RU2774905C1 - Method for continuous disposal of liquid fraction of cattle manure - Google Patents

Abstract

FIELD: melioration.

SUBSTANCE: invention relates to the field of melioration and protection of land and water resources and can be used for year-round and continuous utilization of the liquid fraction of manure to improve soil fertility by sprinkling. In the method for continuous utilization of the liquid fraction of cattle manure, which includes obtaining the liquid fraction of manure and its aerobic treatment in bioreactors, according to the invention, manure is filtered from garbage through sieves with meshes of 2×2 cm or 5×5 cm, depending on the contamination of the manure, then it is brought to a moisture content of 88-92% by adding water, homogenized and the manure is separated to separate it into a solid fraction and a liquid one, which is disinfected and sent by gravity to bioreactors for aerobic treatment. After aeration, the liquid fraction of manure is mixed with irrigation water in a ratio of 1:10 and sprinkling is carried out. To ensure continuous disposal of the liquid manure fraction, at least two bioreactors are used, which are alternately filled with the liquid fraction and biofermented for 4-6 months.

EFFECT: invention provides a simplification of waste processing processes in order to obtain a liquid fraction for disposal by sprinkling and the possibility of performing continuous processing of liquid waste for year-round disposal of fertile soils by sprinkling to save their land and water resources.

1 cl, 1 dwg

Description

The invention relates to the field of melioration and protection of land and water resources, and can be used for year-round and continuous utilization of the liquid fraction of manure to improve soil fertility by sprinkling.

From the prior art, a method is known for the disposal of waste from pig-breeding effluents, in which the waste from pig-breeding effluents is pressed to separate into solid and liquid fractions, they are delmiguized, then the liquid fraction is sent to the accumulator, where it is diluted with water in a ratio of 1:10 and transported to agricultural fields for irrigation, RF patent No. 2528024, class. C05F 5/00, 2014).

A known method of recycling the liquid fraction of manure waste from pig farms, including the separation of manure, the introduction of a chemical reagent into the liquid fraction of manure, mixing the mixture, and in order to utilize the liquid fraction of manure waste from pig farms, reduce the concentration of pollutants of organic and inorganic nature, an aqueous solution of sodium hypochlorite is introduced in a concentration according to active chlorine, equal to 185 g/l, equivalent to the sum of the concentration of organic components, after which carbonic acid is added until the neutral acidity of the medium is reached, and then the treated waste water is mixed with river water in a ratio of 1:10 and discharged into a river reservoir (patent RF No. 2628437, class C02F 3/00, 2017).

Also known is a technical solution in which the liquid fraction of manure is obtained and its aerobic treatment in bioreactors (see RF patent No. 2600996, class C02F 11/02, 2016 - prototype). A common disadvantage of the known technical solutions is the complex processes of waste processing to obtain a liquid fraction for disposal by sprinkling, in addition, it is not possible to perform continuous processing of liquid waste for year-round disposal by sprinkling fields when growing crops.

EFFECT: simplification of waste processing processes to obtain a liquid fraction for disposal by sprinkling and providing the ability to perform continuous processing of liquid waste for year-round disposal of fertile soils by sprinkling to preserve their land and water resources.

The technical result is achieved by the fact that in the method of continuous utilization of the liquid fraction of cattle manure, including the production of the liquid fraction of manure and its aerobic treatment in bioreactors, according to the invention, manure is filtered from garbage through sieves with cells measuring 2×2 cm or 5×5 cm, in depending on the pollution of the manure, then it is brought to a moisture content of 88-92% by adding water, homogenized and the manure is separated to separate it into a solid fraction and a liquid one, which is disinfected and sent by gravity to bioreactors for aerobic treatment, then after aeration, the liquid manure fraction is mixed with irrigation water in a ratio of 1:10 and sprinkling is carried out, while at least two bioreactors are used to ensure continuous utilization of the liquid manure fraction, which are alternately filled with a liquid fraction and carry out its biofermentation for 4-6 months.

The novelty of the claimed method lies in the fact that due to the features of the manure treatment technology, namely the use of several bioreactors for aeration of the pre-treated liquid fraction of manure, which after the bioreactors is dosed into the mixer for mixing with irrigation water for subsequent sprinkling, simplification of waste processing processes for obtaining a liquid fraction for disposal by sprinkling and the ability to perform continuous processing of liquid waste for year-round disposal of fertile soils by sprinkling to save their land and water resources.

According to the patent and scientific and technical literature, a similar set of features has not been found that ensures the achievement of a technical result, which makes it possible to judge the inventive step of the proposal.

Since the claimed method of continuous utilization of the liquid fraction of cattle manure is widely used in the farms of the Krasnodar Territory, it can be argued that it meets the criterion of "industrial applicability".

The essence of the invention is illustrated by the drawing, where in Fig. 1 shows a block diagram of a system for implementing a method for the continuous disposal of a liquid fraction of cattle manure.

The system for implementing the method of continuous utilization of the liquid fraction of cattle manure by sprinkling has elements with the following positions:

1 - manure accumulator; 2 - filter sieves; 3 - quarantine sites; 4 - container for moistening manure; 5 - receiving container; 6 - fecal pump with a homogenizer; 7 - screw separator; 8 - quarantine tank for the liquid fraction; 9 - bioreactors; 10 - blowers with aerators; 11 - injectors for dosing the liquid fraction; 12 - mixer for mixing the liquid fraction with irrigation water; 13 - source of irrigation water; 14 - sprinkling machines; 15 - irrigation system.

Manure accumulator 1 has channels (not shown in Fig. 1) with a slope of 5-10°, such a slope ensures slow gravity flow of manure towards filter sieves 2, which have cells from 2 × 2 cm or 5 × 5 cm. Sieves 2 with cells 2×2 cm is used to clean manure, which does not have large solid inclusions and, accordingly, 2 sieves with 5×5 cm cells for manure with large debris. For disinfection of manure, quarantine sites 3 were used, if it has pathogenic microflora. The cleared manure from solid inclusions is directed along the channel (not shown in Fig. 1) under a slope of 5-10° by gravity into tank 4, where the manure is moistened with water to a moisture content of 88-92% to prepare for homogenization if the manure moisture content is less or more than the set humidity, then homogenization will not be of high quality. Further, the moistened manure through the channel (not shown in Fig. 1) with a slope of 5-10° enters by gravity into the receiving tank 5 with a homogenizer and a fecal pump 6, which supplies the moistened manure to the screw separator 7 for additional cleaning from large solid inclusions in the manure, separating its solid and liquid fractions. A quarantine tank 8 is installed behind the separator for disinfection of the liquid fraction, which is supplied through a pipeline network consisting of gravity pipes (not shown in Fig. 1) to bioreactors 9, while the use of two or more bioreactors is envisaged. Each bioreactor 9 has blowers 10 with aerators that supply air under the level of the liquid manure fraction, ensuring its aeration. From the bioreactors 9, the liquid manure fraction through the injectors 11 is metered into the mixer 12 for mixing with irrigation water. The source of irrigation water 13 is connected through pipelines (not shown in Fig. 1) with the inputs of the receiving tank 5 with a homogenizer and a fecal pump 6 and a mixer 12 of irrigation water with a liquid manure fraction, which is also connected through a pipeline with sprinkling machines 14 for irrigation system 15.

The method of continuous utilization of the liquid fraction of cattle manure is carried out as follows

Animal waste in the form of manure is accumulated in manure storage 1 (Fig. 1), where it is cleaned from various inclusions in the form of solid particles and wool fibers by filtration on sieves 2, where the allowable mesh size is set, which determines the quality of further processing of manure. The purified manure enters tank 4, if the manure contains pathogenic microflora, then it is sent to quarantine site 3. In tank 4, the manure is brought to a moisture content of 88-92% with water from source 13, which allows the manure to turn into a polydisperse system and ensure its movement along the slope in side of the tank 5, where homogenization is performed by a fecal pump 6, the homogenized manure is fed to the screw separator 7, which separates the polydisperse system into solid and liquid fractions. The solid fraction goes for further processing, and the liquid fraction is fed into the quarantine tank 8 and from there it is directed by gravity through pipelines to the bioreactors 9, when pathogenic microflora is detected, disinfection is performed. Bioreactors 9 provide year-round and continuous preparation of the liquid fraction for disposal by sprinkling, this is achieved by the fact that at the beginning the liquid fraction flows from the screw separator 7 through the tank 8 into the empty bioreactor 9 until it is completely filled, while air is constantly and continuously supplied to the bioreactor 9 using a blower with an aerator 10, to carry out the process of aerobic bio-fermentation of the liquid fraction for 4-6 months. Biofermitation provides the formation of useful chemical energy for most microorganisms, for this the manure is subjected to homogenization in order to have a sufficient amount of homogeneous organic matter. Further, from the filled bioreactors 9, the liquid fraction is sent through a gravity pipe to the injector 11, where it is dosed into the mixer 12 for mixing with irrigation water from the source 13, the resulting fertilizer mixture of water with the liquid fraction is sent through pipes to the sprinkling machines 14, where utilized by sprinkling on irrigation fields 15.

An example of a specific implementation of the method of utilization of the liquid fraction of cattle manure.

To confirm the effectiveness of the proposed method, production experiments were carried out for 2 years (2018-2020) at Soyuz-Agro LLC in the Gulkevichsky district of the Krasnodar Territory on a 1100-hectare field sown with corn seeds, next to which there is a livestock breeding complex for keeping cattle and irrigation canals.

Previously, two bioreactors were built, having a volume of 42 m ³ . They were installed in pits to a depth of 10 m, the walls and bottom of which were lined with geomaterial, and the bioreactors were covered with polyethylene film on top. Then, auxiliary elements were installed to ensure the homogenization of manure and its separation into liquid and solid fractions, the dosed supply of the treated liquid manure fraction for mixing with irrigation water and watering. The volume of irrigation with a mixture of irrigation water and liquid manure fraction was 3200 m ³ /ha, and when irrigated only with irrigation water, the consumption was more than 4000 m ³ /ha, which amounted to 8% of its savings.

Thus, a finely dispersed liquid fraction was obtained to alternately fill the volume of two or more bioreactors, in which the liquid fraction was kept for 4-6 months and continuously aerated. Due to the use of two bioreactors, the liquid fraction of cattle manure was accumulated and continuously utilized all year round. Mixing the liquid fraction with the irrigation water of the irrigation source makes it possible to obtain the necessary concentration of the mixture for its utilization by sprinkling on the irrigation system.

Claims (1)

A method for the continuous utilization of the liquid fraction of cattle manure, including the production of a liquid fraction of manure and its aerobic treatment in bioreactors, characterized in that the manure is filtered from debris through sieves with cells measuring 2 × 2 cm or 5 × 5 cm, depending on the contamination of the manure, then it is brought to a moisture content of 88-92% by adding water, homogenized and the manure is separated to separate it into a solid fraction and a liquid one, which is disinfected and sent by gravity to bioreactors for aerobic treatment, then after aeration, the liquid manure fraction is mixed with irrigation water in the ratio 1:10 and carry out sprinkling, while to ensure continuous utilization of the liquid manure fraction, at least two bioreactors are used, which are alternately filled with a liquid fraction and carry out its biofermentation for 4-6 months.

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