RU2163586C1 - Method of processing plant raw and animal vital activity products based on biotic turnover - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: invention relates to biological treatment of plant production processing, bioconversion of agriculture waste and products of vital activity of animals and to human survival also. Method involves plant raw grinding, its mixing with products of animal vital activity, additional addition of plant raw subjected for the preliminary microbiological treatment, fermentation of mixture, addition of invertebrate larvae, their culturing and the following separation. After fermentation the treated mixture is separated for large and small fractions. The large fraction is ground and the small one is separated for two parts one of that is mixed with the ground large fraction. Then products of animal vital activity are added additionally and fed for larvae culturing and another fraction is used as the food addition. Separated larvae are used as biologically active addition for humans and animals and remained substrate is used for biofertilizer preparing and fungi culturing. Method ensures to utilize organic waste and obtain low-priced fodder and fertilizer. EFFECT: improved method of processing, decreased cost of products. 6 cl, 1 ex

Description

 The invention relates to the biological processing of plant products and bioconversion of agricultural waste and animal waste products, as well as human life support.

 There are various methods of disposal of plant and agricultural waste, in particular manure and poultry manure: methane digestion for biogas production, long-term composting of manure or manure for organic fertilizers, mixing with various fillers for the same purpose, chemical processing of manure. Apply litter processing by insects and worms [1].

 However, none of the known methods solves the problem of their complex processing based on biotic turnover, none of them solve the problem of food production.

 Closest to the technical nature of the claimed is a method of processing pig manure into a feed additive and fertilizer, which involves grinding plant material, mixing it with animal waste products, fermenting the mixture, introducing invertebrate larvae, in particular flies, growing them and subsequent separation. As a result of processing get a feed additive and fertilizer [2].

 In the known method, plant materials are used as a filler to achieve optimal substrate moisture. The content of plant materials in the substrate is only 5-10 wt.%.

 The technical essence of the invention is to create a waste-free technology for processing plant materials and animal waste products based on biotic turnover.

 Biotic circulation is the circulation of nutrients, structured water, symbiont microorganisms, as well as energy and information on trophic chains [3].

 Wood pulp is still not used by humans as a food product or as pet food. Recent discoveries of Russian science allow us to change this situation.

 Any plant products can be used by humans as the basis of an autonomous biotic turnover.

 In wildlife, wood is used as feed for many insects and microorganisms. Insects decompose cellulose using a complex of cellulase enzymes, which produce symbiotic microscopic fungi and symbiotic bacteria. Herbivorous animals break down cellulose with the help of their symbiont microorganisms - microscopic fungi and bacteria that produce a complex of enzymes - cellulases.

 When cellulose is decomposed, glucose is obtained, which is used by microorganisms as energy for fixing atmospheric nitrogen.

 Of great interest is the use of waste products of insects that feed on stem wood, for example, from a winged or lepidopteran order, assimilating cellulose using symbiotic digestion.

 When building his autonomous biotic circulation, a person can use both the insects themselves and their "technology". At the same time, it is worth noting the multivariance of biotic turnover chains.

 The biotic turnover chains are based on: carbon fixation by plants and algae (with the release of oxygen consumed by animals), production of carbohydrates, polycarbohydrates - cellulose and lignin, assimilation of crop products by animals, including enzymatic hydrolysis of cellulose and lignin, fixation of atmospheric nitrogen and oxygen, synthesis of protein compounds with the release of carbon dioxide consumed by plants. Partly the fixation of atmospheric nitrogen is also carried out by plants, in particular legumes, as well as the fixation of carbon is made partially by animals using various pigments, including chlorophyll.

 The raw material for enzymatic hydrolysis can be any plant material: woodworking waste, straw, weeds and other plants not used for food.

 The cultivation of fast-growing trees, primarily poplars, is intensively engaged throughout the world. In Russia on plantations, the annual growth of poplar is 30 tons of products per hectare, based on absolutely dry matter. This is at least an order of magnitude higher than the yield of other crop products. Moreover, such a “crop” on poplar plantations can be obtained in the first year of planting.

 Feeds, manure, litter, activated sludge from sewage treatment plants are also a raw material resource in biotic circulation.

 Thus, plant growing and animal husbandry are becoming links in a single technological chain.

 In the known method of processing plant materials and animal waste products, which involves grinding plant materials, mixing them with animal products, fermenting the mixture, introducing invertebrate larvae, growing them and subsequent separation, according to the invention, the processing is carried out on the basis of biotic turnover, for this, in crushed plant raw materials are additionally contributed by plant materials that have undergone preliminary microbiological processing, sources of carbohydrates and proteins, cellulose-destroying microorganisms, and after fermentation, the treated mixture is divided into coarse and fine fractions, the coarse fraction is crushed, the small fraction is divided into two parts, one of which is mixed with the crushed coarse fraction, animal waste products are added and sent to grow larvae, and the other used as a feed additive, separated larvae are used as a biologically active additive for humans and animals, and the remaining substrate is used to obtain oudobreniya and mushroom cultivation.

 The method is as follows (see drawing).

 Plant materials, such as poplar, aspen, and other trees, are crushed and fed to a bioreactor using a conveyor. In the simplest case, a bioreactor is a concrete trench with underground channels for draining water and supplying heated air. Vegetable raw materials that have previously undergone microbiological treatment are sprinkled on top of a conveyor with fresh raw materials from above (see example). When the crushed plant material is spilled into the bioreactor from a height of more than one meter, it is mixed. The density of the poured plant material should ensure the passage of liquid components through it, i.e. do not exceed 150 kg per cubic meter. Then the mixture is poured with liquid excrement or a solution containing cellulose-destroying microorganisms (natural or man-made communities) and sources of carbohydrates and protein. Easily digestible sources of carbohydrates and protein can be, for example, leaves and shoots of plants, products from the processing of sewage and liquid excrement using activated sludge, algae and bacteria in aeration tanks and digesters. After cleaning, the water is again fed to wash off feces, manure or litter.

The surface of the shredded wood is an ideal place to live polycolony of microorganisms. The fermentation process begins at the initial temperature of the processed substrate of 15 ± 5 ^o C. The humidity of the initial processed mixture ranges from 65 ± 25%. After a few days (depending on the initial moisture content of the substrate), the temperature of the fermented mixture rises to 35-60 ^o C. At the end of the fermentation process, which is 5-7 days with the trench method and up to 2 days when using a rotating drum, the substrate is fed to the separator, where the fermentation mixture is divided into coarse and fine fractions. The coarse fraction is crushed in a hammer mill, the small fraction is divided into two parts, one of which is mixed with the crushed coarse fraction, the mixture is brought to a semi-liquid state (to a moisture content of 70-82%), for which water, or liquid droppings or manure are added. The substrate is poured into containers with a layer of up to 8 cm, heated to a temperature of 20-35 ^o C and inoculated with invertebrate larvae, for example, flies. In the process of growing larvae, it is necessary to monitor the timely removal of the released gases. Larvae grown to the pre-pupal stage are separated from the substrate and used as a biologically active additive for humans and animals, and the remaining substrate is used to obtain biofertilizer and grow mushrooms. The maximum productivity of insects can only be obtained by creating conditions for laying eggs and growing larvae close to natural. As a result of processing the substrate by larvae of flies from 1 ton of substrate, up to 150 kg of larvae and up to 500 kg of biofertilizer are obtained.

 In larvae used as a feed additive for juvenile fish, piglets, chickens, etc. it is important to preserve microorganisms and water, because the symbiotic microorganisms of larvae of flies become the basis of the microflora of farmed animals, and water already has the structure that organisms need, so the body does not need to spend energy on structuring water.

 The amount of pathogenic microflora after processing the substrates by larvae of flies decreases by an order of magnitude and reaches a safe level. The desire to completely destroy pathogenic microorganisms leads to the fact that at the same time symbiotic microorganisms are destroyed. In addition, sterile food is harmful because the presence of pathogenic microorganisms stimulates the immune system. It is only important that their number does not exceed a certain safe level.

 In addition to the complex biotic turnover described above, it is possible to organize “divided biotic cycles”. For example, after processing sawdust with wood insects with symbiotic digestion, a substrate containing their waste products with a large number of cellulose-destroying microorganisms can be poured into a bio drum, sawdust can be added, moistened, and as a result of microbiological processing, food will be obtained immediately.

 In addition, with an established system for the removal of manure, litter, etc. with optimum humidity up to 80%, they can be processed using fly larvae without the addition of filler.

 An example implementation of the claimed method.

The processing process is carried out in a rotating fermenter. In the crushed vegetable raw materials in the form of poplar sawdust, as a microbiological cellulose-depleting additive, wood waste processed by wood insects assimilating wood using symbiont digestion (10-20 kg per 1 ton of processed plant material) is added, chicken droppings up to 70% humidity, and easily digestible by microorganisms glucose-containing raw materials, for example, algae in the amount of 1-2% of the weight of the resulting mixture. The fermentation process is carried out for 1-2 days. The resulting substrate is separated. A large fraction is partially used as a microbiological additive in the processing of the next batch of plant materials, the other part is crushed in a hammer mill. Part of the fine fraction is used as fertilizer and feed additive, another part is sent for processing by larvae of flies. To do this, the substrate is brought to 80% moisture, placed in containers with a layer of up to 8 cm, heated to 28 ^o -32 ^o and populate the larvae of flies. Periodically remove the gases released during the life of the larvae. After 4-5 days, the larvae in the pre-pupal stage are separated from the substrate.

 Larvae of flies are used as biologically active additives for humans and animals, as raw materials for the production of probitics and other drugs, for livestock feed, and the substrate remaining after separation of larvae is used to obtain biofertilizer and soil component in greenhouses for mushroom growing or plant growing, as well as growing cuttings of aspen and poplar. Biofertilizers are also used on open plantations of aspen and poplar. At the same time, the annual increase in aspen and poplar can be 80 tons. This amount is enough to get 10 tons of meat - pork, chicken, etc.

 The method allows to utilize organic waste of any humidity. Since 90% of pollution of rivers and groundwater is associated with agricultural production, the introduction of the method will allow to clean the inland water from the flow of manure and litter, will not only provide cheap feed and food, but will also greatly change the principles of agricultural production. It is possible that insects such as termites, locusts, aphids, or other “pests” can be used to process phytomass. It is important to choose an insect of high bio-productivity that uses this substrate in its natural life.

Sources of information
1. RF patent N 2055823, 03/10/96, cl. S 05 M 1/08.

 2. RF patent N 2050138, 12.20.95, cl. A 23 K 1/00 (prototype).

 3. Shapiro V.A. The drama of life. M .: Veles, 1999.

Claims (6)

 1. A method of processing plant materials and animal waste products, which involves grinding plant materials, mixing it with animal products, fermenting the mixture, introducing invertebrate larvae, growing them and subsequent separation, characterized in that the processing is carried out on the basis of biotic turnover, for this shredded plant material is additionally contributed by plant material that has undergone preliminary microbiological treatment, sources of carbohydrates and protein, last In the case of fermentation, the processed mixture is divided into coarse and fine fractions, the coarse fraction is crushed, the fine fraction is divided into two parts, one of which is mixed with the crushed coarse fraction, animal waste products are added and sent to grow larvae, and the other is used as a feed additive, separated larvae are used as biologically active additives for humans and animals, and the remaining substrate is used to obtain biofertilizer and grow mushrooms.  2. The method according to claim 1, characterized in that the entire biomass of any rapidly growing plants, including wood, such as poplar and aspen, is used as plant material.  3. The method according to claim 1, characterized in that the plant material, additionally introduced into the crushed plant material, is subjected to preliminary microbiological treatment using insects with symbiotic digestion, eating wood.  4. The method according to claim 1, characterized in that before fermentation, cellulose-destroying microorganisms are additionally added to the mixture.  5. The method according to claim 1, characterized in that the sources of carbohydrates and protein are obtained in the biological processing of sewage.  6. The method according to claim 4, characterized in that the cellulose-destroying microorganisms contribute in the form of waste products of insects with symbiotic digestion.