SU1669908A1 - Tabletted microfertilizer for dressing of vegetable crops - Google Patents

Abstract

The invention relates to tablet formulations of micronutrients for fertilizing vegetable crops and allows increasing their yield and improving the solubility of fertilizers. Microfertilizer contains the following components, wt%: boric acid 65.5 - 73.0

mono potassium salt of 1-hydroxyethylidene diphosphonic acid (complexing agent) 13.0 - 16.0

copper sulfate 9.0 - 12.0 (as a filler and foaming agent)

potassium acid carbonic 4.5 - 5.5

ammonium molybdate 0.5 - 1.0. 1 tab.

Description

The invention relates to agriculture, namely to the composition of micro-fertilizers for feeding vegetable crops about

The aim of the invention is to increase the yield of vegetable crops and improve the solubility of the fertilizer.

Tableted microfertilizer for fertilizing vegetable crops contains boric acid, copper sulphate and ammonium molybdate, a filler and a complexing agent, while it contains potassium sour carbonate as a filler, a “sulphate carbonate” as a filler, and a single agent as a complexing agent. α-hydroxyethylidenediphosphonic acid in the following ratio, wt%:

Borna acid65,, 0

Monokalieva salt

1 -oxyl tilidene phosphonic acid 13.0-16.0

Copper sulfate 9.0-12.0

Potassium sour coal sour 4 ,, 5

Ammonium Molybdenum

sour 0j5-1,0

The proposed microfertilizer provides an improvement in the solubility of the tablets, thereby increasing the digestibility of nutrients by the plants and the yield of vegetable crops,

When using the proposed microfertilizer, the dissolution time of the tablets is reduced from 12 hours to 2 to 6 minutes and the yield of vegetable crops increases: cauliflower from 100.0 to 106.0 to 113.94-114.8 centners / ha, radish from 2, 75-2.83 to 3.0-3.2 kg / m2,

Potassium acid is added to the composition of the microfertilizer. This substance is not destroyed.

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It is sewed with prolonged exposure to pressure and during compaction. In addition, potassium carbonate is added as a blowing agent. Upon dissolution, the microfibre tablets begin to release puffs of carbon dioxide C0 "due to the chemical reaction of potassium hydrolysis of acidic carbon dioxide. As a result of this reaction, the tablet begins to flake and dissolve. In addition, the content of potassium ions in potassium sour carbonate ensures the growth and development of plant cultures, that is, they are the most valuable body elements with

Vegetable plants are often susceptible to various diseases: chlorosis, viral lesions, etc. In order to increase the resistance of plants to diseases, to ensure plant resistance to the effects of adverse conditions and to stimulate the normal growth and development of microfertilizers, they introduce monocotassium salt 1 -oxyethylidene - diphosphonic acid. This substance is introduced as a complexing agent, when it dissolves tablets, it interacts with metals that form part of mineral salts. As a result of this interaction, complexes are formed with metals that are easily absorbed by plants.

Example 1 Microfertilizer contains, maso%:

Borna acid73,0

Monokalieva salt

1-hydroxyethylidenediphosphonic acid 13.0

Copper sulfate 9.0

Potassium sour coal

sour4,5

Molybdate

ammonium0.5

The manufacture of micronutrients in the form of tablets is carried out as follows.

The components are sequentially mixed, incubated for 2 hours at a pressure of 710 mm Hg, then press,

The strength of the tablets is 55 kg / cm2; tablet dissolution time 2 minutes; yield: cauliflower 114.8 c / ha, radish 3.2 kg / m2 "

Microfertilizer was tested when growing the following varieties of vegetable

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crops: Movir cauliflower 74, radishes - Heat

Use of micronutrients,

Microfertilizer is intended for feeding vegetable crops in closed or open ground "

One microfertilizer tablet is 0.36 ± 0.4 g and has a diameter of 9.0 + 0.5 mm „

Before use, 3 micronutrient tablets must be dissolved in 10 liters (1 bucket) of water and consumed by 2–3 m „2o

Cauliflower is fed a few days after transplanting, and besides, another 1-2 times during the growing season, Radishes - after the appearance of the first true leaf, the Guarantee storage period of 12 months. The shelf life is not limited

Example 2, Microfertilizer contains, wt% ":

Borna acid69,25

Monokalieva salt

1-hydroxyethyl diphosphonic acid 14.5

Copper sulfate 10.5

Potassium sour carbonate 5, 0

Molybdate

ammonium0.75

The manufacture of microfluid tablets - rhenium is carried out similarly to example 1.

The strength of the tablets is 55 kg / cm2; tablet dissolution time 5 min; yield: cauliflower 114.37 q / ha, radish 3.1 kg / m2 „

Microfertilizer was tested when growing the same varieties of vegetable crops as in example 1 „

The use of microfertilizers is carried out similarly to Example 1.

Example 30 Microfertilizer contains, maso%:

Borna acid65,5

Monokalieva salt

1 -oxyethylidene AND phosphonic acid 16.0

Copper sulfate12.0

Potassium sour carbonate 5, 5

Molybdate

ammonium1.0

The manufacture of microbub - rhenium tablets is carried out similarly to the example of U

The strength of the tablets is 55 kg / cm2; tablet dissolution time 6 minutes;

yield: cauliflower 113.54 c / ha; radish 3.0 kg / m.

Microfertilizer was tested when rotating the same varieties of vegetable crops as in example 1 „

The use of micronutrients is carried out similarly to Example 1

Examples illustrating the extreme values of the parameters, leading to an increase in the time of dissolution of the tablets and a decrease in the yield of ovic cultures

Example 4 about Microfertilizer contains, wt% ":

Borna acid76,75

Monokalieva salt

1-hydroxyethylidene-

phosphate acid11, 5

Copper sulfate7.5

Potassium sour carbonate4, 0

Molybdate

ammonium0.25

The manufacture of microbub rhenium tablets is carried out like an example.

The strength of the tablets is 55 kg / cm2; dissolution time of the tablets is 40 minutes; yield: cauliflower 108.5 c / ha, radish 2.78 kg / m7.

Microfertilizer was tested when rotating the same varieties of vegetable crops as in example 1 „

The use of micronutrients is carried out similarly to example 1,

Example 5. Microfertilizer contains, wt0%:

Boric acid61.75

Monokalieva salt

1-hydroxyethylidene-

phosphonic acid 17.5

Copper sulfide 13.5

Potassium is sour carbon

sour6.0

Molybdate

ammonium1.25

The manufacture of tablets of micronutrient rhenium is carried out like an example.

The strength of the tablets is 55 kg / cm2; tablet dissolution time is 20 minutes; yield: cauliflower 109.7 c / ha, radish 2.71 kg / m2.

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Microfertilizer was tested when growing the same varieties of vegetable crops, as in example 1,

The use of micronutrients is carried out similarly to Example 1

The test results of micronutrients are presented in the table. Here are the comparative data with the prototype

Thus, as a result of using this fertilizer, the dissolution time of microfertilizer tablets is reduced from 12 hours to 15 2-6 minutes and the yield is increased.

Claims (1)

vegetable crops: cauliflower from 100.0-106.0 to 113.94-114.8 c / ha, radish from 2.75-2.83 to 3.0-3.2 kg / m. Distinctive features provide for the creation of highly efficient microfertilizers, which are instant and provide increased yields of vegetable crops, and are aimed at organizing the serial 25 production of microfertilizers necessary for agricultural needs, namely for feeding vegetable crops, Formula of invention Tableted microfibre for fertilizing vegetable crops, containing boric acid, copper sulphate, ammonium Molybdate, filler and complexing agent, characterized in that, in order to increase the yield and improve the solubility of the fertilizer, it contains a volatile potassium carbonate, and also a potassium carbonate that is used to increase the yield and improve the solubility of fertilizer. as a blowing agent, and as a complexing agent - monopotassium salt of 1-hydroxyethylidene diphosphonic acid in the following ratio of components, wt.%: Borna acid Monokaliev's salt 1-hydroxyethylidene diphosphonic acid Sulfuric acid copper Potassium acid carbonic Ammonium Molybdate thirty 35 40 45 50 65; 5-73,0 13.0-16.0 9.0-12.0 4.5-5.5 0.5-1.0 Water was used as a control.