bone meal, undegradable phosphorite, urea, ammonium sulfate or nitrate, potassium chloride, potassium sulfate or nitrate, calcium salts, in addition, trace elements Cu, Zn, Mn, Fe, Mo, B (Australian Patent AU N 621944, C05F 11/02, publ. 26.03.92).

The disadvantages of this fertilizer include the inability to restore soil fertility and the content of humus in it.

Known fertilizer containing organic substances (brown coal 35.0-50.0 wt.%, Manure 46.0-62.0 wt.%) And mineral components (phosphate salts 1.7-2.4 wt.%; Potash salt 0.8-1.2 wt.%), as well as the herbicide 0.2-0.4 wt. % (USSR Author's Certificate N 1542944, C05F 11/02, publ. 15.02.90).

The disadvantage of this fertilizer is the low content of trace elements, both in assortment - not more than 14, and in quantity - not more than 0.02 mass. %, not allowing to restore their content in the soil. The insufficient content of basic elements and the absence of chelating compounds in this fertilizer, and especially humic acids, potassium, phosphorus, calcium, magnesium, negatively affects the ability of the fertilizer to restore the humus content in the soil, its fertility and structure.

The closest in content of components and their effect on the soil to the claimed fertilizer is a fertilizer containing (wt.%): 35.0-50.0 organic matter, 15.0-40.0 mineral fertilizers, 15.0-30.0 additives (Patent of Russia N 2096393, CL C05F 11/02, publ. 11/20/1997) - prototype.

The disadvantage of this fertilizer is the formation of an acidic environment when the fertilizer is dissolved, as a result of which there are disturbances in the photosynthesis and metabolism of substances in the plant body, and the balance of humus and trace elements in the soil is disturbed.

The aim of the invention is the creation of organic fertilizers of prolonged action, with the ability to restore the soil by the content of humus and trace elements.

The technical result of the invention is the ability of the fertilizer to restore the soil by the content of humus and trace elements.

The technical result is achieved in that the organomineral fertilizer, including the organic component of brown coal, or peat, or potassium / sodium humate, the mineral component, additionally contains a chelating agent, while the mineral component contains salts of alkaline and alkaline earth elements, and the additive contains metallurgical slag the following composition, mass. %: Me _x O _y - 96.0-99.0, where:

Me is metal

O is oxygen

x and y are the coefficients that determine their ratio;

- trace elements - 1.0-4.0,

in the following ratio of components, mass. %:

- organic component 35.0-50.0 - chelating agent 0.1-10.0 - metallurgical slag 15.0-40.0 - alkaline salts and alkaline earth elements 15.0-40.0

The use of metallurgical slag in these ratios allows you to get fertilizer, compared with the known, with an increased concentration of the most important components and trace elements. In addition, the total number of trace elements - copper, zinc, manganese, titanium, vanadium, beryllium, barium, strontium, germanium, boron, zirconium, nickel, chromium, molybdenum, cerium, lanthanum, etc., is up to 43 items.

The high and balanced content of organic substances (humic acids) and inorganic minerals (calcium, magnesium, nutrient phosphorus and potassium) allows the claimed type of fertilizer to exert multivariate effects on the soil and plants and create favorable conditions for the activity of microorganisms in the processing of plant residues in humus and good nutrition plant roots.

The introduction of a chelating agent has a number of advantages over the soluble salts of trace elements that are used in the prototype. Plants assimilate them much better and more efficiently, because common salts of trace elements in the soil can cross-react and form non-digestible compounds. Chelates do not enter into such reactions, nor are they bound by soil. As a result, if ordinary microelements are absorbed by the plant by 30.0-40.0%, then microelements in the chelate form are 90.0% or more.

The described processes cannot occur when using chemical mineral salts as a mineral component in a well-known organic-mineral fertilizer, since they quickly dissolve in soil moisture and do not participate in further processes of restoration of humus and trace elements in the soil.

The ratio of the starting components in the present invention are selected in order to ensure a balanced content of the main components and trace elements in the fertilizer necessary for the implementation of soil restoration processes based on the content of humus and trace elements.

Ultimately, the continuous use of this fertilizer allows not only to restore the content of humus and trace elements in the soil, but also, for example, to increase the humus content even in podzolic soils by 3.6–9.2% over 2–4 years.

In addition, due to the formation of calcium humate, clumping of the soil and a significant improvement in its structure and physico-mechanical properties occur.

Preparation of the proposed fertilizer is as follows.

Example 1. As components of the composition of organic fertilizers, organic substances are used, brown coal, or peat, or potassium / sodium humate in a composition with the following components: salts and hydroxides of trace elements obtained after acid decomposition of metallurgical slag, mineral component (salts of alkaline and alkaline earth elements), as well as a chelating agent, in calculated ratios.

According to the formulation in the reactor load the solution obtained after the acid decomposition of metallurgical slag in the amount of 15.0 mass. % and stirred for 1.0-1.5 hours with a mineral component of 32.0 mass. % The resulting mixture at room temperature is mixed with organic substances - 50.0 mass. % and a chelating agent - 3.0 mass. %

At the end of the process, an analysis of the obtained product is carried out and served on its packaging.

Comparative characteristics of the known and claimed fertilizers are presented in the table.

Example 2. Fertilizer, including (wt.%): 42.0 is an organic component, 15.0 is a mineral component, 33.0 is a solution obtained after acid decomposition of metallurgical slag, and 10.0 is a chelating agent, obtained according to example 1 using appropriate amounts of raw materials.

Example 3. Fertilizer, including (wt.%): 40.0 is an organic component, 33.0 is a mineral component, 26.0 is a solution obtained after acid decomposition of metallurgical slag, and 1.0 is a chelating agent, obtained according to example 1 using appropriate amounts of raw materials.

Example 4. Fertilizer, including (wt.%): 41.0 is an organic component, 28.0 is a mineral component, 26.0 is a solution obtained after acid decomposition of metallurgical slag, and 5.0 is a chelating agent, obtained according to example 1 using appropriate amounts of raw materials.

Example 5. Fertilizer, including (wt.%): 35.0 is an organic component, 18.0 is a mineral component, 40.0 is a solution obtained after acid decomposition of metallurgical slag, and 7.0 is a chelating agent, obtained according to example 1 using appropriate amounts of raw materials.

The proposed fertilizer is a complex mixture that can be used on various types of soils with intensive land use, without violating their trace element composition.

Claims (1)

Organic fertilizer, including the organic component of brown coal, or peat, or potassium / sodium humate, a mineral component, characterized in that it further comprises a chelating agent, while the mineral component contains salts of alkaline and alkaline earth elements, and the additive contains metallurgical slag in the following the ratio of components, mass. %:
- organic component 35.0-50.0 - chelating agent 0.1-10.0 - metallurgical slag 15.0-40.0 - alkaline salts and alkaline earth elements 15.0-40.0