RU2546193C2 - Method of producing compound microfertiliser - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to agriculture. A method of producing compound microfertiliser includes adding an acidic component - citric acid - to water, adding potassium hydroxide and consecutively salts of trace elements - manganese, zinc, cobalt, copper and boric acid - to the obtained solution, wherein the solution is heated using heat released during reaction of the acidic component with potassium hydroxide, and succinic acid is further added as an acidic component, salts of trace elements are added in the form of sulphates or chlorides or nitrates and lithium chloride is further added.

EFFECT: invention enables to obtain compound microfertiliser containing fewer components and having high biological activity.

1 tbl, 1 ex

Description

The invention relates to agriculture and can be used in the production of complex micronutrient fertilizers used to increase yield and grain quality of winter wheat, increase the content of gluten, protein and reduce the accumulation of heavy metals in grain.

A known method of obtaining complex micronutrient fertilizers (US Pat. RF 225595 C1. Mitrofanova N.A. Method of microfertilizer production and microfertilizer. Application No. 2004100512/12 of 05.01.2004), including mixing humic acids with potassium hydroxide in an aqueous solution, followed by boiling and keeping in for 50-60 minutes, then introducing at a temperature of 50 ° C in a solution of trace elements: copper sulfate, zinc sulfate, manganese sulfate, cobalt sulfate, ammonium molybdate and Trilon B complexing agent, polyvinyl spin is used as an adhesive t. The resulting microfertilizer contains components in mass fractions%: copper sulfate 0.05, zinc sulfate 0.44, manganese sulfate 0.05, cobalt sulfate 0.02, ammonium molybdate 0.04 and complexing agent Trilon B 1, polyvinyl alcohol 5 adhesive, humic acids 93.0.

The closest analogue to the claimed one is a method of obtaining complex micronutrient fertilizers for root and foliar dressing, including the introduction of an acid component - citric acid - into water, potassium hydroxide and subsequently salts of trace elements - manganese, zinc, cobalt, copper and boric acid (Pat RF 2179162 C1 Permitina TV A method for producing nutrient solutions containing microelements (Microvit. Application 20001105455/12 from 02.28.2001).

The disadvantages of the prototype include the need to heat the solution, followed by maintaining a constant temperature of 75-90 ° C, carrying out synthesis in several stages, constant adjustment of the pH of the solution, the content of the complex microfertilizer of a large number of components in the form of ballast, which increases the cost of the target product, the use of as the acid component of sodium oxyethylene phosphonate, which does not have a proven biological activity.

The technical result of the invention is to develop a simple economical method of obtaining complex micronutrient fertilizers containing fewer components with high biological activity.

To achieve a technical result in the method of obtaining complex micronutrient fertilizers, including the introduction of an acidic component - citric acid - into water, potassium hydroxide and subsequently salts of trace elements — manganese, zinc, cobalt, copper and boric acid — are added to the resulting solution. According to the invention, heat is used to heat the solution , which is released during the reaction of the interaction of the acidic component with potassium hydroxide, succinic acid is additionally introduced as the acidic component, salts of trace elements are added to de sulfates or chlorides, or nitrates, further making lithium chloride.

The novelty of the proposed method for obtaining complex micronutrient fertilizer is that it does not require additional heating of the solution, because the heat released during the reaction of citric and succinic acids with potassium hydroxide is used at the initial stage. Citric and succinic acids participating in the Krebs cycle and possessing biological activity in amounts corresponding to a 1.5-fold excess in relation to trace elements Mn, Cu, Zn, and Co in molar fractions are used as components in the composition of the obtained complex micronutrient fertilizers. The addition of lithium in doses not exceeding 0.2% by weight, allows to improve the absorption of organic acids by plants (Sheujen A.Kh. Biogeochemistry. Maykop: GURIPP "Adygea", 2003. - P. 129). And also the resulting complex micronutrient fertilizer contains fewer components, at the same time it has biological activity in relation to increasing the yield and quality of winter wheat grain during its non-root processing.

An example of a specific implementation of the method of obtaining complex micronutrient

To prepare 1.5 kg of complex micronutrient fertilizers, 247 g of one-water citric acid (h.h.), 139 g of succinic acid (h.h.) are dissolved in 520 ml of water from a water supply system and 263 g of potassium hydroxide (h) are added, after the reaction is completed, in hot salts are added to the solution: 90 g of manganese chloride, four-water (h.h.), 92 g of zinc nitrate, hexahydrate (h.h.), 39 g of copper sulfate, quaternary (h.h.), 19.5 g of cobalt nitrate, hexahydrate (h.h.), 84 g of boric acid (h) and 3.1 g of lithium chloride (h).

The calculation of the mass of salt necessary for the synthesis is carried out according to the formula:

where m _salt is the mass of trace mineral salt, g;

ω _element - mass fraction of the element according to the composition of complex micronutrient fertilizers,%;

M _salt and M _element - the relative molar masses of salt and element, calculated according to table D.I. Mendeleev, g / mol;

m _solution - the mass of the solution composition, g

Tests were carried out to study the biological activity of the obtained complex micronutrient fertilizer during foliar treatment of winter wheat in the phase of tillering of plants in relation to yield and grain quality (table).

Using for foliar processing of winter wheat crops in the tillering phase of the proposed complex microfertilizer with a dose of 1 kg / ha allows to increase the gluten content by 5.3%, protein - by 1.9%, reduce the amount of toxic metals Pb and Cd to the level corresponding to baby food; introduction of a dose of microfertilizer of 2 kg / ha allows to increase grain yield by 29% (table).

A simple method for obtaining complex micronutrient fertilizers containing bioactive components is proposed. The proposed method is characterized by the ability to reduce the cost of complex micronutrient in connection with a decrease in the number of stages and a decrease in energy consumption for heating; a unique composition of elements with confirmed biological activity in relation to yield and grain quality of winter wheat during non-root processing, this makes it possible to use the method in industrial production.

Claims (1)

A method of obtaining complex micronutrient fertilizers, including the introduction of an acidic component - citric acid - into water, potassium hydroxide and subsequently salts of trace elements — manganese, zinc, cobalt, copper and boric acid — are added to the resulting solution, characterized in that the heat released during heating of the solution is used reaction of the interaction of the acidic component with potassium hydroxide, succinic acid is additionally introduced as the acidic component, salts of trace elements in the form of sulfates, or chlorides, or nitrates are added, d additionally injected lithium chloride.