RU2724484C1 - Method of producing biofertilizers from mineral fertilizers using biogeosorbents - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the agriculture. Method of producing complex fertilizer with prolonged action is characterized by successively applying a fertilizer substrate selected from ammonium nitrate, ammonium sulphate, urea, an adhesive, dextrin or collagen glue, or bone (gelatin) glue, or albumin glue, or fish glue, or cherry glue, or molasses, or gum arabic, or joiner glue, or liquid glass, as well as mineral, which is glauconite, or mudstone, or aluminosilicate, with immobilized on it microorganisms: Azotobacter chroococcum, genus Nitrosomonas, Nitrobacter and Rhizobium, followed by drying.

EFFECT: invention allows to manufacture multi-purpose complex fertilizer of prolonged action, capable to transform mineral and chemical fertilizers into bioavailable forms of plant nutrition.

1 cl, 1 dwg, 3 ex

Description

The invention relates to the field of agriculture, to agricultural chemistry, in particular to the production of complex mineral fertilizers of prolonged action.

Known universal mixture containing natural zeolite and additives (application for invention No. 2001126499, publ. 09/20/2003). A disadvantage of the known mixture is not the manufacturability.

Known mineral fertilizer (RF Patent No. 2550494), which consists of natural mineral zeolite, the adsorption and absorption tanks of which are saturated with nitrogen fertilizer, and water, and the mineral fertilizer contains natural zeolite in an amount of 1 mass. hours, nitrogen fertilizer 0.2-0.4 mass. hours, water 0.2-0.25 mass. hours and additionally use an insecticidal-fungicidal complex in an active dose.

A known method of producing complex mineral fertilizers (RF Patent No. 2424219), including preliminary mixing of phosphoric acid with ammonia, subsequent mixing of the obtained pulp of ammonium phosphate with sulfuric acid and ammonia, the introduction of potassium-containing additives, granulation and drying of the product.

In mineral fertilizers there is no bioadditive.

A known method of biological activation of natural zeolites (RF Patent No. 2255926). The invention relates to the field of agriculture, to agricultural chemistry, in particular to biologically active zeolite fertilizers containing potassium, phosphorus, calcium, trace elements and phosphate-mobilizing microorganisms. The method is applicable only in soil with a lack of phosphorus.

Known complex granular fertilizer (options) and the method of its manufacture (options) (RF Patent No. 2626630). Complex granular fertilizer contains mineral components, in which the fertilizer contains enriched glauconite and mineral fertilizers, and additionally contains bentonite, diatomite, water as mineral components. The fertilizer contains no strains of nitrogen fixers, phosphomobilizing microorganisms.

The closest analogue is a method for producing a prolonged-release mineral-organic fertilizer (RF Patent No. 2200723). The invention relates to a technology for the production of prolonged-release mineral-organic fertilizers that can be used in agriculture for any crops and as a soil baking powder directly and / or in conjunction with known organic-mineral fertilizers. The method includes the interaction of a sorbent based on aluminosilicates and a culture fluid for growing microorganisms containing mineral components. The disadvantages of the method is the complexity of obtaining fertilizer, as well as a simplified component composition with a shorter activity period.

The objective of the invention is the creation of a method of manufacturing a multi-purpose complex fertilizer of prolonged action - a new type of fertilizer capable of transforming mineral and chemical fertilizers into bioavailable forms of plant nutrition, using biological objects (bacteria, algae, fungi and protozoa) on biogeosorbents.

The technical solution is achieved by sequential spraying on the main substrate - the mineral component of the following components: adhesive, mineral with immobilized microorganisms of the target action (biogeosorbent), followed by drying.

Figure 1 shows the production line for obtaining a biological product.

The technological line includes: 1 - conveyor belt with mineral fertilizers 2 - container with adhesive, 3 - dispenser with biogeosorbent, 4 - vibrating grid, 5 - spray tubes, 6 - fans, 7 - hopper.

Example 1

The composition of mineral fertilizers (NPK, nitroammofosk, azofosk, diammofosk, etc.) in the form of granules is fed from the hopper (7) onto a wide conveyor belt (1) by spraying from a container with an adhesive (2) an adhesive substance (dextrin, collagen, bone (gelatin), fish albumin, molasses, gum arabic, cherry glue, and also non-toxic to bacteria - carpentry glue, liquid glass (potassium or sodium) with spray tubes (5), a dispenser (3) is applied with mineral (glauconite, mudstone, aluminosilicate, etc.) with target-action microorganisms immobilized on it (Pseudomonas, Actinomycetaceae, Bacillus mucilaginosus, Azotobacter chroococcum, genus Nitrosomonas, Nitrobacter, Rhizobium, fungi of the genus Penicillium irrigation, microorganism, microorganism, etc.) ): mineral with immobilized microorganisms (1 part), adhesive 0.2-0.4% by weight at room temperature and natural light. Immobilization of microorganisms per min Oral carrier is produced in advance in the ratio of 1 part of microorganisms to 10 parts of the mineral. Microorganisms contribute to the binding of nitrogen, the decomposition of phosphorus and its absorption by plants or its binding to organic matter in the humus. Minerals contain a set of 80 trace elements, act as a prolonger of the action of nutrients, a buffer of plant nutrients and improve the bioactivity of biota. The granules are transferred to a vibrating grid (4), where not glued biogeosorbent is sprinkled from vibration and returned to the hopper (7). Next, biofertilizer is dried using fans (6).

Example 2

Phosphorite flour is fed from the hopper (7) to the conveyor belt (1) and, using spray tubes (5), an adhesive substance (dextrin, collagen, bone (gelatin), fish albumin, molasses, gum arabic, cherry glue, and also non-toxic are applied for bacteria - wood glue, liquid glass (potassium or sodium), a biogeosorbent with target microorganisms (for example, Pseudomonas, Actinomycetaceae, Bacillus mucilaginosus, Penicillium mushrooms, etc.) in the ratio of mineral fertilizer (1 part) is applied with a dispenser (3) : a mineral with immobilized microorganisms (1 part), a sticky substance 0.2-0.4% by weight at room temperature and natural light. The microorganisms are immobilized on a mineral carrier in advance in the ratio of 1 part microorganisms to 10 parts of the mineral. Microorganisms contribute to the decomposition of phosphorus and its absorption by plants or its binding to organic matter as part of humus.Minerals contain a set of 80 microelements ents act as a prolonger of the action of nutrients, a buffer of plant nutrients and improves the bioactivity of biota. The granules are transferred to a vibrating grid (4), where not glued biogeosorbent is sprinkled from vibration and returned to the hopper (7). Next, biofertilizer is dried using fans (6).

Example 3

Nitrogen fertilizers (ammonium nitrate, ammonium sulfate, urea, etc.) are fed from the hopper (7) onto a conveyor belt (1) by applying a sticky substance (dextrin, collagen, bone (gelatin), fish albumin, molasses, gum arabic, by spraying, cherry glue, as well as non-toxic to bacteria - carpentry glue, liquid glass (potassium or sodium) with spraying tubes (5), a batcher (3) apply biogeosorbent (glauconite, argillite, aluminosilicate, etc.) with the target microorganisms immobilized on it actions (Azotobacter chroococcum, genus Nitrosomonas, Nitrobacter, Rhizobium, etc.) the ratio of mineral fertilizer (1 part): mineral with immobilized microorganisms (1 part), adhesive substance 0.2-0.4% by weight at room temperature and natural light. Immobilization of microorganisms 1 part of microorganisms to 10 parts of the mineral is produced in advance on a mineral carrier. Microorganisms contribute to the decomposition of nitrogen and its absorption by plants Iyam. Minerals contain a set of 80 trace elements, act as a prolongator of the action of nutrients, a buffer of plant nutrients and improve the bioactivity of biota. The granules are transferred to a vibrating grid (4), where not glued biogeosorbent is sprinkled from vibration and returned to the hopper (7). Next, biofertilizer is dried using fans (6).

Claims (1)

A method of manufacturing an extended-release complex fertilizer, characterized in that it is sequentially applied to a fertilizer substrate selected from ammonium nitrate, ammonium sulfate, urea, an adhesive, which is used as dextrin, or collagen glue, or bone (gelatin) glue, or albumin glue, or fish glue, or cherry glue, or molasses, or gum arabic, or wood glue, or liquid glass, as well as a mineral that uses glauconite, or mudstone, or aluminosilicate, with microorganisms immobilized on it: Azotobacter chroococcum, genus Nitrosomonas, Nitrobacter and Rhizobium, followed by drying.

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