RU2268868C2 - Liquid complex fertilizer and a method for manufacture thereof - Google Patents

Abstract

FIELD: fertilizers.

SUBSTANCE: invention relates to wasteless manufacture of environmentally pure agriculture-destined liquid complex fertilizers based on pit containing humin acids, macroelements, and trace elements improving growth and evolution of plants and additional fertilizing of various agricultural crops. Liquid complex fertilizer is composed of liquid humin fertilizer mixed with water-soluble complex mineral fertilizer, the former containing at least 2.6 g/L humin acids and the latter, referred to as Akvarin-13, contained in mixture in percentage below 0.1%. Liquid humin fertilizer is prepared by treating humified material with potassium hydroxide solution, settling, stirring resulting suspension, separating liquid fraction and adding nutritive mineral elements to liquid humin fertilizer. According to invention, treatment of humified material with alkali solution is effected at ratio 1:(13-16).

EFFECT: facilitated use if fertilizer, increased agrochemical efficiency thereof, and manufacture expenses.

7 cl, 3 tbl

Description

The invention relates to the non-waste production of environmentally friendly liquid complex fertilizers for agriculture based on peat containing plant growth regulators (biologically active humic acids), macro- and micronutrients to increase soil fertility, improve plant growth and development, and feed various crops.

It is known liquid humic fertilizer, including in the chemical composition 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%), the main elements of plant nutrition (in the form of salts), including copper (0.005 wt.%), boron (0.0008 wt.%) and excipients - nutrients plants, including zinc (0.004 wt.%) and magnesium (4.8 wt.%) (RF patent No. 2041867, MKI C 05 F 11/00, 17/00, 1998).

The use of chemical salts as plant microelements reduces the efficiency of their use and the shelf life of the fertilizer due to the fact that these salts may precipitate during prolonged storage.

Known peat humic fertilizer with the addition of mineral components for soil enrichment and plant nutrition during the growing season, containing nitrogen, phosphorus and potassium in the form associated with organic matter in the following ratio of components, wt.%: Peat (dry matter) 17.3-17, 6, nitrogen 0.50-0.51, phosphorus in terms of P ₂ O ₅ 0.20-0.25, potassium in terms of K ₂ O 0.56-0.60, the rest of the water obtained by fermentation of the crushed mixture peat with mineral components and water due to its own microflora at a temperature of 25-40 ° C until one mass and reducing the concentration of nitrogen, phosphorus and potassium in the liquid phase to a constant value, while peat is used with a moisture content of 20-50 wt.% (patent for the invention of the Russian Federation No. 2114806, IPC C 06 F 11/02, publ. 1997, )

The known method involves obtaining a mixture of peat with mineral components before fermentation, which complicates the preparation of fertilizers and leads to the loss of part of the mineral components in the sediment of peat. In addition, energy costs for the temperature regime of fermentation also contribute to the complexity of the production process and the cost of production.

Known water-soluble fertilizer containing growth and development regulator "Humate" and fertilizer for greenhouses "Solution", while the components are taken in the following ratio, wt.%: Growth and development regulator "Humate" 0.5-20, fertilizer for greenhouses "Solution "80.0-99.5 to increase germination, total yield and increase the yield of standard products of cultivated crops (patent for the invention of the Russian Federation No. 2164906, IPC C 06 F 15/00, publ. 2001 - prototype).

Known fertilizer is dissolved in water immediately before use, and considerable time is required to maintain dosage accuracy, thorough mixing is necessary when preparing an aqueous solution of fertilizer in compliance with safety requirements. In this regard, the fertilizer is intended primarily for use in small areas, including in greenhouses, household plots. The inconvenience of use with significant volumes of consumption limits its use for processing fields of large farms. In addition, the use of two purchased fertilizers in a preparation sharply increases its cost with a slight increase in biological activity.

A known method of producing humic fertilizers and plant growth stimulants with increased biological activity, based on the mixing of ammonia peat, enriched with trace elements, and fractions that are obtained when processing peat with alkali and hydrogen peroxide solutions, ammonia of low peat of 80% humidity is carried out with a solution of ammonia and urea at 80-90 ° C for 3-3.5 hours, the mass ratio of peat and 10% ammonia solution is 1: 0.4, the amount of urea is 100% based on anhydrous ammonia, in activated ammonia Ohm peat add trace elements and solutions obtained by sequentially processing lowland peat of 80% humidity with a 3% aqueous KOH solution for 10 hours at 20 ° C and a 10% hydrogen peroxide solution at 80-90 ° C for 1 5-2 hours, the ratio of peat, 3% KOH solution and 10% hydrogen peroxide solution is 1: 12: 2, to neutralize the increased alkalinity of fertilizer and ammonia binding, a 25% phosphoric acid solution is used, the amount ammonia-activated peat in the fertilizer is 20-50 wt.% (patent for the invention RF RF No. 2071459, IPC C 06 F 11/02, publ. 1997).

The resulting fertilizer provides the optimum concentration of nutrients and components of humus in the soil - humic acid salts, as well as reducing their losses

The known method has a large number of chemical components, which complicates and increases the cost of the fertilizer preparation process. In addition, the method requires the use of elevated temperatures and is energy intensive, which also contributes to the complexity of the production process and the cost of production.

There is a method of isolating humic substances in the form of acids and their salts from a natural humified material, for example peat, based on the treatment of peat with an alkaline solution under normal conditions in the presence of urea and complexon, while the alkaline solution contains alkali, urea and is complex in the following weight ratio 1 , 0: 1.0-5.0: 0.1-2.5, ethylenediaminetetraacetic acid was used as complexone (RF patent No. 2178777, IPC C 06 F 11/02, publ. 2002).

The method allows to increase the yield of humic substances, which can be used in various industries. The known method has a large number of chemical components, which complicates and increases the cost of the fertilizer production process.

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 processing it with an alkaline reagent (RF patent No. 20155949, IPC C 05 F 3/00, 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.

Fertilizer production is expensive due to the length and complexity of the process.

A known method of producing liquid suspended peat humic fertilizers, comprising mixing peat with a 1.0-2.5% aqueous solution of caustic potassium, and mixing peat with an aqueous solution of caustic potassium is carried out in a ratio of 1: 4-5, in the process of mixing into the mixture periodically potassium hydroxide is added, maintaining its concentration in the solution no higher than the initial one, while the addition of caustic potassium to the mixture is stopped when the concentration of humic acids in the solution is stabilized (RF patent No. 2001038, IPC C 05 F 11/02, 1993).

The need for periodic addition of caustic potassium in the process of mixing peat with an aqueous solution of caustic potassium and the implementation of repeated laboratory monitoring of the content of humic acids and their stabilization makes the production of fertilizer expensive.

A known method of producing liquid humic fertilizer, including mixing humic components - peat and biohumus in a ratio of 4-5: 1-3, mixing humic components with 0.5-2% aqueous solution of caustic potassium in a ratio of 1: 11-13 under normal conditions, sedimentation of the suspension and separation of the liquid fraction, the introduction of plant microelements (copper and / or boron) and mineral nutrition elements (zinc or magnesium, molybdenum, and / or cabbalt, or selenium, and / or silicon oxide (RF patent No. 2181710, IPC C 05 F 11/00, 2000 - prototype).

A common disadvantage of the known analogues and prototype is that the known compositions and technologies of the obtained humic fertilizers do not provide the optimal ratio of such parameters as the cost of fertilizer, the time for its manufacture, the volume of products, the degree of agrochemical efficiency, storage conditions and shelf life, convenience and safety of use.

The invention solves the problem of ensuring speed, convenience and safety of use, optimizing the shelf life of liquid organic organic fertilizer, increasing agrochemical efficiency by improving its chemical composition in the presence of biologically active plant growth and development regulators - humic substances.

The invention of a method for producing liquid fertilizer solves the problem of reducing the time and cost of its manufacture by reducing the types of raw materials used, chemicals, ensuring simplicity and safety of production.

The technical result of the invention is to improve the quality of the fertilizer due to the use of the new generation of water-soluble fertilizer of the new generation - Aquarin 13, in its preparation, in reducing the cost by reducing the time for its production in comparison with analogues.

The technical result is achieved by the fact that in a liquid complex humic fertilizer comprising a mixture of humic and complex water-soluble mineral fertilizers, liquid humic fertilizer with a content of humic acids of at least 2.6 g / l is used as a mixture component, and as a complex water-soluble mineral fertilizer - "Aquarin-13" when the content of the latter in the mixture in an amount of not less than 0.1%.

It is preferable to apply liquid humic fertilizer with a pH of at least 11-12.

The technical result is achieved by the fact that in the method for producing a liquid complex fertilizer, including obtaining a liquid humic fertilizer by treating the humified material with an alkaline solution of potassium hydroxide, settling, mixing the suspension, separating the liquid fraction and introducing the elements of plant mineral nutrition into the obtained liquid humic fertilizer, processing the humified material alkaline solution is carried out in a ratio of 1: 13-16, while the elements of the mineral nutrition of plants are administered in the form of a comp eksnogo water-soluble fertilizer 'Akvarin-13 "in the following ratio, wt.%:

complex water soluble mineral fertilizer "Aquarin-13" not less than 0.1 liquid humic fertilizer rest

Preferably, 0.7-0.8% potassium hydroxide solution is used as the alkaline solution.

It is advisable to use peat as a humified material.

Preferably, the treatment of the humified material with an alkaline solution of potassium hydroxide is carried out with stirring for no more than an hour and infusion under normal conditions for 18-24 hours.

It is advisable to carry out the mixing by sparging with compressed air.

The essence of the invention is to enhance the regulatory function of peat by treating organic matter with an aqueous solution of potassium hydroxide and increasing the agrochemical effectiveness of fertilizers by extracting biologically active humic substances and trace elements in chelated form.

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 characteristics of the known technical solutions with the achievement of the same as the claimed device, there is no positive effect. Based on this, it was concluded that the proposed technical solution meets the criterion of "inventive step".

The main components for the preparation of liquid humic fertilizer is low-lying peat. To prepare a liquid humic fertilizer, peat is used with a degree of decomposition of 20-25%, humidity 55-65%. Preparation of peat includes its grinding and removal of various solid inclusions (wood residues, stones).

The method of preparation of liquid humic fertilizers is as follows.

Water is supplied to the reactor (tank), then a metered amount of potassium oxide hydrate. Peat is fed in accordance with expenditure standards, pre-cleaned of impurities and sifted through a sieve with a hole diameter of 10 millimeters. In the reactor, a mixture of peat is mixed with a 0.8% aqueous solution of caustic potassium in a ratio of 1: (13-16), for example 1: 12.5 at room temperature. The contents of the reactor are mixed by barbation with compressed air for one hour and infused for 18-24 hours. After settling the liquid fraction of the suspension is poured into the drive, filtered. The concentrated black solution with a brown tint is a liquid humic fertilizer (LHF) with a content of humic acids of at least 2.6 g / l and a pH of at least 11-12. The yield of finished products is 80-85%.

Working solutions for pre-sowing seed treatment, watering or spraying vegetative plants are prepared by adding a concentrated solution to ordinary tap, river or well non-hard water. For small production volumes, a container is used for mixing components of 100-200 liters, which has an anti-corrosion coating (aluminum containers cannot be used) and a simple cheap technology:

- preparation of peat to a particle size of not more than 10 mm with cleaning from foreign impurities;

- loading peat (6-12 kg) into a container (100-200 l);

- dissolution of potassium hydroxide in water (0.8-1.6 kg);

- loading a solution of caustic potassium and mixing the components for one hour, followed by infusion of the suspension for 18-24 hours;

- separation from the ZhGU tank from peat mass (from sediment).

Sediment of peat (15-20%) can later be used to activate the microflora during composting and fermentation of manure, preparing the substrate for vermiculture.

To increase agrochemical efficiency, a dosed amount of Aquarin 13 fertilizer is fed into a liquid humic fertilizer in an amount of not less than 0.1%. The maximum dose of Aquarin 13 fertilizer is limited by the balance of the chemical composition of the fertilizer and is no more than 1% of the amount of liquid humic fertilizer. Fertilizer Aquarin 13 (Buisky Chemical Plant OJSC) contains nutrients (%): N-NO ₃ (4.4), N-NH ₄ (8.6), total N (13.0), P ₂ O ₅ (41.0), K ₂ O (13.0) and a complete set of trace elements in the form of chelates - Fe (EDTA) - 0.054%; Zn (EDTA) - 0.014%; Cu (EDTA) - 0.01%; Mn (EDTA) - 0.042%; Mo (EDTA) - 0.004%; B (EDTA) - 0.02%

The liquid humic fertilizer is thoroughly mixed with the Aquarin 13 fertilizer and fed to the filling device, and then the packaging device. The norms of the components for the production of the proposed liquid complex fertilizer (HCF): lowland peat 60 kg, non-rigid water 1000 liters, potassium oxide hydrate - 8 kg, "Aquarin-13" - 10 kg.

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. The proposed liquid complex fertilizer contains at least 2.6 g / l of humic acids, at least 20-25 mg / l of nitrogen readily available to plants, up to 4% mobile potassium (K ₂ O), as well as phosphorus (P ₂ O ₅ ), trace elements including copper, boron, zinc, molybdenum, cobalt, manganese.

The use of liquid complex fertilizer for pre-sowing treatment of seeds or vegetative plants has a positive effect on the productivity of all agricultural, fruit, vegetable, industrial and ornamental crops, increases their resistance to adverse environmental factors: drought, frost, plant damage by diseases and pests, saves money on the acquisition of pesticides and mineral fertilizers due to better absorption of soil nutrients, inactivates the effect of heavy metals radionuclides. The effectiveness of a liquid complex fertilizer is determined by the timing and processing methods, type of plants and environmental conditions. Its effect on the processes of growth and development of plants is more pronounced during the pre-sowing treatment of seeds or vegetative plants in the early phases of their development. The effectiveness of the use of liquid complex fertilizers (HCF) is shown in tables 1,2.

Scientific and production experiments were also carried out on potatoes of the Diamant variety of the fourth reproduction. The experimental plot area was 1 ha.

Potato cultivation technology is generally accepted for the Ryazan region. Before planting, part of the tubers was treated with a housing and utility complex (working solution with a concentration of humic acids 0.003-0.005%). Treated tubers were planted half the site. The other half of the plot was planted with untreated housing and communal services tubers and served as control. Before harvesting, samples were taken in 3 replicates of 30 bushes from the experimental and control plot. The use of HCS based on potassium humate contributed to an increase in the total number of tubers (in the control sample there were only 260 tubers, in the sample of the humate variant - 360 tubers), and in individual fractions (large - food, medium - seed, small - for animal feed) . The impact of housing and communal services on the yield and yield structure of potato varieties "Diamond" are presented in table 3.

The use of housing and communal services provides an increase in productive stems in crops, the number of grains in the ear and their mass.

The proposed technical solution allows to obtain high-quality humic fertilizers with minimal energy and material costs, to ensure a stable increase in productivity by at least 15%. At the same time, it is possible to produce humic fertilizers, taking into account the biological characteristics of cultivated crops.

It is known that 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, induce protective properties of plants against pathogens of fungal and bacterial diseases (root rot, powdery mildew , late blight, etc.), contribute to the formation of a full seed ovary, provide a significant increase in the yield of such agricultural crops round like tomatoes, cabbage, peppers, potatoes, sugar beets, cucumbers, zucchini, whole grains, millet, corn, buckwheat, onions, lettuce, parsley, dill, peppers, strawberries, berries. Humic fertilizers for use under potatoes also improve keeping quality during storage, reduce the incidence of late blight.

The technology and equipment is characterized by maximum simplicity, is waste-free and does not have a harmful effect on the environment due to the lack of wastewater and exhaust of harmful gases. The use of the obtained humic fertilizer is advisable both on large agricultural areas, and on farm, summer cottages due to the ease of preparation of working solutions in comparison with solid humic fertilizers. At the same time, consumer properties are aimed at increasing crop yields, increasing plant viability under adverse environmental factors (drought, freezing, infection with bacterial and fungal diseases), accelerated development of the root system and assimilation apparatus of plants, reducing the ripening time of products, increasing the accumulation of sugar, starch, gluten and vitamins, reduction of nitrates, heavy metals, radionuclides in plants.

Table 1 OPTIONS Plant height, cm The number of productive stems per 1 m ² , pieces The average spike length on one plant, cm The average number of grains per plant, pieces. Grain mass from 1 m ² , g Productivity, t / ha Increase, kg / ha Mass of 1000 grains, g 1. Traditional SUMI-8 seed treatment technology 77.7 219 6.8 17.4 171 17.1 - 34.0 2. Seed treatment with complex mineral fertilizer Aquarin-13 81.1 267 11.2 32,5 182 18.2 1,1 35.5 3. Seed treatment with liquid humic fertilizer (ZhGU) -potassium humate, 0.005% 82.5 269 15.8 43.9 189 18.9 1.8 36.5 4. Seed treatment with liquid complex fertilizer (HCF) -potassium humate + Aquarin-13 84.3 285 16.7 46.8 196 19.6 2,5 37,2

table 2 Fertilizers Liquid complex humic fertilizer (barley) Fertilizer "Solution" + "Humate" - prototype (spring wheat) Options Plant height, cm Productive bushiness, pcs / 1m ² Productivity, t / ha Increase, kg / ha The number of grains on one ear, pieces Mass of 1000 grains, g Options Plant height, cm Productive bushiness, pcs / 1m ² Productivity, t / ha Increase, kg / ha The number of grains on one ear, pieces Mass of 1000 grains, g The control 77.7 219 17.1 - 14.8 34.0 The control 69 0.9 19,4 - 16,0 30.9 Seed Processing - Aqvari-nom-13 81.1 267 18.2 1,1 15.8 35.5 Processing of seeds "Solution" 70 0.9 20.8 1.4 17.0 31.5 Processing of seeds of ZhGU (potassium humate) 82.5 269 18.9 1.8 17.4 36.5 Processing of seeds "Humate" 72 0.9 20.9 1,5 18.0 31.6 Processing of seeds ZhKU-gumat potassium + Aquarin-13 84.3 285 19.6 2,5 19.5 37,2 Seed treatment with “Mortar” (80%) + “Humate” (20%) 72 0.9 22.2 2,8 19.0 31.6

Table 3 Indicators Control (tubers not treated with potassium humate) Experienced (tubers processed ZhKU-humate potassium + Aquarin-13) % Increase The average number of tubers per bush, pieces 9.0 12.0 33.3 The average mass of marketable and seed tubers per bush, gram 537.5 605.0 12.6 The average mass of large commodity tubers per bush, gram 400,0 460.0 15.0 The average weight of one tuber from the food fraction (large), grams 92 115 25.0

Claims (7)

1. Liquid complex fertilizer, comprising a mixture of humic and complex water-soluble mineral fertilizers, characterized in that as components of the mixture used liquid humic fertilizer with a content of humic acids of at least 2.6 g / l, and as a complex water-soluble mineral fertilizer - " Aquarin-13 "when the content of the latter in the mixture in an amount of not less than 0.1%. 2. The liquid complex fertilizer according to claim 1, characterized in that liquid humic fertilizer with a pH of at least 11-12 is applied. 3. A method of producing a liquid complex fertilizer, including obtaining a liquid humic fertilizer by treating the humified material with an alkaline solution of potassium hydroxide, settling, mixing the suspension, separating the liquid fraction and introducing the elements of plant mineral nutrition into the obtained liquid humic fertilizer, characterized in that the humified material is treated with alkaline the solution is carried out in a ratio of 1: 13-16, while the elements of the mineral nutrition of plants are introduced in the form of a complex water-soluble go fertilizer "Aquarin-13" in the following ratio of components, wt.%: Complex water-soluble mineral fertilizer "Aquarin-13" Not less than 0.1 Liquid Humic Fertilizer Rest 4. The method according to claim 3, characterized in that the alkaline solution is a 0.7-0.8% potassium hydroxide solution. 5. The method according to claim 3 or 4, characterized in that peat is used as a humified material. 6. The method according to claim 5, characterized in that the treatment of the humified material with an alkaline solution of potassium hydroxide is carried out with stirring for no more than an hour and infusion under normal conditions for 18-24 hours 7. The method according to claim 6, characterized in that the mixing is carried out by sparging with compressed air.