RU2057104C1 - Organomineral fertilizing mixture - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: organomineral fertilizing mixture has peat and mineral components (nitrogen, phosphorus, potassium, calcium, magnesium, boron, manganese, zinc, copper, molybdenum, cobalt), substance preventing drying (glycerol) at the following ratio of components, wt.-%: nitrogen 0.40-0.51; phosphorus (as P₂O₅) 0.20-0.25; potassium (as K₂O) 0.56-0.60; calcium (as CaO) 0.50-0.80; magnesium (as MgO) 0.15-0.20; boron 0.001-0.002; manganese (as MnO₂) 0.010-0.020; zinc 0.005-0.010; copper 0.001-0.002; molybdenum 0.0001-0.0002; cobalt 0.0001-0.0002; glycerol 3-7; peat (as dry matter) 36.3-37.1, and water the rest. Fertilizing mixture is prepared by addition of components taken at ratio and sequence in order to provide their interaction with huminic, carbohydrate and other peat components leading to formation of homogeneous substance on the basis of its physico-chemical composition. Proposed substance provides the ratio of nutrient components that is similar with natural organic fertilizers (manure, humus). EFFECT: enhanced quality and effectiveness of mixture proposed. 3 tbl

Description

 The invention relates to agriculture, in particular, to fertilizers and can be used for feeding various types of flower, berry, vegetable (including seedlings) decorative crops of potted type and other indoor plants, preparing soil for indoor plants and seedlings and local application during planting cultures.

 Organic and mineral fertilizers are known (a.p. 320471, 589238, 627113, 655694, 682489).

 A disadvantage of the known organic-mineral fertilizers is that they dry out during storage, the organic mass of the fertilizer loses its ability to absorb soil moisture, the digestibility of nutrients by plants in the root zone decreases sharply, and the soil structure deteriorates.

 In known substances and methods, microbiological inoculation of this mixture with bacterial uterine culture of AMB with additives of azotobacterin and protein feed yeast is performed, and the content of nutrients is very different from their content in natural organic fertilizers, which requires adjusting the content of nutrients with other fertilizers when they are introduced.

 The aim of the proposed invention is to create a substance that provides a ratio of nutrients similar to natural organic fertilizers (manure, humus), increasing the degree of use of nutrients, stabilizing the moisture capacity and wettability of the fertilizer mixture.

 This goal is achieved by the fact that to ensure wettability, additives are added that prevent drying, in particular (glycerin, ethylene glycol or diethylene glycol), and mineral components are added in a ratio and sequence to ensure their interaction with humic, carbohydrate and other components of peat. To ensure the interaction of compounds with each other and peat during dissolution, all components of an acidic nature (superphosphate and trace elements, then alkaline (potash), glycerin, and, lastly, urea, are first introduced.

 The amount of water for dissolution is calculated so as to obtain a mass with a moisture content of W 50-65 wt.

 A mixture of peat with mineral components is stirred for 2-3 hours at room temperature until a homogeneous mass in physicochemical composition is obtained.

 The initial mineral components are selected in such a way as to exclude compounds harmful to plants and the environment, in particular chlorine-containing ones, in the composition of the fertilizer.

 In addition, the trace element cobalt, necessary for the development of plants, is introduced.

The resulting organomineral fertilizer mixture is a homogeneous powdery mass of dark brown in the following ratio of ingredients, wt. Nitrogen 0.40-0.51 Phosphorus (in terms of P ₂ O ₅ ) 0.20-0.25 Potassium (in terms of K ₂ O) 0.56-0.60 Calcium (in terms of CaO) 0.50-0.80 Magnesium (in terms of MgO) 0.15-0.20 Boron 0.001-0.002 Manganese (in terms of MnO ₂ ) 0.010-0.020 Zinc 0.005-0.010 Copper 0.001-0.002 Molybdenum 0.0001-0.0002 Cobalt 0.0001-0.0002 Glycerin 3-7 Peat (in terms of dry matter) 36.3-37.1 Water Else
We give a comparative analysis of the proposed composition and the known (USSR author's certificate N 655694, class C 05 F 11/08, 1979) for all components of Tables 1 and 2.

 From the table. 1 it follows that in the proposed composition additionally introduced cobalt as a trace element necessary for the development of plants and glycerin as a substance that prevents drying.

 In addition, microelements are introduced that do not contain chlorine, but are known to contain chlorine, which adversely affects the development of plants.

From table 2 it follows that in the proposed composition, the ratio of the main nutrients N: P ₂ O ₅ : K ₂ O is 1: 0.5: 1, i.e. the content of mobile phosphorus is 2 times lower than the content of nitrogen and mobile potassium, which corresponds to their ratio in natural organic fertilizers (manure, humus).

 In a known composition, the unbalanced content of batteries when they are introduced requires adjustment by other fertilizers.

 We give examples of obtaining 100 g of an organic-mineral mixture with a moisture content of 60 wt.

PRI me R 1. Urea 0.86-1.07 Double superphosphate 0.35-0.45 Potash 0.83-0.88 Calcium oxide 0.50-0.80 Magnesium oxide 0.15- 0.20 Boric acid 0.0057-0.0114 Potassium permanganate 0.018-0.036 Zinc sulfate 0.012-0.024 Copper sulfate 0.0025-0.0050 Ammonium molybdenum acid 0.0002-0.0004 Sulfuric cobalt 0,00026-0,00052 Glycerin 3.0-7.0 Peat (in terms of dry matter) 36.3-37.1 Water 53.0-57.0 with a ratio of microelements respectively wt. Nitrogen 0.40-0.50 Phosphorus (in terms of P ₂ O ₅ ) 0.20-0.25 Potassium (in terms of K ₂ O) 0.56-0.60 Calcium (in terms of account for CaO) 0.50-0.80 Magnesium (in terms of MgO) 0.15-0.20 Boron 0.001-0.002 Manganese (in terms of MnO ₂ ) 0.01-0.02 Zinc 0.005-0 01 Copper 0.001-0.002 Molybdenum 0.0001-0.0002 Cobalt 0.0001-0.0002
PRI me R 2. Ammonium nitrate 1.14-1.43 Phosphate flour 0.43-0.55 Potash 0.83-0.88 Calcium oxide 0.50-0.80 Magnesium oxide 0.15-0 , 20 Boric acid 0.0057-0.0114 Potassium permanganate 0.018-0.036 Zinc sulfate 0.012-0.024 Copper sulfate 0.0025-0.0050 Ammonium molybdenum acid 0.0002-0.0004 Cobalt sulfate 0.00026-0.00052 Peat (in terms of dry substance 36.3-37.1 Glycerin 3.0-7.0 Water 53.0-57.0 with a ratio of ingredients, similar to the example 1.

Depending on what substances are taken to obtain an organomineral mixture, the mass of introduced microelements will vary with a ratio of NP ₂ O ₅ : K ₂ O equal to 1: 0.5: 1.

 PRI me R 3. To obtain 1 t of an organomineral mixture with a moisture content of 60 wt. 464.8 kg of crushed dried peat with a moisture content of 20 wt. 7.0 kg of calcium and magnesium oxide are treated, 51.2 kg of macro-microadditives are added: (3.5 kg of double superphosphate, 0.8 kg of microadditives, 8.3 kg of potash, 8.6 kg of urea, 30 kg of glycerin in the ratio macro-microcomponents according to Table 2) dissolved in 477 liters of water.

 The mixture is continuously stirred at room temperature for 2-3 hours. The resulting product is packaged in plastic or paper bags and used as an organic mineral fertilizer mixture.

 PRI me R 4. 619.4 kg of crushed dried peat with a moisture content of 40 wt. 7.0 kg of calcium and magnesium oxide are treated, 91.2 kg of macro-microadditives are added: (3.5 kg of double superphosphate, 0.8 kg of microadditives, 8.3 kg of potash, 8.6 kg of urea, 70 kg of glycerin in the ratio macro-microcomponents according to Table 2) dissolved in 282.1 liters of water. Further work is carried out analogously to example 3.

 In the table. 3 shows the composition of the organic mineral fertilizer mixture and the results of water losses from this mixture and its water absorption.

 From the table. 3 it follows that the proposed organic-mineral mixture due to the use of glycerol, mineral additives and peat with an optimal combination of components (experiment 3-5) is characterized by reduced water loss and increased water absorption, which prevents the fertilizer mixture from drying out, ensures its wettability, and therefore its efficiency increases. Stabilization of the water absorption of the fertilizer mixture (experiment 3-5) provides the optimal concentration of plant nutrients in the soil solution at the initial moment after application to the soil.

 A small dose of glycerin (experiment 2) in such an organomineral mixture was insufficient to reduce moisture loss and stabilize water absorption and wettability.

 The introduction of more than 7% glycerol as in experiment (6) is not economically feasible, since a further increase in the content of the additive has no effect.

Claims (1)

ORGANOMINERAL FERTILIZING MIXTURE containing peat, mineral components containing nitrogen, phosphorus, potassium, calcium, magnesium, boron, manganese, zinc, copper, molybdenum, and a substance that prevents drying (glycerin), characterized in that the mixture additionally contains cobalt in the following ratio of ingredients, wt.%:
Nitrogen - 0.40 - 0.51
Phosphorus (in terms of P ₂ O ₅ ) - 0.20 - 0.25
Potassium (in terms of K ₂ O) - 0.56 - 0.60
Calcium (in terms of CaO) - 0.5 - 0.8
Magnesium (in terms of MgO) - 0.15 - 0.20
Boron - 0.001 - 0.002
Manganese (in terms of MnO ₂ ) - 0.01 - 0.02
Zinc - 0.005 - 0.010
Copper - 0.001 - 0.002
Molybdenum - 0.0001 - 0.0002
Cobalt - 0.0001 - 0.0002
Drying agent (glycerin) - 3.0 - 7.0
Peat (in terms of dry matter) - 36.3 - 37.1
Water - Else

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