WO2018226197A1 - Granulated mineral trace element fertiliser and granulated concentrate of trace elements - Google Patents

Abstract

A granulated mineral trace element fertiliser and a granulated concentrate of trace elements contain a filler in the form of non-pareil granules (sucrose), onto which is applied a mixture of trace elements such as zinc sulphate, thiamine, magnesium sulphate, L-serine, lactose and manganese sulphate. A granulated mineral trace element fertiliser contains a filler in the form of non-pareil granules (sucrose), onto which is applied a mixture of trace elements such as zinc sulphate, magnesium sulphate, manganese sulphate, copper sulphate, iron sulphate and cobalt sulphate. 100 g of trace element fertiliser can contain any combination of mass fractions of the organic and mineral components, within the given ranges.

Description

 MINERAL MICROFERTILIZER (OPTIONS)

 And micronutrient concentrates granular

The invention relates to the agricultural and chemical industries, namely to the manufacture of mineral fertilizers intended for root and foliar top dressing of agricultural, flower-decorative and other crops, when grown in open and protected ground. In addition, this invention discloses micronutrient fertilizers for root and foliar top dressing of agricultural, floral, decorative and other crops, when grown in open and protected ground.

Known granular organo-mineral microfertilizer [Ukrainian patent Ns1 15461, IPC С05С 13/00, C05G 5/00, C05D 5/00, publ. 04/10/2017, Bull. N ^Q 7] to increase crop yields, including filler in the form of granules of sugar grains (sucrose), which is coated with a mixture of organic and mineral components such as zinc sulfate, silicon oxide, calcium phosphate, thiamine, magnesium sulfate, L-serine and lactose. This solution is the closest to the present invention, and is taken as the closest analogue.

 The disadvantages of the closest analogue include insufficient saturation of plants with the above mineral elements and, consequently, insufficient increase in yield, since a solution of granules and water is prepared for processing plants, and silicon oxide and calcium phosphate are not soluble in water. In addition, it also complicates the application of a mixture of organic and mineral components on granules of sugar grains.

The basis of the invention is the task of creating mineral micronutrient fertilizers with the necessary complex of macro- and microelements, which optimally ensures the development of crops, their growth, resistance to adverse conditions and productivity. In the first embodiment of the present invention, the problem is solved in that in a mineral granular micronutrient fertilizer comprising a filler in the form of granules of sugar grains (sucrose), on which a mixture of organic and mineral components, such as zinc sulfate, thiamine, magnesium sulfate, L-serine, lactose, in accordance with the present invention, it is new that the mixture of organic and mineral components additionally includes manganese sulfate, in the following ratio of components in micronutrient , May. g / 100 g: zinc sulfate 0.005-1, 5

 magnesium sulfate 0.010-2.0

 manganese sulfate 0.005-2.5

 thiamine 0.01 -1, 0

 L-serine 0.03-3.0

 lactose 0.2-20.0

 sugar grains (sucrose) 70.0-97.0,

 at the same time, an arbitrary combination of mass fractions of organic and mineral components within specified ranges is allowed in 100 g of microfertilizer.

 Also new is that mineral granular microfertilizer additionally includes food coloring.

 Thus, the mineral microfertilizer, which is claimed, thanks to a balanced selection of macro- and microelements, can significantly increase productivity, growth, resistance to adverse conditions of crops, increase the quantitative and qualitative indicators of flower and ornamental crops, agricultural products and soil fertility. Manganese sulfate introduced into micronutrients plays an important role in the reactions of photosynthesis, respiration, carbohydrate and protein metabolism.

In the second embodiment of the present invention, the problem is solved in that in a microelement concentrate granular, comprising a filler in the form of sugar granules grains (sucrose), on which a mixture of organic and mineral components, such as zinc sulfate, thiamine, magnesium sulfate, L-serine, lactose, is applied, in accordance with the present invention, it is new that the mixture of organic and mineral components additionally includes manganese sulfate, in the following ratio of components in concentrate, May. g / 100 g:

 zinc sulfate 0.05-1, 5

 magnesium sulphate 0, 1 -2.0

 manganese sulfate 0.005-2.5

 thiamine 0.1 -1, 0

 L-serine 0.3-3.0

 lactose 2.0-20.0

 sugar grains (sucrose) 70.0-97.0,

 at the same time, in 100 g of concentrate an arbitrary combination of mass fractions of organic and mineral components within the specified ranges is allowed.

 Also new is that the granular microelement concentrate additionally includes food coloring.

 Thus, the microelement concentrate, which is claimed due to the balanced selection of macro- and microelements, can significantly increase productivity, growth, resistance to adverse conditions of crops, increase the quantitative and qualitative indicators of flower and ornamental crops, agricultural products and soil fertility. Manganese sulfate introduced into the concentrate plays an important role in the reactions of photosynthesis, respiration, carbohydrate and protein metabolism.

In the third embodiment of the present invention, the problem is solved in that in the mineral granular microfertilizer comprising a filler in the form of granules of sugar grains (sucrose), on which a mixture of trace elements, such as zinc sulfate, magnesium sulfate, is applied, in accordance with the present invention, the trace element mixture further comprises manganese sulfate, copper sulfate, iron sulfate and cobalt sulfate in the following ratio of components in micronutrient fertilizers, May. g / 100 g:

 zinc sulphate 0.00027-0.0015

 magnesium sulfate 0.00019-0.002

 manganese sulfate 0.00081 -0.0025

 copper sulfate 0.00074-0.002

 ferrous sulfate 0.00014-0.0015

 cobalt sulfate 0.00005-0.0005

 sugar grains (sucrose) 99,990-99,9978,

 at the same time, in 100 g of concentrate an arbitrary combination of mass fractions of organic and mineral components within the specified ranges is allowed.

 Thus, the mineral micronutrient fertilizer, which is claimed, due to the balanced selection of microelements, will significantly increase productivity, growth, resistance to diseases and adverse conditions of crops, increase the quantitative and qualitative indicators of flower and ornamental crops, agricultural products and soil fertility. In addition, by reducing the chemical load on the soil, increasing the activity of aerobic and anaerobic bacteria, soil sanitation and the accumulation of humus, soil fertility is restored. Manganese sulfate introduced into microfertilizer plays an important role in the reactions of photosynthesis, respiration, carbohydrate and protein metabolism. Copper sulfate also regulates respiration, photosynthesis, carbohydrate and protein metabolism and increases the resistance of plants to negative environmental factors and diseases. Cobalt sulfate takes an active part in redox reactions, creates a positive effect on respiration and energy metabolism. Iron sulphate regulates carbohydrate and protein metabolism and increases disease resistance.

The method of application. The mineral granular microfertilizer according to the first embodiment of the present invention is made as follows. D a mixture of mineral components (salts) of ZnS0 ₄ , MgS0 ₄ , MnS0 ₄ , C12H17N4OS (thiamine), H0 ₂ CCH (NH ₂ ) CH ₂ OH (L-serine) in the ratios of the indicated ranges for the first embodiment of the invention is taken.

Sugar granules are calibrated on a calibrator, for example, model FZ-550, and granules with a diameter of 3-5 mm are selected. Prepared sugar granules are poured into a pan (Model BY-600) and, after it is turned on, an aqueous solution of ethyl alcohol is added. The prepared mixture of mineral components (salts) of ZnSO-t, MgS0 ₄ , MnS0 ₄ , Ci ₂ Hi ₇ N ₄ OS (thiamine), H02CCH (NH ₂ ) CH2OH (L-serine) and C12H22O11 (lactose) is dissolved in an aqueous solution of ethyl alcohol . The resulting solution is injected into a pan, which rotates, thus applying it to granules of sugar grains. When the solution is applied, the finished granules are dried to a mass fraction of moisture of 1.5%. After that, mineral micronutrient is Packed in polypropylene bags and marking.

 According to a further optional embodiment, food coloring may be added to the mixture of mineral components.

 To prepare the working solution from microfertilizer, drinking water is used according to GOST (U) 7525 with a temperature of 18 to 20 ° C, by diluting microfertilizer - one granule per 0.2-10 liters of water. To prepare the working solution, use containers of appropriate capacity. The container must be thoroughly washed before use. In a container with drinking water, throw one granule and shake until the granules are completely dissolved. After the pellet has dissolved, the container with the solution is shaken vigorously for another three minutes. After that, the solution is ready to use. The shelf life of the working solution is one day. Store the solution in the dark and in closed containers.

The micronutrient concentrate granular in the second embodiment of the present invention is made as follows way. A mixture of mineral components (salts) of ZnS0 ₄ , MgS0 ₄ , MnS0 ₄ , C12H17N4OS (thiamine), H0 ₂ CCH (NH2) CH ₂ OH (L-serine) is prepared in the ratios of the indicated ranges for the second embodiment of the invention.

Sugar granules are calibrated on a calibrator, for example, model FZ-550, and granules with a diameter of 3-5 mm are selected. Prepared sugar granules are poured into a pan (Model BY-600) and, after it is turned on, an aqueous solution of ethyl alcohol is added. The finished mixture of mineral components (salts) ZnSC ^, MgSC> 4, MnS04, C12H17N4OS (thiamine), H0 ₂ CCH (NH ₂ ) CH ₂ OH (L-serine) and Ci ₂ H ₂₂ 0n (lactose) is dissolved in an aqueous solution of ethyl alcohol. The resulting solution is injected into a pan, which rotates, thus applying it to granules of sugar grains. When the solution is applied, the finished granules are dried to a mass fraction of moisture of 1.5%. After that, mineral micronutrient is Packed in polypropylene bags and marking.

 According to a further optional embodiment, food coloring may be added to the mixture of mineral components.

 For the preparation of micronutrient fertilizers, drinking water is used in accordance with GOST (U) 7525 with a temperature of 18 to 20 ° C.

Granular microelement concentrate is used to produce a wide range of micronutrient fertilizers by diluting the concentrate - one granule per 1-10 l of water. To prepare the working solution of the required concentration, use containers of appropriate capacity. The container must be thoroughly washed before use. Drinking water with a temperature of 18 to 20 ° C is poured into a container, one granule is thrown and shaken until the granules are completely dissolved. After the pellet has dissolved, the container with the solution is shaken vigorously for another three minutes. After that, the solution is ready to use. The shelf life of the working solution is one day. Store the solution in the dark and in closed containers. For mineral micronutrient fertilizer and microelement concentrate, a working solution (mineral micronutrient fertilizer) is used to treat plant seeds before sowing (semi-moist dressing or soaking of seed) and during the growing season (spraying plants), stimulating the functional activity of endophyte fungi located in the root system of plants that in turn, provide it with the elements necessary for life, in order to increase the yield and plant resistance to adverse conditions , diseases, pests.

The granular mineral microfertilizer according to the third embodiment of the present invention is made as follows. A mixture of mineral components (salts) of ZnS0 ₄ , MgS04, MnS04, FeS04, CuS0 ₄ , COSO4 is prepared in the ratios of the indicated ranges for the third embodiment of the invention. The finished mixture of mineral components (salts) is dissolved in an aqueous solution of ethyl alcohol (70%).

 Sugar granules are calibrated on a calibrator, for example, model FZ-550, and granules with a diameter of 3-5 mm are selected. The prepared granules of sugar grains are poured into a coating pan (Model BY-600) and rotated for 5-10 minutes. Put a solution of a mixture of mineral components (salts) on granules of sugar grains as follows. A solution from a mixture of mineral components (salts) is poured into a pan, rotating with granules of sugar grains. The pan is rotated for 15 minutes, stopped for 15-20 minutes and turned on again for another 5 minutes. When the solution is applied, the finished granules are dried to a mass fraction of moisture of 1.5%. After that, mineral microfertilizers are packed in polypropylene bags or plastic jars and marked.

To prepare the working solution from microfertilizer, drinking water is used in accordance with GOST (U) 7525 with a temperature of 18 to 20 ° C, by diluting microfertilizer - one granule per 1-10 l of water. For preparation of the working solution use containers of appropriate capacity. The container must be thoroughly washed before use. The required amount of granules is thrown into a container with drinking water and shaken until the granules are completely dissolved. After the granules dissolve, the container with the solution is shaken vigorously for another three minutes. After that, the solution is ready to use. The shelf life of the working solution is one day. Store the solution in the dark and in closed containers.

 The working solution (mineral microfertilizer) is used to treat plant seeds before sowing (semi-moist dressing or soaking of seed) and during the growing season (spraying plants), stimulating the functional activity of endophyte fungi located in the root system of plants, which in turn provide it with the necessary for vital functions by elements, in order to increase the yield and plant resistance to adverse conditions, diseases, pests.

 Field studies

 According to research work in the Kherson region — rice and the Zhytomyr region — potatoes, the use of technical solutions for the first and second embodiments of the present invention increased yield. Rice harvest increased to 30%, and potato - up to 36%.

Laboratory studies showed that the use of microfertilizers according to the third embodiment of the present invention ensured optimal growth and development of plant crops, their resistance to adverse conditions and diseases, which, respectively, led to a 40% increase in yield. In addition, the use of microfertilizers according to the third embodiment of the present invention contributes to the restoration of the soil, that is, the restoration of its fertility. This is due to a decrease in the chemical load, an increase in the activity of aerobic and anaerobic bacteria, soil rehabilitation and humus accumulation by 0.46% per year (according to field studies).

 While specific embodiments of the present invention have been illustrated and described, it will be apparent to those skilled in the art that various other changes and modifications can be made without departing from the spirit and scope of the present invention. Therefore, the appended claims are intended to cover all such changes and modifications that fall within the scope of the present invention.

Claims

CLAIM

1. Mineral granular microfertilizer comprising a filler in the form of granules of sugar grains (sucrose), on which a mixture of organic and mineral components, such as zinc sulfate, thiamine, magnesium sulfate, L-serine, lactose, characterized in that the mixture of organic and mineral of components additionally includes manganese sulfate, in the following ratio of components in microfertilizer, May. g / 100 g:

 zinc sulfate 0.005-1, 5

 magnesium sulfate 0.010-2.0

 manganese sulfate 0.005-2.5

 thiamine 0.01 -1, 0

 L-serine 0.03-3.0

 lactose 0.2-20.0

 sugar grains (sucrose) 70.0-97.0,

 at the same time, an arbitrary combination of mass fractions of organic and mineral components within specified ranges is allowed in 100 g of microfertilizer.

2. The microelement concentrate is granular, including a filler in the form of granules of sugar grains (sucrose), on which a mixture of organic and mineral components, such as zinc sulfate, thiamine, magnesium sulfate, L-serine, lactose, is applied, characterized in that the mixture is organic and mineral of the components additionally includes manganese sulfate, in the following ratio of components in concentrate, May. g / 100 g:

 zinc sulfate 0.05-1, 5

 magnesium sulfate 0.1 -2.0

 manganese sulfate 0.005-2.5

 thiamine 0.1 -1, 0

L-serine 0.3-3.0 lactose 2.0-20.0

 sugar grains (sucrose) 70.0-97.0,

 at the same time, in 100 g of concentrate an arbitrary combination of mass fractions of organic and mineral components within the specified ranges is allowed.

3. Mineral microfertilizer according to claim 1 or a concentrate according to claim 2, characterized in that it further includes a food coloring.

4. Mineral granular microfertilizer, comprising a filler in the form of granules of sugar grains (sucrose), on which a mixture of trace elements, such as zinc sulfate, magnesium sulfate, is applied, characterized in that the trace mineral mixture additionally includes manganese sulfate, copper sulfate, ferrous sulfate and cobalt sulfate , in the following ratio of components in micronutrient fertilizers, May. g / 100 g:

 zinc sulphate 0.00027-0.0015

 magnesium sulfate 0.00019-0.002

 manganese sulfate 0.00081 -0.0025

 copper sulfate 0.00074-0.002

 ferrous sulfate 0.00014-0.0015

 cobalt sulfate 0.00005-0.0005

 sugar grains (sucrose) 99,990-99,9978,

 at the same time, in 100 g of concentrate an arbitrary combination of mass fractions of organic and mineral components within the specified ranges is allowed.