SU1428748A1 - Method of producing complex granulated mineral fertilizer of prolonged effect - Google Patents

Abstract

This invention relates to the production of complex mineral fertilizers of a specific effect. The aim of the invention is to increase the yield of predominantly cereal plants by increasing the period of dissolution of the fertilizer and the consistently controlled release of nutrients and other substances. In a complex of long-acting kineralm fertilizers, which contains a granule of agrochemical substances, CONNECTED with a polymer, and a shell covering a granule, the granule is bilayer, the layers are held together by cation-active polyurethanesmicarbazide. Agrochemicals include nutrients, basement 2,4-D-butyl ether, hexachlorocyclic; Helexane, chlorocholin chloride and membrane active substance. The first layer is a core, which contains two parts of nutrients from the total amount of nutrients in the granule, a core: surrounded by a shell of cationic polyurethane and carbide, which is covered with a second layer containing a mixture of basezol, 2,4-D-butyl ether , hexachlorocyclohexane, chlorocholine chloride and one part of the nutrients of the total nutrients in the granule. The shell covering the bilayer granule is made of cationic polyurethanesicarbazide also bilayer, the inner layer of which contains a membrane-active substance, while the ratio of polymer to the weight of agrochemical substances is 8 - 10 Mac.Z, including 20 wt.% Of this amount. distributed as a binder granule, and the remaining 80% by weight was used to form shells. The number of ionic centers in the catalytic polyurethane emulsion is 0.8–1.1 meq / g of polymer. A complex mineral fertilizer of prolonged action, contains nitroammofoska, urea, calcium carbonate, magnesium oxide, elemental sulfur, ammonium molybdate, manganese chlorate as nutrients and dimethylsulfoxide as a membrane active substance. At the same time, the actual amount of the onset of agrochemical substances is taken in the following ratio, in May. phosphorus 9.85-12.04; potassium 9.85-12.04; calcium 43.86-54.08; magnesium 3.69-4.51; elemental sulfur is 4.28-5.24; molybdenum 0,013-0,016; manganese 0,19-0,24; basezol 0.1-0.12; 2,4-D-butyl ether 0.12-0.15; hexacylcyclohexane 0.014-0.017; hpo-p-choline chloride 0.82-1.0; dimethylsulfoxide 2.45-2.99. 4 tab. "(L 4 U oo 4 00

Description

This invention relates to the production of long-acting complex mineral fertilizers.

The purpose of the invention is to increase the yield of predominantly cereal plants by increasing the period of dissolution of the fertilizer and consistently controlled release of nutrients and other substances.

Fertilizer is obtained as follows.

Powdered ground nutrients (nitroammofoska, urea, calcium carbonate, magnesium oxide, elemental sulfur, ammonium molybdate, manganese chlorate) are thoroughly mixed. The resulting mixture of nutrients is divided into three equal parts. Chlorcholine chloride, foundationol, 2,4-D-butyl ether, hexachlorocyclohexane are added to one third of the mixture and mixed thoroughly.

The mixture of nutrients is poured into the granulator and, with constant rotation at a speed of 100-120 rpm, is added to the mixture with a spray dispenser in small portions of 5-10 ml dispersed in water, cationic in urethanesumbarbazide containing 10% of dry ve - the company. Dispersion of cationic polyurethane-semicarbazide in water to such a dry matter content helps to prevent degradation of the polymer when it interacts with a mixture of nutrients and to better form the fertilizer granule, as well as pellet shells.

The first layers formed as a core are classified as granules, dried in a thermostat for 15–8 hours, or at room temperature for 10–12 hours. A core of 2-3 mm in diameter is used to further form the fertilizer granules.

The dry cores are poured into the granulator and, with constant rotation at the speed indicated above, are sprayed from the sprayer in 10 ml portions dispersed in water with cationic polyurethanesicarbazide. A solution of cationic polyurethane-semicarbaznd with a dry matter content of 10% first, then 20% is used. Fertilizer kernels with a layer of polymer applied to the surface are dried in a stream of air or in a thermostat at 40 s for 5-6 hours. Forming

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The shell of the core is carried out in several stages, repeating the procedure of applying cationic polyurethane-semicarbazide and the operation of drying 2-3 times. Cationic polyurethane-semicarbazide is consumed at one time by approximately 20-25 ml (10%) 23-28 ml (20%),

The resulting nutritive nuclei, enclosed in a polymer shell, are poured into the granulator and, at a constant rotation with the speed indicated above, form the second layer of the granule. For this purpose, the cationic polyurethane-semicarbazide dispersed in water and a mixture of nutrients with other agrochemical substances, 5-7 g each, are alternately added to the granulator. The process of formation is controlled, taking into account the degree of flowability of the granules in the granulator, and is adjusted by the sequence of addition of the dry substances of the mixture and the cationic polyurethane semicarbazide dispersed in water. Two-layer granules with a diameter of 3-4 mm are obtained, which are dried under the described conditions.

Dry granules are poured into a granulator and, with constant rotation, with a specified speed, they spray 25 ml of a dispersion of cationic polyurethanesicarbazide dispersed in water (10% solution) into a granulator; membrane active substances (dimethyl sulfoxide). After forming the membrane layer containing the membrane active substance, the next second layer of the membrane is applied on this inner layer with a spray gun and the granules are dried. The secondary formation of the second layer of the shell of a two-layer fertilizer granule is carried out in several stages, repeating two or three times the application of cationic. active polyurethane semicarbazide and a drying operation.

The obtained compound mineral fertilizer of long-term action is dried in a thermostat at 40 ° C for 5-8 hours or at room temperature for 10-12 hours.

An increase in the period of fertilizer dissolution depends on the properties of the polymer capsule shells. An important characteristic of polymer shells is their permeability with respect to both the components of the external environment and the molecules of the substances that make up the granule. The permeability of polymers varies over a wide range, depending on the chemical nature and their structure, which must be taken into account when choosing a polymer to obtain a shell with a given permeability. To regulate the rate of release of the contents of the capsule, the dimensions of the resulting capsules are important, which in turn can be adjusted by the ratio of the encapsulated and encapsulating components. .

Under laboratory conditions, a series of polymers was studied and dp was selected to form both the granules of this fertilizer and the shell of its cation-active polyurethanesicarbazides (CPUS) with various amounts of ionic centers.

The study of the prolonging properties of the beats of the beats was carried out under laboratory conditions. With this goal, the duration of preserving the integrity of the encapsulated granules placed in water and wet sand, as well as the dynamics of the release of nitrogen from the most soluble component of the fertilizer from the encapsulated granules into water was determined.

The composition of the polymers used in the experiment, the amount by weight of the fertilizer, and the results of the research are presented in Table 1.

As can be seen from the data presented by% Table 1, the use of KPUS of various chemical composition in the amount of 8-10 wt.% Of the mass of agrochemical substances, allows to obtain a complex mineral fertilizer of long-term action, the shell of which maintains integrity in water for 25-30 days. in the sand at a humidity of 70% 50-60 days. The introduction of this polymer in the amount of 6 wt.% From the mass of agrochemicals shortens the period of preserving the integrity of the granule for 20 days, and in an amount of more than 10 wt.%, It leads to an extension of the period of release of nutrients. In both cases, the physiologically justified terms of entry into the soil are violated, which is necessary for the development of agrochemicals in plants.

An important characteristic of the CCP, which actively influences the quality of the shells of polymers of this type, using 1x

to form a long acting fertilizer, i.e., their solubility in water, is the content of ionic centers in the polymer. It is theoretically justified that increasing their

a content of 1.1 meq / g of polymer results in unstable shells. At the same time, the experimental data presented in Table 1 indicate that a decrease in the content

In the KPUS, the ionic centers (less than 0.8 Msq / g) of the polymer do not allow to obtain a fertilizer with prescribed periods of preservation of the integrity of the membranes and a given nitrogen release rate. Op

The best option for the formation of a durable fertilizer is the use of a CCP in which. the amount of ion centrifuge is 0.8-1.1 mSq / g polymer.

The composition of the granular compound long-acting mineral fertilizer is given in Tables 2 and 3.

The use of fertilizer allows the granule to remain intact in water for 30 days (example 1) or 25 days (examples 2 and 3). The release of nitrogen from fertilizer in the amount of 25-35% occurs in 7 days, and in the amount of 40-50% - in 14 days (Tables 1, 2 and 7).

The study of the effect of long-term complex fertilizer on the vegetation cycle of the development of cereal plants was carried out under conditions of physiologically accurate vegetation experiments. Vegetation experiments in 10-fold replications were carried out in Wagner vessels with a capacity of 8 kg of soil. Meadow-chernozem podzolized soil was used for vessel filling. Fertilizer was applied to the soil of the control vessels in the form of a mixture of 4.7 kg of nitroammophoska and 0.8 g of urea, which corresponds to the amount of active principle N g, Ppg g, KQO g. Complex mineral was added to the soil of the experimental vessels.

long-term fertilizer in the amount of 17.6 g, which also corresponds to the amount of the active principle Ni.i g, R a g, K g. The composition of the fertilizer used in the experiment ..

corresponded to the composition given in examples 1-3.

Plants of varieties of cereal plants (wheat and barley) were grown to full maturity without further dressings. The soil moisture in the experiment was kept constant throughout the growing season at the level of 70% of the total capacity. In the process of vegetation, the plants traced the dynamics of the content of the main elements in the leaves (indicator organs) and stalks. At the end of the growing season, plants studied their morphological structure, structural elements of the plant, its quality, and the accumulation of the main elements in the straw and grain of plants. Was tall on the moat Zhuravka wheat.

The results of the effect of a long-term complex mineral treatment on the structure of the crop and its quality are presented in Table 4.

The data obtained indicate that the proposed mineral fertilizer allows, compared with the known, to increase the period of release of nutrients from the fertilizer capsule. The examples given in the description of the known method show that the most soluble components of the fertilizer (nitrogen) were released in an amount of 40 wt.% For 6 days. According to the proposed method, the same components are released in an amount of 30-35 wt.% In 7 days, 40 - 30 wt.% In 14 days and 60-80 wt.% In 30 days.

By increasing the period of fertilizer dissolution and consistently controlled release of nutrients and other substances in the vegetation experiments, yield was increased by 23% compared with the control, while grain quality was improved, raw gluten was increased by 52%, protein content was 30% . The grain crushing with such a protein and gluten content allows wheat with such indicators to be classified as a strong wheat group. F. m. the invention

The method of obtaining complex granular mineral fertilizer

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long-lasting, comprising applying to the core containing polymer-bound nutrients, a polymer shell, characterized in that, in order to increase the yield of predominantly cereal plants by increasing the period of fertilizer dissolution and sequentially controlled release of nutrients and other substances, contains nitroammofoska, urea, calcium carbonate, magnesium oxide, elemental sulfur, ammonium molybdate, manganese chlorate, as a polyester to form glasses and bonding elements of the core use cationic polyurethane-carbazide with an amount of ion cent. The ditch is 0.8-1.1 meq / g of polymer, after applying the shell on the granule, a fertilizer layer is additionally formed containing the base, 2,4-D-butyl ether, hexachlorocyclohexane, chlorocholin chloride, nutrients, with the ratio of nutrients in the core and an additional 2: 1 layer, which is then coated with a two-layer shell, first with a mixture of cationic

polyurethanesemicarbazide with dimethylsulfoxide, and after - cationic polyurethanesemicarbase, the ratio of polymer to the weight of agrochemical substances is 8-10 wt.%, including 20 wt.% of this amount distributed as a binder granules and with a total ratio active principles in fertilizer, wt.%:

Nitrogen

Phosphorus

Potassium

Magnesium

Calcium

Sulfur is elemental

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14.54-17.78 9.85-12.04 9.85-12.04 3.69-4.51

4.86-54.08

Molybdenum Fundazol 2,4-D-Butyl ether Hexachlorocyclohexane

Chlorcholine chloride

Dimethyl sulfoxide

4.28-5.24

0,013-0,016

0.10-0.12

0.12-0.15 0.014-0.017

0.82-1.0, 2.45-2.99

Table 1

Deadlines for destruction are 3 (H4g guaiup from a taken quantity.

Nitroammofosk

Kalpny Oxide magshm Sera pmp tarma Nolibdat and in Omi Chlorate Marga pa, Fundazo

2,4-D-L-ether

Ge xa; (porc synergy "x

Chlorhopi chloride

Dimatilsulfox

1Table.1 10

P.1

2Table one

p.210

48,380 38.6 76155209,797

47,680 38.1 76151.5 209.595

3 Table 1

p. 7 8

36.980 29.5 76109.5 207.474

Table3

t a b a ii c a

Claims (1)

F o'r mule a., I was also invented / Method for producing complex granular mineral fertilizer 18748 6 long-term action, including applying to the core containing polymer-bound nutritional elements, a polymer shell, characterized in that, in order to increase the yield of predominantly cereal plants by increasing the dissolution period of fertilizer and sequentially controlled release of nutrients and other substances, The core contains nitroammophos, urea, calcium carbonate, magnesium oxide, elemental sulfur, ammonium molybdate, manganese chlorate, as a polymer for the shell and binder core power elements use cationic polyurethanesemi20 carbazide with the amount of ionic cent. a ditch of 0.8-1.1 meq / g of polymer, after applying the shell to the granule, a fertilizer layer is additionally formed containing baseazole, 2,4-D-butyl ether, hexachlorocycpohexane, chlorocholine chloride, nutrients, with a ratio of nutrients in the core and additional layer 2: 1, which is then coated with a two-layer shell 30 first with kationoak- poliuretansemikarbazida tive _of dimethyl sulfoxide, and after - cationic poliuretansemikarbazidom, wherein the polymer weight ratio of 25 to agrochemicals is 8-10 ma .%, Including 20 wt.% Of which is distributed as a binder and granules with a total proportion of active principles DP in the fertilizer, wt.%: Nitrogen 14.54-17.78 Phosphorus 9.85-12.04 Potassium 9.85-12.04 Magnesium 3.69-4.51 45 Calcium 4 - ^, 86-54.08 Sulfur Elementary naya 4.28-5.24 Molybdenum 0.013-0.016 Fundazole 0.10-0.12 ₅₀ 2,4-D-Bu- tyl ether 0.12-0.15 G exachlorocyclo hexane 0.014-0.017 Chlorocholinchlo- 55 ^ria 0.82-1.0 Dimethylsulfok led .2.45-2.99 Ί