RU2181710C1 - Liquid humic fertilizer and method for its obtaining - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: the suggested fertilizer could be used in production of ecologically pure complex peat- and humus-based fertilizers which contain microelements regarding soil types and cultures' peculiarities. The fertilizer contains, at least, nitrogen (NO₃) not less than 0.002%, potassium (K₂O) not above 0.4%, phosphorus (P₂O₅) not less than 0.03%, humic acids 0.15-0.5%. Also, the fertilizer in question contains microelements of plants' nutrition, copper and/or boron among them, and additional substances - elements of plants' mineral nutrition, zinc or magnesium among them, and water. As additional substances the fertilizer contains, at least, molybdenum and/or cobalt or selenium and/or silicon oxide. EFFECT: decreased cost of the fertilizer due to shortened terms of its preparation, increased assortment due to soil types and cultures' peculiarities. 16 cl, 1 dwg, 2 tbl, 1 ex _

Description

 The invention relates to the production of environmentally friendly complex fertilizers for agriculture based on peat and vermicompost (vermicompost) containing plant growth regulators (humic acids) and a set of trace elements, taking into account soils, crop characteristics.

 Liquid humic fertilizer is known, which includes at least plant growth regulators (0.0001 wt.%), Nitrogen (8.7 wt.%), Potassium (14.0 wt.%), Phosphorus (12, 3 wt.%), Humates and bacteria (45.89 wt.%), The main plant nutrients, including copper (0.005 wt.%), Boron (0.0008 wt.%) And excipients - plant nutrients , including zinc (0.004 wt.%) and magnesium (4.8 wt.%) (see RF patent 2041867, MKI C 05 F 11/00, 08/20/1995).

 A disadvantage of the known fertilizer is that its composition is not optimally balanced taking into account the soil and biological characteristics of the crops grown.

 A known method of producing a liquid complex humic fertilizer, including the preparation of a water-peat suspension, processing it with an alkaline reagent with stirring, settling the suspension and separating the liquid fraction, adding a substance - a source of plant nutrients (use dry chicken droppings), which is added to the water-peat suspension before treatment with an alkaline reagent (RF patent 2015949, class C 05 F 3/00, July 15, 1994).

 The use of chicken manure requires sanitary and bacteriological research and appropriate control, as well as strict adherence to the technological parameters of fertilizer production, including expensive dehydration and decontamination of chicken manure.

A known method of producing complex fertilizer, which consists in conducting microbiological fermentation of the resulting aqueous suspension at 25-30 ^o With continuous enrichment with oxygen for 150-170 hours, followed by separation of the liquid fraction by filtration. If necessary, dehydration of the filtered liquid fraction is carried out under reduced pressure and a temperature of 30-35 ^o C (see RF patent 2107054, MKI C 05 F 11/00, 17/00, 1998).

When implementing the known method, it is necessary to supply heated to 35-40 ^o With air for 150-170 hours. This is associated with significant energy costs.

A known method of producing liquid humic fertilizer, which consists in fermenting an aqueous solution of vermicompost (vermicompost) with stirring at a temperature of 35-40 ^o C for 108-120 hours, filtering and dehydration at a temperature of 55-60 ^o C (see RF patent 2041867, MKI C 05 F 11/00, 1995).

When implementing the known method, the fermentation of liquid vermicompost is carried out at elevated temperature (35-40 ^o C) with continuous stirring for 108-170 hours. This is associated with significant energy costs and inconvenience of the continuity of technological operations.

 This method is the closest in technical essence to the proposed one.

 A common disadvantage of the known analogues and prototype is that the composition and technology of the obtained humic fertilizers are not optimized for application, taking into account the characteristics of soils and specific crops grown.

 The invention solves the problem of creating an environmentally friendly organomineral fertilizer with increased agrochemical efficiency, taking into account the biological characteristics of soils and cultivated crops (potatoes, vegetables, green crops, etc.), reducing costs and time for its production.

 EFFECT: improved fertilizer quality due to the use of a new generation of organic fertilizer - biohumus during peat production, reduction of the cost of humic fertilizer by reducing the time for its preparation and expanding its range by adding substances - elements of plant mineral nutrition depending on soil characteristics and crops grown.

The technical result is achieved by the fact that liquid humic fertilizer containing at least nitrogen, potassium, phosphorus, humic acids, plant micronutrients in the chemical composition, including copper and / or boron, excipients - elements of plant mineral nutrition, including zinc or magnesium and water, nitrogen, potassium, phosphorus and humic acids contain in the following ratio, wt.%:
Nitrogen (NO ₃ ) - At least 0.002
Potassium (K ₂ O) - Not more than 0.4
Phosphorus (P ₂ 0 ₅ ) - At least 0.03
Humic acids - 0.15-0.5,
and as auxiliary substances - elements of plant nutrition, it additionally contains at least molybdenum, and / or cobalt or selenium, and / or silicon oxide.

Preferably, the main micronutrients of plant nutrition and auxiliary substances - elements of mineral nutrition of plants, the fertilizer contains in the following ratio, wt.%:
Copper - At least 0.001
Boron - At least 0.001
Zinc or Magnesium - At least 0.001
Selenium - At least 0.001
Silica - Not more than 0.001
Water - Else
It is advisable for vegetables, grain crops, cereal herbs to have in the chemical composition of liquid humic fertilizers, at least copper, boron and magnesium.

 It is advisable for vegetables, including potatoes and tomatoes, in the chemical composition of liquid humic fertilizers to have at least copper, boron, zinc, silicon oxide.

 It is advisable for legumes and legumes in the chemical composition of liquid humic fertilizers to have at least boron, molybdenum and cobalt.

 It is advisable for green crops in the chemical composition of liquid humic fertilizer to have at least boron, copper and selenium.

 The technical result is achieved in that in a method for producing liquid humic fertilizer, including mixing humic-containing components, including biohumus, with an aqueous solution of alkali, settling the suspension, separating the liquid fraction, introducing microelements of plant nutrition, including copper and / or boron, into it , and auxiliary substances - elements of mineral nutrition, including zinc or magnesium, peat is used as an additional humic component, and a 0.5-2% aqueous solution of caustic potassium is used as alkali. Mixing of the humic-containing components with an aqueous alkali solution is carried out in a ratio of 1: 11-13, and after separation of the liquid fraction as auxiliary substances, at least molybdenum and / or cobalt or selenium and / or silicon oxide are additionally introduced into it.

 Preferably, the mixing of vermicompost and peat is carried out in a ratio of 4-5: 1-3.

It is advisable mixing the humic components and sedimentation of the suspension is carried out alternately at least two times at a temperature of at least 15 ^o C.

 Preferably, the first mixing of the humic-containing components is carried out for at least 1 hour, followed by settling for 18-24 hours, and re-mixing for at least 30 minutes, followed by repeated settling for 12-18 hours.

 It is advisable to use vermicompost - a product of bio-conversion of organic waste, including industrial waste cardboard-roofing plant.

 It is preferable to add zinc, silicon oxide as auxiliary substances - elements of the mineral nutrition of plants, including vegetables and potatoes.

 It is preferable to add molybdenum and cobalt as auxiliary substances - elements of the mineral nutrition of plants, including leguminous and leguminous herbs.

 It is preferable to add magnesium as an auxiliary substance - an element of the mineral nutrition of plants, including cereals.

 Preferably, as an auxiliary substance, an element of the mineral nutrition of plants, including green crops, selenium is additionally introduced.

 It is advisable to add each substance - an element of the mineral nutrition of plants, including copper, boron, zinc, molybdenum, cobalt, magnesium, selenium, to make at least 0.001% of the total number of components, and the addition of silicon oxide - not more than 0.001%.

 The essence of the invention consists in enhancing the regulatory function of vermicompost by adding peat and treating organic matter with an aqueous solution of caustic potassium and increasing the agrochemical effectiveness of fertilizers, taking into account the characteristics of soils and crops.

 The analysis of the prior art, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allows us to establish that the applicant has not found technical solutions characterized by features identical to all the essential features of the claimed invention. The definition from the list of identified analogues of the prototype made it possible to identify a set of essential (with respect to the technical result perceived by the applicant) distinctive features in the claimed object set forth in the claims.

 Therefore, the claimed invention meets the requirement of "novelty" under applicable law.

 Information about the fame of the distinguishing features in the totality of the features of known technical solutions with the achievement of the same as the claimed positive effect is not available. Based on this, it was concluded that the proposed technical solution meets the criterion of "inventive step".

 The drawing shows a flow chart of the preparation of liquid humic fertilizers.

 The main components for the preparation of liquid humic fertilizer are lowland milled peat and vermicompost - a new organomineral fertilizer obtained by bioconversion of organic waste of various origins - agricultural production, industrial and processing enterprises using a hybrid of red California worm. Biohumus in its chemical composition is close to humus and even surpasses it. The biohumus is especially valuable in its organic matter, which can contain up to 30% of humic acids. In addition, biohumus contains macro- and microelements, biologically active substances. It is a valuable source of raw materials for the production of humic fertilizers.

 Example. To prepare liquid humic fertilizer, lowland peat with a degree of decomposition of 20-25%, humidity 55-65% and biohumus with a humidity of 50-55% are used.

 Preparation of raw materials includes its grinding and removal of various solid inclusions (wood residues, stones).

 Water is poured into the reactor and a metered amount of potassium hydroxide is added. Peat, cleaned of impurities and sifted through a sieve with a hole diameter of 10 mm, as well as biohumus (marketable) is weighed in accordance with expenditure standards, for example, in a ratio of 3: 5, and fed to the reactor. Consumption rates are taken in accordance with table 1.

 In the reactor, a mixture of peat and vermicompost is mixed, in particular, with a 0.7% aqueous solution of caustic potassium in a ratio of, for example, 1: 12.5 at room temperature. The resulting suspension is defended for 18-24 hours, then stirred for 30-60 minutes and re-settled for 12-18 hours. The separated liquid fraction is poured into the drive, filtered, packaged, it is the basic liquid humic fertilizer ("Biogumi").

 The semi-liquid residue from the reactor is pumped by a fecal pump into a free tank and is used to irrigate the organic matter during the preparation of the substrate for the worms.

 To expand the fertilizer assortment and increase its agrochemical effectiveness, if necessary, a metered amount of additives (copper, boron, zinc, molybdenum, cobalt, magnesium, selenium, silicon oxide) is supplied to the base liquid fertilizer, depending on the characteristics of the soil and cultivated crops.

 The liquid with additives is thoroughly mixed and fed to the filling device, and then the packaging device.

 The presence in the assortment of humic fertilizers of microelements, taking into account the biological characteristics of cultivated crops (potatoes, vegetables, green crops, etc.) increases its competitiveness in the consumer market.

 On the basis of basic humic fertilizer (Biogumi), any assortment can be easily produced by adding the necessary amount of trace elements - at least copper, boron, zinc, magnesium, cobalt, molybdenum, silicon oxide, selenium.

 Obtained in accordance with the expenditure norms of the components given in table 1, the liquid humic fertilizers in accordance with the chemical analysis had the following compositions, wt.% - see table 2.

 The proposed composition of liquid humic fertilizers proved to be positive in extreme weather conditions in 1999

The experiments were carried out on plots with a record area of 50 m ² in four replicates (for grain crops - winter wheat, barley); for potatoes - 20 bushes in four replicates (80 bushes) and in two rows (160 bushes in total) in the experiment and control according to a similar scheme. A variety of winter wheat - Moscow - 39, barley - Zazersky - 85, potato - "Sante" clones of 1 year.

 The resulting increase in yield per hectare: winter wheat - by 20.5%, barley - 24.8%, potato - 23%.

 The use of liquid humic fertilizer contributed to an increase in productive stems in crops by 11.1%, the number of grains in the ear and their mass, increased the resistance of plants to drought, disease, accelerated ripening by 7 days.

 On potatoes, the number of tubers in one bush increased by 6.7%, the weight of one tuber increased by 10.2%.

 Studies have shown that the proposed method in comparison with the prototype allows you to get humic fertilizers with less energy and material costs, high quality, providing an increase in yield of not less than 20%.

 Humic liquid fertilizers have physiologically active properties, stimulate the development of a powerful root system, photosynthesis in plant leaves, improve plant mineral nutrition, increase germination and germination energy, and induce plant protective properties against pathogens of fungal and bacterial diseases (root rot, powdery mildew, late blight and etc.), contribute to the formation of a full ovary of seeds and fruits.

 The most responsive to the use of humic liquid fertilizers are: tomatoes, cabbage, peppers, potatoes, sugar beets, cucumbers, zucchini, all grain crops, millet, corn, buckwheat respond well, humic fertilizers have a weak effect on legumes.

 Based on humic fertilizers, a large range of fertilizers can be prepared by order of consumers, taking into account the biological characteristics of cereals, fodder, vegetables, fruits and berries and ornamental crops by adding various trace elements, plant protection products from the disease, etc.

 Humic fertilizers with silicon oxide (for use under potatoes) increase productivity, improve keeping quality during storage, and reduce the incidence of late blight.

 Humic fertilizers with selenium are suitable for use under onions, lettuce, parsley, dill.

 Humic fertilizers with trace elements and selenium are suitable for use under tomatoes, cucumbers, peppers, strawberries, berries.

 The use of products enriched with selenium reduces the incidence of cardiovascular, cancer, heart attack, stroke, prolongs life.

 The equipment used is characterized by simplicity, the technology is waste-free and does not have a negative impact on the environment, as it does not have wastewater and harmful gas exhausts.

Consumer properties of the obtained humic fertilizer:
- increase productivity by 20-30%;
- increase the vitality of plants under adverse environmental factors (drought, freezing, susceptibility to bacterial and fungal diseases);
- save the amount of fertilizers and plant protection products;
- enhance the development of the root system and assimilation apparatus of plants;
- reduce the ripening time of products by 7-12 days;
- increase the accumulation of sugar, starch, gluten and vitamins;
- reduce the content of nitrates, heavy metals, radionuclides in plants.

Claims (15)

1. Liquid humic fertilizer containing at least nitrogen, potassium, phosphorus, humic acids, trace elements of plants, including copper and / or boron, excipients - elements of mineral nutrition of plants, including zinc or magnesium, and water, characterized in that nitrogen, potassium, phosphorus and humic acids it contains in the following ratio, wt. %:
Nitrogen (NO ₃ ) - At least 0.002
Potassium (K ₂ O) - Not more than 0.4
Phosphorus (P ₂ O ₅ ) - At least 0.03
Humic acids - 0.15-0.5
and as auxiliary substances - elements of plant nutrition, it additionally contains at least molybdenum, and / or cobalt or selenium, and / or silicon oxide. 2. Fertilizer according to claim 1, characterized in that the main microelements of plant nutrition and auxiliary substances — elements of mineral nutrition of plants, it contains in the following ratio, wt. %:
Copper - At least 0.001
Boron - At least 0.001
Zinc or Magnesium - At least 0.001
Selenium - At least 0.001
Silica - Not more than 0.001
Water - Else
3. The fertilizer according to claim 1, characterized in that for vegetable, grain crops and cereal grasses it contains at least copper, boron and magnesium.  4. The fertilizer according to claim 1, characterized in that for vegetable crops, including potatoes and tomatoes, it contains at least copper, boron, zinc, silicon oxide.  5. Fertilizer according to claim 1, characterized in that for leguminous crops and leguminous herbs it contains at least boron, molybdenum and cobalt.  6. Fertilizer according to claim 1, characterized in that for green crops it contains at least boron, copper and selenium.  7. A method of producing a liquid humic fertilizer according to claim 1, comprising mixing the humic-containing components, including biohumus, with an aqueous solution of alkali, settling the suspension, separating the liquid fraction, introducing microelements of plant nutrition, including copper and / or boron, into it, and auxiliary substances - elements of mineral nutrition, including zinc or magnesium, characterized in that peat is used as an additional humic-containing component, 0.5-2% aqueous solution of caustic potassium is used as alkali, and humi is mixed osoderzhaschih components with an aqueous alkali solution is carried out at a ratio of 1: 11-13, and after separation of the liquid fraction as adjuvants are administered with the addition of at least molybdenum and / or cobalt or selenium and / or silicon oxide.  8. The method according to p. 7, characterized in that the mixing of vermicompost and peat is carried out in a ratio of 4-5: 1-3. 9. The method according to p. 7 or 8, characterized in that the mixing of the humic components and sedimentation of the suspension is carried out alternately at least two times at a temperature of at least 15 ^o C.  10. The method according to p. 9, characterized in that the first mixing of the humic containing components is carried out for at least 1 hour, followed by settling for 18-24 hours, and re-mixing is carried out for at least 30 minutes, followed by repeated settling for 12 -18 hours  11. The method according to p. 7 or 8, characterized in that the vermicompost is a product of bio-conversion of organic waste, including industrial waste cardboard-roofing plant.  12. The method according to any one of paragraphs. 7-11, characterized in that zinc, silicon oxide are introduced as auxiliary substances - elements of the mineral nutrition of plants, including vegetables and potatoes.  13. The method according to any one of paragraphs. 7-11, characterized in that as auxiliary substances - elements of the mineral nutrition of plants, including leguminous and leguminous plants, molybdenum and cobalt are introduced.  14. The method according to any one of paragraphs. 7-11, characterized in that as an auxiliary substance - an element of the mineral nutrition of plants, including cereals, magnesium is introduced.  15. The method according to any one of paragraphs. 7-11, characterized in that as an excipient - an element of the mineral nutrition of plants, including green crops, selenium is introduced.  16. The method according to p. 7, characterized in that the addition of each substance for the mineral nutrition of plants, including copper, boron, zinc, molybdenum, cobalt, magnesium, selenium, is not less than 0.001% of the total number of components, and the addition of silicon oxide - not more than 0.001%.

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