RU2547553C1 - Method of producing biohumus - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: solid and liquid organic wastes are mixed on the site, the clamps are formed with the implementation of technological passages between them, the substrate is populated with earthworm of species Eisenia foetida, after obtaining the desired product and biomass of worms the cycle of waste disposal is repeated. Solid organic wastes are used in an amount of 25-30% by volume of liquid and semiliquid organic wastes. During mixing, biohumus and river sand is additionally added into the substrate in an amount of 10 kg and 1 kg, respectively, per one ton of the substrate. The clamps are formed with the width of 10-12 m and the height of 3-4 m, the length equal to the length of the biohumus site. After populating the substrate with worms, every 15-18 days the substrate is additionally mixed. In sub-zero air temperature the clamp surface is irrigated with water to create ice crust. Readiness degree of the substrate for populating with worms is determined by the temperature, humidity and acidity of the substrate.

EFFECT: accelerated processes of fermentation and self-heating in clamps.

Description

The invention relates to agriculture and can be used in the processing of various organic waste, including litter (liquid, semi-liquid) manure and litter into high-quality organic fertilizer.

A known method of producing biohumus, including pre-mixing and biothermal composting of a substrate, including organic cultivators, populating moistened compost with red California worms of the species Esenia foetida for processing compost, and separating the worms from moistened to 60-65% biohumus. As a substrate, a mixture of non-production wastes of slaughtered animals is used, for example, technical slaughter blood, bones, hides, contents of the gastric-intestinal pancreas, for example kanyga, with organic cultivators, for example wood sawdust, paper and residual brewer's or baker's yeast. Biothermal composting is carried out in an open boiler by three-stage hydrolysis, the first stage of which is carried out by mixing the mixture at a temperature of 40 ° C for 2-3 hours, boiling at a temperature of 120 ° C for 2-3 hours and cooling the mixture to a temperature of 40 ° C. The second stage is carried out by mixing the resulting mixture at a temperature of 40 ° C for 2-3 hours with the addition of an equal volume of unused beer or baker's yeast and organic cultivators, add a water-alcohol extract of enzymes from the pancreas of slaughtered animals, such as pigs, and / or alkaline protease Bas.subtilis in a ratio of 1: 100 or 1: 500 with further mixing of the mixture for 2-3 hours at a temperature of 40 ° C. The third stage is carried out by sterilization of the mixture for 2-3 hours at a temperature of 120 ° C, sieving and further evaporation to a residual moisture content of 40-60%. Population of the resulting compost with red California worms is carried out at the rate of 10-15 pcs. sexually mature worms per 10 kg of processed compost in a separate container, the bottom of which is covered with litter of sawdust and sand in a ratio of 1: 1, followed by exposure for 2-3 months to form biohumus with a stable pH value of 6.0-8.0 . The worms are separated from moistened vermicompost by using a bait in the form of a mixture of paper dust, finely ground wood chips, urea and starch paste, and the resulting vermicompost is dried to a moisture content of 5-15% and used as intended [patent RU 2274628, 2006]. The disadvantage of this method is the complexity of this production.

A known method of producing vermicompost, characterized in that the substrate from the husk of buckwheat seeds is moistened, colonized by worms and composted. When preparing the substrate, the components of the organic raw materials are mixed until homogeneous, moistened, then the prepared substrate is placed in a container in which it is kept for 15-20 days. The ripened substrate is populated with worms and moistened up to 70%, composting is carried out for 4-4.5 months. Pork manure is additionally introduced into the substrate from the buckwheat husk in a ratio of 1: 1 [patent RU 2363689, 2009].

The closest analogue of the invention is a method of disposal of liquid manure, which consists in the fact that on the vermite site of the solid organic waste form collars and pour them with liquid manure. Technological driveways are made between the shoulders, then the shoulders are periodically watered with liquid manure and the mass is maintained until it ripens as a substrate for worms, the degree of readiness of which is determined using earthworms. Burts from the finished substrate are populated by earthworms before the onset of frost. Technological driveways are filled with fresh organic waste, the whole area is insulated for the winter. In the spring, the collars are opened, the remaining livestock of earthworms is removed from the collars, the finished vermicompost and earthworms are taken away from the vermil site, and the remaining collars are populated with earthworms, then the recycling cycle is repeated, the pH of the medium is maintained in the range of 6.8-7.2, and the moisture content of organic waste filling technological routes - in the range of 65-75%. The proposed method allows the disposal of liquid manure year-round and relates to environmentally friendly biotechnologies that do not harm the environment [patent RU 2132319, 1999]. The disadvantage of this method is the need to warm the shoulders, the irrational use of technological driveways with filling them with waste and maintaining the required humidity.

The objective of the invention is to develop a highly efficient method of recycling organic waste into a highly efficient environmentally friendly microbiological humus fertilizer and biomass of earthworms.

The technical result when using the invention is to increase the productivity of the method by accelerating the fermentation process, self-heating in the shoulders due to the creation of favorable conditions for the development of biothermal processes, complete deep processing of waste, the use of technological driveways for the operation of machines and people.

The specified technical result is achieved by the fact that in the method of producing vermicompost, which includes mixing solid and liquid organic waste at the site, forming collars with technological passage between them, populating the substrate with earthworms of the species Eisenia foetida, after receiving the target product and biomass of the worms, repeating the recycling cycle, according to the invention, solid organic waste is used in an amount of 25-30% of the volume of liquid and semi-liquid organic waste, when mixed into the substrate, additionally introducing tons of vermicompost and river sand in the amount of 10 kg and 1 kg, respectively, per 1 ton of substrate, form collars with a width of 10-12 m, 3-4 m high, and a length equal to the length of the vermicompost, and after settling with worms, stirring is performed every 15-18 days substrate, at subzero air temperature, irrigate the surface of the shoulder to create an ice crust, and the degree of readiness of the substrate for colonization by worms is carried out according to the temperature, humidity and pH of the substrate.

The proposed method for producing biohumus is as follows. The production of vermicompost is located near livestock complexes on a concrete (asphalt) vermissibility site (landfill), the dimensions of which depend on the amount of renewable organic waste of the livestock complex and are: width 45 m or more, length 50 m or more, concrete layer thickness 0.2-0, 24 m, must withstand heavy wheeled vehicles. Liquid and semi-liquid organic waste (manure, litter) are used as feedstock. Solid organic waste (straw, sawdust, bark, tree leaf litter, paper, etc.) is used as auxiliary materials, which are mixed with the feedstock in an amount of 25-30% of the feedstock volume, which allows to obtain a loose substrate structure and the optimal ratio of C: N. When mixing, in order to accelerate fermentation, ready biohumus is added to the substrate in the amount of 10 kg per 1 ton of substrate. To improve the grinding of food in the digestive canal of earthworms, river sand is added to the substrate with stirring in the amount of 1 kg per 1 ton of substrate. Mixing is carried out until a homogeneous state. Then the substrate is laid in collars, which are formed one after another (after the readiness of one, they lay the second, and so on) with an amount of at least two, 10-12 m wide, 3-4 m high, length - along the length of the vermilocation platform, technological passages are formed between the collars 10 m wide. When digging, mechanical cleaning of manure from foreign inclusions is carried out. To accelerate the course of biothermal processes, to create a more uniform substrate structure, to prevent overheating and “burning”, the collar is subjected to two-fold, and if necessary, additional interruption. Fermentation in the shoulders is carried out year-round, with constant monitoring of the temperature and humidity conditions inside the shoulder. The process should occur at a temperature of 65-70 ° C, humidity of the substrate 60-70%. When the temperature rises to avoid combustion, in order to accelerate the flow of biothermal processes, create a more homogeneous structure of the substrate, aeration, the substrate is mixed with a loader (reformation of the collar). With a decrease in humidity in the shoulder below 60%, water irrigation is carried out, while drying of the upper layer of the shoulder is carried out surface irrigation. Irrigation of the shoulders is carried out by settling water with a temperature corresponding to the temperature of the medium inside the shoulder. The temperature, humidity and pH of the medium inside the pile are systematically monitored every 12 hours, the decomposition of organic substances contained in manure is monitored by temperature measurements at a depth of 0.5-1.0 m. Population of the technological population of earthworms of the species Eisenia foetida in the prepared substrate is carried out in the fall until mid-October, in the spring from the second half of April, by cutting longitudinal furrows in the pile every 1-1.5 m, with a depth of 15-20 cm. The required density, taking into account cocoons and juvenile individuals, is at least 20 thousand pieces per 1 m ² (~ 1 t of biomass per 350 m ² ) of the active surface of the pile, which provides accelerated processing. Worms in their own substrate are delivered from the mother liquor in a special container and evenly distributed along the furrow. After the worms are deepened into the substrate, the shoulder surface is moistened, which facilitates the process of their acclimatization and increases the return. Vermicultivation occurs with constant monitoring of temperature, humidity, acid conditions in the shoulders. Determination of the mass fraction of moisture is carried out according to GOST 26713-85;

pH determination is performed according to GOST 26483-85. The technological mode of production of raw 50-60 days at a temperature of 16-24 ° C, substrate moisture 70-80% and a neutral reaction of the medium pH = 7.0 ± 0.5. Water is irrigated to the surface of the shoulder to create an ice crust (shell) with the onset of subzero air temperature in the second half of November. From September to April, deep irrigation is not carried out. For aeration, regulation of the humidity regime, uniform processing of the entire volume of the substrate by earthworms, the substrate is systematically mixed every 15-18 days with a loader: moving the upper layer of the pile into the lower layer by shifting. When the density of worms reaches 45-50 thousand pieces per 1 sq. meter and a depth of 0.5 meters in the fall to the end of October, in the spring from mid-April, determine the degree of processing of the substrate and the quality of raw vermicompost. The determination of the mass fraction of organic matter is carried out according to OST 4647-76; determination of nitrogen enrichment (C / N) according to GOST 26715-85 and OST 4647-76; determination of the mass fraction of fiber and protein (protein) by the method of A.R. Kiesel Biohumus must comply with TU-9819-002-21080799-2002. When raw vermicompost is ready, the worms are baited out of the shoulders, for this special pallets with a mesh day, filled with top dressing with a layer of 10-12 cm from a fresh substrate, are laid out on the shoulder surface. Worms attracted by fresh food concentrate within pallets for 3-4 days. Pallets with worms are moved: to a newly prepared pile, to the workshop for the production of protein and vitamin feed additives, put up as fishing bait. Repeat this procedure 2-3 times and select from the shoulder up to 70% of adults. Raw vermicompost is cleaned of large ballast impurities. A part of the raw vermicompost along with the remaining earthworms, their cocoons and juvenile individuals is supplied to consumers. The resulting organic fertilizer gives rise to the restoration of the living matter of the soil and the inclusion of self-healing processes of soil fertility, the processes of humus formation. Also, products of even deeper processing are obtained from raw biohumus by the electrohydraulic method: liquid organic fertilizers and biological products to increase productivity and improve product quality in crop production, which are sold from 1 to 20 liters in polyethylene containers for sale. Spin is returned to the pile with worms for revision or brought to nearby farmland. The term for processing organic waste into vermicompost is 3-3.5 months. 600 kg of biohumus of 45-50% humidity and 10 kg of earthworms come out of 1 ton of substrate with a humidity of 60-70%. Biohumus corresponds to TU-9819-002-21080799-2002 and has the following indicators:

- dry matter content - not less than 45%

- organic matter content - not less than 60%

- content of humic substances - not less than 20%

- pH of the salt extract is 6.5-7.5;

- mass fraction of total nitrogen per dry matter not less than 0.7%

- mass fraction of potassium exchange for K ₂ O - 0.9%

- mass fraction of total phosphorus in terms of P ₂ About ₅ - 0.5%

- mass fraction of heavy metals on dry matter not more than their MPC for soils;

- bacteria of the Escherichia coli group no more than 0.01 titer / g;

- lack of eggs and larvae of helminths.

The proposed method allows you to quickly and without significant costs to dispose of organic waste, including litter, manure poultry farms in a highly effective environmentally friendly microbiological fertilizer vermicompost, to obtain a non-waste highly profitable, processing the entire volume of waste, organic farming.

Biohumus is a product of the vital activity of earthworms and associated microflora. It is a loose, finely granulated mass of black-brown color, odorless, with high air permeability and moisture capacity. It is used as an organic fertilizer for all types of crops, in forestry and floriculture, regeneration of the fertility of depleted and degraded soils, remediation of contaminated soils, allows to solve the problem of humus balance of soils. Fertilizer does not contain harmful impurities and does not have toxicity. Its use allows you to get environmentally friendly agricultural products. The main ecological property of humus is the destruction of pesticides and the binding of heavy metals and radionuclides in soil and water. When processing manure, litter by worms, pathogenic microflora is destroyed, and vermicompost is enriched with saprophytic microflora, useful for plants, enzymes, vitamins, biologically active substances that have antibiotic properties, inhibit the development of pathogenic microflora, suppress putrefactive processes, and disinfect the soil. Along with the processes of humification in decomposing organic substrates, mineralization occurs, accompanied by the transition of nutrients to mobile forms accessible to higher plants. 1 ton of biohumus contains ~ 45 kg of N, P, K and in nutritional value it is significantly superior to all other organic fertilizers. The introduction of vermicompost into the soil improves its physicochemical properties, water and air conditions, reduces the harmful effects of acidity and enhances the vital activity of soil microorganisms.

The use of vermicompost increases crop yields. Biohumus has a prolonged action and the effect of the application persists for several years, with the right application and agronomic control, it includes the processes of soil self-restoration.

Comparative analysis with the prototype showed that the proposed method differs from the known one in that solid organic waste is used in an amount of 25-30% of the volume of liquid and semi-liquid organic waste, when mixed in the substrate, vermicompost and river sand in the amount of 10 kg and 1 respectively kg per 1 ton of substrate, form collars with a width of 10-12 m, a height of 3-4 m, a length equal to the length of the vermin site, after settling with worms, the substrate is mixed every 15-18 days, at minus temperature and water is irrigated with the surface of the pile to create an ice crust, and the degree of readiness of the substrate for colonization by worms is carried out by temperature, humidity and pH of the substrate. Thus, the present invention meets the patentability criterion of "novelty."

Using the distinguishing features of the method allows to increase the productivity of the method by accelerating the fermentation process, using self-heating and more complete waste processing, using technological driveways for machines and people. Thus, the present invention meets the criterion of "inventive step".

The proposed method can be used in agriculture, its receipt is feasible and when used, its purpose is realized. Thus, the claimed invention meets the patentability criterion of "industrial applicability".

Claims (1)

1. A method of producing vermicompost, including mixing solid and liquid organic waste at the site, forming collars with technological drives between them, populating the substrate with earthworms of the species Eisenia foetida, after receiving the target product and biomass of the worms, repeat the recycling cycle, characterized in that the solid organic waste is used in an amount of 25-30% of the volume of liquid and semi-liquid organic waste; when mixed, biohumus and river sand are added to the substrate in an amount of 10 k respectively g and 1 kg per 1 ton of substrate, form collars with a width of 10-12 m, a height of 3-4 m, a length equal to the length of the vermilobase, and after settling with worms, the substrate is additionally mixed every 15-18 days, at minus air temperature, irrigation is carried out with water the surface of the shoulder to create an ice crust, and the degree of readiness of the substrate for colonization by worms is carried out according to the temperature, humidity and acidity of the substrate.