RU2734522C1 - Method for growing fly larvae and processing organic wastes - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the agriculture. Method for processing organic wastes using fly larvae comprises growing Hermetia illucens fly larvae on a nutrient substrate with separation of biomass of larvae from biohumus, wherein eggs of Hermetia illucens are placed in substrate of expanded vermiculite in amount of 50 g of eggs / 50 g of substrate, then produced mixture is kept for 3 days, on 4th day, the larvae, together with the vermiculite, are placed in a container with a preliminarily moistened feedstock of 60–70 % moisture in amount of 10 kg, on 9th day, the obtained larvae, together with the processed mixed fodder, are divided into equal 50 parts, adding 1,000 g of prepared substrate of organic wastes, maintaining 60–70 % moisture of obtained substrate, during following 9 days, pre-prepared substrate of organic wastes is added to this reservoir in amount of 1 kg, maintaining moisture content of 60–70 %.

EFFECT: invention makes it possible to reduce losses of larvae from negative effect of environment at I and II stages of development, higher efficiency of larval growth of stage II-III and more efficient processing of a wide range of organic wastes into protein-lipid concentrates and organic fertilizer.

3 cl

Description

The field of technology.

The invention relates to the field of ecology, which allows the use of waste-free disposal of large volumes of organic waste, with the simultaneous production of a line of finished products for various sectors of the economy and agriculture, allowing to process large volumes of organic waste from agricultural enterprises into protein-lipid concentrates and organic fertilizer for agricultural enterprises.

State of the art.

There is a known method of processing livestock and poultry manure using larvae of hermetia illucens and potosia brevitarsis [CN No. 106070067 A]. The technology provides for an areal processing method and the use of Hermetia illucens fly larvae and Potosia brevitaris beetle larvae. The disadvantage of this method is a multistage technology with the addition of a large number of potosia brevitaris beetle larvae, about 30-40 kg. larvae per 1 ton of processed poultry manure, which leads to an increase in the cost of the processing method. The technology provides for the presence of large areas, which complicates the possibility of industrial processing of large volumes of poultry manure.

The closest analogue of the proposed method is a method for processing organic waste by the larvae of Hermetia illucens flies to obtain animal protein and vermicompost [RF patent No. 2654220], which consists in the fact that eggs of Hermetia illucens flies are obtained, then the eggs are incubated and the larvae are grown on a nutrient medium. Larvae of II-III instar are separated and populated with them in a substrate from organic waste with a density of 2.5-5.0 ind./cm. Bioconversion of the substrate is carried out for 7-14 days, the biomass of the larvae is separated from the obtained vermicompost. The invention makes it possible to accurately calculate the required number of larvae to colonize a certain volume of fodder substrate, to reduce the area of the broodstock, to quickly utilize a wide spectrum of organic waste into a highly efficient environmentally friendly fertilizer and to obtain a high-quality protein fodder product.

The disadvantages of this method include the need to separate the larvae when they reach II-III age, the laborious process of calculating the required number of larvae for processing the substrate, especially in large industrial volumes. The declared possibility of reducing the area of the mother room, reflected in this method, seems unlikely. A decrease in the area will lead to an inevitable decrease in the volume of hatching eggs and to a decrease in the volume of processing of organic waste.

Disclosure of the essence of the invention.

The technical result, which the present invention is aimed at, is to reduce the loss of larvae from the negative impact of the environment at stages I and II, increase the efficiency of rearing larvae of stages II-III of development, simplify the technology for calculating the required number of larvae for processing one unit of organic waste (grams / kg), and more efficient processing of a wide range of organic waste into protein-lipid concentrates and organic fertilizer.

The technical result is achieved due to the fact that freshly harvested eggs of the fly Hermetia illucens at the rate of 50 grams are placed in a solution of 50 grams of expanded vermiculite.

The container with the resulting mixture of eggs and vermiculite is closed with a lid made of porous material and left in a warm room for 3 days.

Expanded vermiculite creates ideal conditions for the incubation of Hermetia illucens eggs and, when maintained at a given temperature and humidity regime, ensures the maximum survival of Hermetia illucens eggs.

Strict adherence to temperature and humidity conditions allows the survival rate of larvae to reach 92%. In comparison with the same conditions of incubation in Petri dishes, the survival rate did not exceed 85%. In this case, placing eggs in a solution of expanded vermiculite made it possible to increase the survival rate of larvae by 7%. When studying the effect of changing the temperature regime to a level of 18-26 ° C, while maintaining humidity within 75-77%, it turned out that this leads to a slowdown in the growth rate of larvae and a decrease in survival to 74%.

The incubated larvae in a mixture of vermiculite are placed on a nutrient substrate consisting of pre-soaked feed. The larvae are reared on this substrate for 5 days and placed in portions in trays for further loading of the processed organic waste substrate into them.

In the processing department, a pre-prepared organic waste substrate is loaded into trays with larvae, in portions, on a daily basis, for subsequent processing.

At the end of processing, the trays with the processed substrate are sent to a vibrating sieve to separate the larvae from the zoohumus obtained during the processing.

The resulting larvae are used to produce a line of finished products.

Zoohumus is dried and used as an organic fertilizer.

Implementation of the invention.

In the proposed method, freshly harvested Hermetia illucens eggs are placed in a container with a mixture of expanded vermiculite at the rate of 50 g eggs / 50 g vermiculite.

The container is closed with a lid with a hole covered with a porous material.

The resulting mixture of eggs and expanded vermiculite is kept for 3 days. During this time, it is required to maintain an ambient temperature of 28-31 ° C and an air humidity of 75-77%.

At the end of the incubation period, the larva has formed digestive organs, and on the 4th day, the larva, together with vermiculite, are placed in a container with pre-soaked feed in a volume of 10 kg, humidity 60% -70%, temperature 28-30 ° C.

At this point, it is important to control the temperature and humidity levels. The larva at this age is especially susceptible to moisture levels. An increase in humidity of more than 80% leads to the death of a large number of larvae. This is due to the fact that with an increase in humidity, heat exchange is disturbed, which leads to overheating of the larvae due to insufficient evaporation of moisture and a violation of heat transfer.

Any substrate rich in proteins, fats and carbohydrates can be used for growing the larva. Growing larvae on a pre-soaked compound feed is convenient from a practical point of view, since the mixture is rich in fiber and has a balanced amino acid composition and low cost. The same results were shown by experiments of growing larvae on crushed food waste while maintaining the temperature and humidity regime.

Within five days, the feed is processed and becomes a homogeneous crumbly mass mixed with grown larvae at a humidity of 35% -45%. The weight of the processed feed with the larva at this moment is about 5-7 kg. Loose mixture lends itself well to weight distribution.

The resulting mass is evenly mixed and divided into equal 50 parts. When conducting experiments, the weighted average calibration of one fiftieth part gives an average of 120-126 grams. mixtures of vermiculite with a larva. One fifth of the mixture mixed with the larva is placed in a tray, into which 1000 gr is added. pre-prepared substrate of organic waste for further processing, maintaining 60-70% moisture content of the resulting substrate. In contrast to other, laborious methods of calculating the number of larvae required for the complete processing of an organic substrate, we used the method of proportional division. It was determined from the experiments that the optimal number of larvae required for the full processing of one kilogram of organic waste is one thousand pieces. Hermetia illucens eggs weighing fifty grams have about 556 thousand eggs. Taking into account the losses at the end of the incubation period in the vermiculite solution, the number of living larvae amounted to more than 500 thousand individuals. For processing an organic substrate with a volume of 10 kg., Per one tray, ten thousand live larvae are required, i.e. one fiftieth from 50 gr. eggs.

Before processing, the substrate of organic waste is preliminarily crushed and thoroughly mixed with the addition or removal of excess water until the moisture content of the substrate reaches 60-70%. The use of crushed food waste as a substrate, without the use of additional ingredients, gives the maximum increase in the biomass of the larvae. Waste from vegetable stores, organic waste from the food and processing industries are suitable as a substrate for processing. Feather-free chicken manure with the addition of 10% bran, or with the addition of 5% crushed malt sprouts can also be used as a substrate.

Over the next 9 days, a crushed organic waste substrate is added to this container daily in a volume of 1000 g at a time. The moisture content of the substrate should be 60-70%. The portionwise addition is carried out in total, with a total weight of up to 10 kg. At this stage, it is important to control the temperature level in the tray. At an ambient temperature of 20-26 ° C, the temperature of the substrate in the tray can reach 40 ° C or more, which can have a detrimental effect on the survival of the larva. The optimum air temperature for processing the substrate, based on the experiments carried out, is 22 ° C.

Within 10 days, the bioconversion of the organic substrate ends and on the 11th day the larva is separated on a vibrating sieve.

The method of increasing the efficiency of rearing stage II-III larvae consists in the portionwise addition of the substrate as the conversion activity of the larvae increases. At the initial stage of organic bioconversion, the larva has a small body weight and is capable of bioconversion of relatively small volumes of organic substrate. The proportional addition of organic processing medium creates optimal conditions for bioconversion and larval growth. Based on the experiments carried out, it was found that the simultaneous placement of the entire volume of organic waste substrate (about 10 kg per tray) dramatically slows down the process of bioconversion and growth of the larvae mass. The height of the substrate placed in the tray reaches 8-10 cm.Experiments have shown that the larva processes the substrate at a depth of no more than 5-6 cm, as a rule. In the lower layer of the organic substrate, fermentation and decay processes begin to develop, which makes the process of bioconversion of the lower layers impossible without forced aeration and mixing of the substrate layers. In this case, with additional mixing of the substrate layers, the bioconversion process increased from 10 to 16 days.

If the stated conditions are met, on the 11th day, the larva is separated from the processed substrate on a drum or vibrating sieve. Part of the resulting live larva is used for feed in the fish and poultry industries. Part of the live larva is sent for drying in a microwave or freeze dryer. With further grinding of the dried larva, a protein-lipid concentrate (BLK) is obtained. Feed additive with unique biochemical characteristics. It is used in the fish farming and livestock and poultry industries.

The rest of the living larva is sent to reproduce the fly population.

The resulting zoohumus is dried, packaged and used as an organic fertilizer.

Claims (3)

1. A method of processing organic waste with the help of fly larvae, including growing the larvae of Hermetia illucens flies on a nutrient substrate with the separation of the biomass of the larvae from biohumus, characterized in that Hermetia illucens eggs are placed in a substrate of expanded vermiculite at the rate of 50 g eggs / 50 g of substrate, then withstand the resulting mixture for 3 days, on the 4th day the larvae, together with vermiculite, are placed in a container with pre-soaked mixed feed of 60-70% moisture in a volume of 10 kg, on the 9th day, the resulting larvae together with the processed feed are divided into equal 50 parts, 1000 g of previously prepared organic waste substrate, maintaining 60-70% moisture content of the resulting substrate, over the next 9 days, a previously prepared organic waste substrate in a volume of 1 kg is added daily to this container, maintaining a moisture content of 60-70%. 2. The method according to claim. 1, characterized in that as a substrate for organic waste is used chicken droppings free of feathers with the addition of 10% bran. 3. The method according to claim. 1, characterized in that as a substrate for organic waste is used chicken droppings free of feathers with the addition of 5% of crushed malt sprouts.