RU2115638C1 - Method of processing animal-origin organic waste into protein and biohumus - Google Patents

Abstract

FIELD: waste processing. SUBSTANCE: invention relates to vermicomposting process and may be successfully used on house-adjoining plots and at small farms. Waste is preliminarily mixed with other components: fowl droppings, manure, sugar production defecate, sapropel, phosphoric acid, ammonia, ashes, sand, phosphorites, rotten leaves, straw, sawdust, etc. taken in specified ratio and in specified sequence. Nutritive mixture obtained in the form of 2-20 mm granules is placed into composting vessel, into which worms and/or their case-worms are then added in amount 26-50 thousand per 1 sq.m. Composting is carried out continuously under hothouse effect and countercurrent conditions. Resultant biohumus is separated into case-worms and three fractions. One of them with particle size below 0.5 mm is used as fowl bedding to absorb droppings smell. The second one with particle size greater than 2 mm is returned into waste mixing step, and the third fraction (0.5-2 mm) is used as commercial fertilizer. Separated worm biomass is further used as feed protein. EFFECT: enhanced process efficiency. 12 cl, 2 tbl

Description

 The invention relates to agriculture, in particular to methods for processing various organic waste, mainly animal waste into organic fertilizers - vermicompost, using vermicomposting, and can be successfully used in home gardens and small farms.

 A known method of processing organic waste into vermicompost using earthworms, including the preparation of an organic substrate by carrying out a biothermal process in collars, processing the prepared substrate with worms, isolation and processing of vermicompost (RF patent 2039029, class C 05 F 3/00, 1995).

There is also known a method of producing vermicompost from food and leather industry waste products by composting in piles for 20-30 days with the introduction of worms in the amount of 1.5-2.0 thousand animals per 1 m ² . The resulting biohumus is separated from the worms, dried and ground (USSR author's certificate 1724658, class C 05 F 11/00, 1992).

 The disadvantages of the known methods are the seasonality of processing (only in the summer), the insufficiently high density of the introduced worms, which entails an increase in the time for processing, the need to use large areas, increased labor intensity when separating vermicompost from cocoons and worms, complexity and low efficiency when used in small installations, low yield of feed protein and vermicompost.

Closest to the technical nature of the invention is a method of disposal (processing) of organic waste, including animal origin, in vermicompost. The known method includes preparing a substrate by mixing components, one of which is animal waste - manure and bird droppings, introducing worms and / or their cocoons into it, laying the substrate in a container and composting at a humidity of 65 - 80%, followed by separation of the worms from the resulting vermicompost. The population density of the compost mass by worms is 15-25 thousand individuals per 1 m ² (RF patent 2057743, class C 05 F 3/06, publ. 10.04.96).

 The disadvantages of this method are the seasonality of processing, low density of worms in the substrate, the difficulty of obtaining humus of a given composition, difficulties in separating cocoons and worms from biohumus, the low efficiency and intensity of the processing process, the complexity of application in small farms, the low yield of fodder protein and biohumus, and consists of small amounts of components.

 The objective of the invention is to improve the quality and yield of vermicompost, providing the possibility of simultaneous production of feed protein, reducing processing time with continuity of the whole process, reducing processing costs and simplifying the processing method. The objective of the invention also includes improving the environmental situation of small cities, workers' settlements, villages, farms and private households by disposing of organic agricultural waste and non-deficient waste generated in other enterprises, where there is always the possibility of their effective use and processing into targeted, cheap products. beneficial use. Moreover, in the process of processing all these wastes receive highly effective organic fertilizer - biohumus of a given composition and fodder protein. Biohumus can be used to grow plants of any type, it increases the yield of crops, because it is a comprehensive, comprehensive fertilizer that reduces the effect of harmful chemicals - pesticides, radionuclides, heavy metals on the soil and the environment due to the content of organic substances in biohumus, which are good adsorbents of polluting components.

The objective of the invention is solved in that in a method for processing organic waste, including preparing a nutrient mixture by mixing the starting components, including animal waste, laying the nutrient mixture in a container, introducing worms and / or cocoons into the nutrient mixture, composting and the separation of the worms from the obtained vermicompost, as a nutrient mixture containing animal waste and components that carry nutrient and fertilizing functions, use the mixture in the form of granules 2 to 20 mm of the following composition, wt.%:
Bird droppings - 5 - 80
Fermented manure - 6 - 80
Defecate from sugar production - 2 - 18
Sapropel - 3 - 25
Phosphoric acid in terms of P ₂ O ₅ - 0.5 - 5
Ammonia - 0.2 - 2
Ash - 0.5 - 7
Sand, fraction 0.5 mm - 1-15
Phosphorites - 1 - 15
Overripe leaves, straw, sawdust - 1 - 20
Defecate from biological sewage treatment plants - 0.2 - 75
Composting of the nutrient mixture is carried out under the conditions of the greenhouse effect, in continuous mode by countercurrent contact of the mixture with the worms, and the obtained biohumus is divided into cocoons and three fractions with a particle size of less than 0.5 mm, more than 2 mm and 0.5 - 2.0 mm.

 The nutrient mixture is prepared by mixing in stages: first, components with pH≥7.5 (bird droppings, defecates, manure, sapropel and ash) are treated with phosphoric acid neutralized with ammonia to pH 2-5, water is added to T: W = 1: (1 , 5 - 3) and pH 6.5 - 7.5, after which neutral components (sand, phosphorites, leaves, straw, sawdust) are added to the pulp to a water content of 70 - 90% to obtain a nutrient mixture in the form of granules 2 - 20 mm

Worms-producers are introduced into the nutrient mixture, placed in a container for composting, in the amount of 26 - 50 thousand individuals per 1 m ² area; producer worms work 90 to 180 days, and the nutrient mixture is in contact with the worms for 14 to 21 days.

 To extract spent worms-producers, grass flour with a moisture content of 50 - 90% is used.

To create conditions for the greenhouse effect, the temperature of the liquid in the pallets under the composting tank is maintained at 1-6 ^o C above the temperature of the walls of the tank.

After separation of cocoons and worms from vermicompost, it is divided into three fractions:
the first with a particle size of less than 0.5 mm is used as a litter for poultry to absorb the smell of litter,
the second fraction with a particle size of more than 2 mm is returned to the primary mixing,
the third fraction with a particle size of 0.5-2 mm is used as fertilizer.

 It is necessary to use a fixed composition of the nutrient mixture. When replacing a nutrient mixture (changing the ratio of components) with a new one, it is necessary to pre-grow new worms-producers from the cocoons in the nutrient mixture of a new composition.

 The proposed method of processing organic waste into feed protein and vermicompost is as follows.

 Poultry manure, defecates, manure, sapropel and ash are loaded into a screw mixer, phosphoric acid neutralized with ammonia to pH 2-5 is added, T: W is adjusted to 1: (1.5-3) and pH 6.5-7.5 , after mixing, the mixture is transferred to a volume mixer, sand, phosphorites, leaves, straw, sawdust are added to a water content of 70 - 90% and continue to mix until the mixture turns into granules with a size of 2 - 20 mm, destroy the remaining ones and again granulate to a size of 2 to 20 mm.

 The mixture thus obtained is divided into two streams. The first stream with granules of 5-20 mm is loaded into a composting tank, in which the worms-producers eat the nutrient mixture for 14-21 days, laying cocoons every 5-7 days. The nutrient mixture in the form of granules allows to increase the yield of cocoons and caprolites per unit weight of the nutrient mixture. This is because when eating a nutrient mixture in the form of a monolith, the worms-producers make moves in it and eat it by 55 - 65%. Further eating is impossible, because the rest is the walls of the mink of the worms. When eating balls up to 20 mm, the worms-producers eat them from the outside, without penetrating into the ball. With an increase in granule size of more than 20 mm, the penetration of worms into the ball is observed, which reduces the yield of caprolites and cocoons per unit weight of the nutrient mixture.

 The application of the greenhouse effect conditions in the processing of continuous waste containing a composting tank eliminates the wall drying of the nutrient mixture, which allows producer worms to eat the nutrient mixture throughout the volume of the container.

 The use of a nutrient mixture of the specified composition in the form of granules of a certain size and the conditions of the greenhouse effect can increase the number of caprolites in vermicompost to 95%, and without these parameters only to 37%. In the same proportions, the biomass yield of worms producing feed protein per unit of nutrient mixture increases.

 The nutrient mixture with granules from 2 to 5 mm is loaded together with cocoons into the capacity of the device providing greenhouse conditions. After 7-12 days. worms are extracted from cocoons, and after eating the first portions of the nutrient mixture, their body tunes in only to this nutrient mixture. Replacing the composition of the nutrient mixture leads to a decrease in the productivity of the worms and possibly their death, therefore, when changing the composition of the mixture, it is necessary to grow new worms.

 As the worms eat the nutrient mixture, it is added 5-7 cm each. When the container is filled, the worms are removed by known methods, for example, by installing a box with a mesh bottom filled with the nutrient mixture on the container. The worms are moved to a box with the nutrient mixture, the device's capacity is freed from vermicompost, and the worms return to it. After 120 days. worms reach adulthood and become producer worms and / or replace worms that have expired in a continuous device.

 When growing worms-producers to create a greenhouse effect and year-round cultivation of worms-producers, the devices used are installed in a room with a heated floor, for example, in greenhouses, where 90% of the areas of the heated floor are free when growing cucumbers and tomatoes.

 The dependence of the influence of composting conditions on the output of caprolites from a unit of nutrient mixture (in percent) is shown in Table. one.

 The dependence of the effect of caprolite yield on composting conditions over time using irrigation is presented in Table. 2.

 Separate work of producer worms and their cultivation from cocoons, the use of a nutrient mixture in the form of granules of different sizes for different age of the worms, and the use of the greenhouse effect make it possible to process the initial nutrient mixture into fodder protein and vermicompost with ≈100% biological potential. Nutrient mixture of a certain composition and a special technology for its production provide increased intensity of processing of organic waste, low cost of vermicompost.

 The proposed method allows to process organic waste of animal and industrial origin almost completely, which solves not only the environmental problem, but also provides a very effective increase in yield while cleaning the soil from its polluting components.

Claims (12)

1. A method of processing organic waste of animal origin into feed protein and vermicompost, including the preparation of a nutrient mixture by mixing animal waste in the form of manure and bird droppings, as well as components having a nutritional and fertilizing function, laying the nutrient mixture in a composting tank, adding nutrient mixture of worms and / or their cocoons, composting, separation of worms from the obtained humus, characterized in that as components having a nutritious and fertilizing fu In order to prepare the nutrient mixture, the defecate from sugar production, sapropel, phosphoric acid, ammonia, ash, sand fraction of 0.5 mm, phosphorites, overripe leaves, straw, sawdust and defecate from biological sewage treatment plants are used in the following ratio of components, wt. %:
Bird droppings - 5 - 80
Manure - 6 - 80
Defecate from sugar production - 2 - 18
Sapropel - 3 - 25
Phosphoric acid in terms of P ₂ O ₅ - 0.5 - 5.0
Ammonia - 0.2 - 2.0
Ash - 0.5 - 7.0
Sand fraction 0.5 mm - 1 - 15
Phosphorites - 1 - 15
Overripe leaves, straw, sawdust - 1 - 20
Defecate from biological sewage treatment plants - 0.2 - 75
moreover, the nutrient mixture for composting is used in the form of granules of 2 to 20 mm, composting is carried out under conditions of the greenhouse effect in a continuous countercurrent mode, and the resulting biohumus after separation of the worms is divided into cocoons and three fractions with a particle size of less than 0.5; 0.5 - 2 and more than 2 mm.  2. The method according to p. 1, characterized in that the mixing of the components of the nutrient mixture is carried out in stages: first, components with a pH of 7.5 - bird droppings, defecates, manure, sapropel and ash are mixed with phosphoric acid neutralized with ammonia to pH 2-5, and then neutral components are added - sand, phosphorites, overripe leaves, straw, sawdust - with the subsequent formation of a granular product with a particle size of 2 - 20 mm and a moisture content of 70 - 90%. 3. The method according to claim 1 or 2, characterized in that the worms contribute in the amount of 26 to 50 thousand individuals per 1 m ^{2 of the} nutrient mixture.  4. The method according to any one of claims 1 to 3, characterized in that in the process of composting the nutrient mixture is in contact with the worms for 14 to 21 days.  5. The method according to any one of claims 1 to 3, characterized in that in the process of composting, the worms are in the nutrient mixture for 90-180 days.  6. The method according to any one of claims 1 to 5, characterized in that for the separation of the worms from the biohumus obtained, grass meal with a moisture content of 50 - 90% is used. 7. The method according to any one of claims 1 to 6, characterized in that to create the greenhouse effect, the temperature of the liquid in the pallets under the composting tank is maintained at 1-6 ^° C above the temperature of the walls of the tank.  8. The method according to any one of claims 1 to 7, characterized in that the biohumus fraction with a particle size of less than 0.5 mm is used as a litter for keeping poultry to absorb the smell of droppings.  9. The method according to any one of claims 1 to 7, characterized in that the vermicompost fraction with a particle size of more than 2 mm is returned to the waste mixture.  10. The method according to any one of claims 1 to 7, characterized in that the biohumus fraction with a particle size of 0.5 to 2 mm is used as a commercial product as fertilizer.  11. The method according to any one of claim 1 or 2, characterized in that for pre-growing from cocoons of worms, a nutrient mixture in the form of granules with a size of 2 to 5 mm is used.  12. The method according to any one of claims 1 to 7, characterized in that the worms separated from the vermicompost are used as live feed protein or as feed protein flour in animal husbandry, poultry farming and fishing.

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