RU2528024C1 - Method of production of organic fertiliser and system for its implementation - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method of production of organic fertiliser comprises the use of alcohol production waste of luter water and brewery mash, pressing the latter to separate the centrate from the organic mass, obtaining the working mixture by mixing the centrate with luter water, neutralisation to pH 7.0 of the obtained working mixture by mortar, and feeding it to the storage hoppers, preparing the compost of solid residue of organic matter and addition of vermiculture, and wastes of pig farm drains are additionally used, which are pressed to separate into solid and liquid fractions, their delmygisation is carried out. Then the liquid fraction is sent to the storage hopper where it is diluted with water in a ratio of 1:10 and transported to agricultural fields for irrigation and the solid fraction is added to the soil and shredded wastes of cereals. Then they are stacked successively in layers in a ratio of 7:2:1, stirred and irrigated with the working mixture in an amount providing humidity of 75-85% and maintained, and then the finished compost is added to vermiculture, maintained for not more than 2 months and dried.

EFFECT: inventions enable to improve the efficiency of utilisation of pig farm and alcohol drains.

2 cl, 1 dwg

Description

The invention relates to the field of agriculture and can be used in industry to obtain high-quality organic fertilizer for agricultural purposes.

A known method of disposal of waste from alcohol production, in particular distillery stillage, to obtain fertilizer for acidic soils (see RF patent No. 2282605, class C05F 5/00, 2006).

There is also a known method for the disposal of liquid waste, such as wastewater, where liquid waste is fed into storage tanks, treated and stored in storage ponds (see “Irrigation systems using waste water.” Design Standards BCH 33-2.2.02.-86 The Ministry of Land Reclamation and Water Resources of the USSR. M., 1986, p. 56 - prototype).

A technical solution is known (see RF patent No. 2282606, class C05F 11/00, 2006), where liquid wastes from galvanic and metallurgical industries are used to irrigate solonetzic soils, which are processed using a device containing cyclone chambers with containers and nozzles for introducing components and output of the finished product for soil irrigation.

Also known is an irrigation system that uses liquid waste, such as wastewater (see "Irrigation systems using wastewater." Design Standards BCH 33-2.2.02.-86. USSR Ministry of Land Reclamation and Water Management. M., 1986, p. 56), including a liquid waste storage device communicated through a pumping station with a transport pipeline connected to storage ponds having distribution pipelines connected to irrigation pipelines for irrigation of fields.

The closest technical solution is the method of disposal of alcohol production waste for agricultural purposes and a system for its implementation (see RF patent No. 2371426 C2, class C05F 5/00, 2006 - prototype), where the waste method uses the alcohol production of luther water and bards, pressing the latter to separate the centrate from the organic matter, obtaining a working mixture by mixing the centrate with luther water, neutralizing the resulting working mixture to a pH of 7.0 with a lime mortar and feeding e in storage, composting from the solid residue of organic matter and adding vermiculture, and the recycling system contains a unit for processing alcohol production waste: luther water and stillage, including storage tanks, pumping stations for feeding the stillage from the vandal into the press for separation into liquid and solid fraction and luther water into the averager to obtain a working mixture by mixing the liquid fraction with luther water and a pump station with an intermediate averager to neutralize the acidity working mixture with lime mortar, a block for producing organic fertilizer, including a grinder for cereal waste, compost and vermiculture platforms and a blower.

A common drawback of the known technical solutions is the lack of the possibility of sharing waste from pig-breeding wastewater and wastewater from alcohol production, during the storage of which decay products enter the atmosphere, which worsens the environment.

The technical result is to increase the efficiency of utilization of pig and alcohol wastewater to ensure improved environmental ecology and to obtain high-quality organic fertilizer.

The technical result is achieved by the fact that in the method for producing organic fertilizer, including the use of alcohol production waste: luther water and stillage, pressing the latter to separate the centrate from the organic mass, obtaining a working mixture by mixing the centrate with luther water, neutralization to pH 7.0 the resulting working mixture by means of a lime mortar and feeding it into storage tanks, preparing compost from a solid residue of organic matter and adding vermiculture according to the invention They take advantage of the waste from pig breeding stocks, which are pressed to separate into solid and liquid fractions, carry out their delmigrization, then the liquid fraction is sent to a storage tank, where it is diluted with water at a ratio of 1:10 and transported to agricultural fields for irrigation, and soil is added to the solid fraction and crushed cereal waste, then stacked sequentially in layers in a ratio of 7: 2: 1, mixed and irrigated with a working mixture in an amount that provides humidity of 75-85% and in the summer period not more than 2 months, and in the winter - 3-4 months, then vermiculture is added to the finished compost in a ratio of not more than 20% of the total volume of compost, kept for no more than 2 months and dried to a moisture content of 20-30%, and the system for implementing the method of producing organic fertilizer containing a block for the treatment of waste from alcohol production: luther water and stillage, including storage tanks communicated through pumping stations for feeding the stillage from the drive with a press for separation into liquid and solid fractions and an averager to obtain a working mixture by mixing the liquid fraction with luther water, which is connected to the pump station and with an intermediate homogenizer to neutralize the acidity of the working mixture with a lime solution, and a unit for producing organic fertilizer, including a grinder for grain waste, next to which are compost and vermiculture platforms and a blower , according to the invention has an additional unit for the processing of pig waste, including communicated with each other a common storage for pig waste x wastewater pumping station, a press for the separation of waste into liquid and solid fractions and these fractions drives, wherein the drive hardstock manure communicates with pads for compost and Vermicultures.

The novelty of the claimed group of inventions lies in the fact that the increase in the efficiency of disposal of pig waste and alcohol production is manifested in the following:

1. The enrichment of compost with trace elements contained in the solid fraction of manure.

2. Improving the ecology of the environment by eliminating waste storage.

3. Improvement of soil fertility through the use of organic fertilizer containing the maximum amount of elements found in pig runoff and waste from alcohol production.

According to the patent and scientific and technical literature, no similar set of features has 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 group of inventions is widely used in farms of the Krasnodar Territory, it can be argued that it meets the criterion of "industrial applicability".

The invention is illustrated in the drawing, where in Fig. 1. presents a diagram of a system for implementing a method of producing organic fertilizer for agricultural purposes.

The method of producing organic fertilizer is as follows.

To obtain organic fertilizer, waste from alcohol production is used: luther water and stillage and pig farms. Barda is pressed to separate the centrate (liquid fraction) from the organic matter. A working mixture is obtained by mixing the centrate with luther water, then the working mixture is neutralized to pH 7.0 with a lime mortar and fed to storage tanks. Pig waste wastes are also pressed for separation into solid and liquid fractions, the liquid fraction of manure is sent to a delhigation tank, where it is diluted with water at a ratio of 1:10 and transported to agricultural fields for irrigation. Soil and cereal waste, for example crushed straw, are added to the solid fraction of manure, then they are laid successively in layers in a ratio of 7: 2: 1, mixed and irrigated with a working mixture in an amount at which humidity is maintained at 75-85%, and kept in summer a period of not more than 2 months, and in the winter - 3-4 months, then vermiculture is added to the finished compost in a ratio of not more than 20% of the total volume of compost, kept for no more than 2 months and dried to a moisture content of 20-30% .

The system for implementing the method for producing organic fertilizer contains a block I for the treatment of waste from alcohol production: luther water and stillage, which includes storage tanks 1 and 2, a pump station 3 for feeding the stillage from the vandal to a press (not shown) for liquid and solid separation fraction and luther water, averager 4 for obtaining a working mixture by mixing the liquid fraction with luther water, a pumping station 5 with an intermediate averager 6 for neutralizing the acidity of the working mixture with a lime mortar Ohm supplied from the tank 7 and the blower 8 for mixing, and also has a pumping station 9 for feeding the working mixture to the block II used to produce organic fertilizer, including a grain waste chopper 10, located next to the compost pad 11, a blower 12 and pad 13 for vermiculture. The system has an additional unit III for processing pig waste, including communicated with each other a common accumulator 14 for pig waste, a pump station 15, a press 16 for separating waste into liquid and solid fractions and accumulators 17 and 18 for these fractions, while the accumulator 18 solid fraction of manure communicated with sites 11 and 13 for compost and vermiculture.

The proposed technology for producing organic fertilizer is as follows.

Block I. Wastes from the alcohol production of luther water and vinasse are fed to storage tanks 1 and 2, then through the pumping station 3, luther water is fed to averager 4 and vinasse from vinasse (accumulator) 1 to a press (not shown) for separation into liquid and solid fractions . The liquid fraction (centrate) flows by gravity into averager 4, where the centrate is mixed with luther water in a ratio of 9: 1 and through a pumping station 5 enters into an intermediate averager 6. In the intermediate averager 6, the acidity of the working mixture is neutralized with a lime solution supplied from the tank 7 A blower is used to mix the solution 8. The acidic medium is brought to a neutral pH of 6.8 - 7.0. When the aqueous medium reaches the required pH, the flow of liquid from the averager 4 to the intermediate averager 6 is stopped. The resulting working fluid using a pumping station 9 serves for irrigation of compost and biohumus.

Block II. Processing of organic materials and organic fertilizers. Site 11 is used to prepare organic fertilizers and compost. Compost is prepared from the solid fraction obtained from pig waste (manure) waste processed in block III. Manure by transport is delivered to platform 11, where collars are formed from it for compost preparation. A solid fraction is laid in the piles - manure, soil, and grain waste (hay, straw) crushed in a grinder 10 with a size of 5-7 cm in a ratio of 7: 2: 1 and mixed with air supply from the blower 12, this process enhances the oxidation reduction reaction in compost. To maintain the specified humidity, 75-85% of the compost is irrigated with the working mixture supplied from block I and kept in the summer for no more than 2 months, and in the winter for 3-4 months. The ripened compost is sent to platform 13 to add vermiculture in an amount of not more than 20% of the total volume of compost, kept for no more than 2 months and dried to a moisture content of 20-30%. The resulting biocompost is transported to the fields for application to the soil.

Block III. The processing of pig waste wastes goes to drive 14, where their preliminary disposal and storage takes place. With the help of a pumping station 15, the effluent is fed to a press 16, where separation is made into a solid and liquid fraction, the liquid fraction of manure is sent to a storage tank 17 for delmigization, where it is diluted with water in a ratio of 1:10 and transported to agricultural fields for irrigation. The solid fraction of manure should contain a moisture content of at least 75-85%. The moisture content of the solid fraction is controlled by the force in the press 17, which can be changed depending on the desired processing mode of the solid fraction. The solid fraction of manure from the unloading part of the press 17 is transported to the accumulator 18, transportation is possible in various ways, and from the accumulator 18 it is transported to the site 11 for preparing organic fertilizers for composting.

The claimed method provides for the production of organic fertilizer of a vermicompost product from pig and alcohol effluents with the least cost of processing manure and the greatest effect.

Claims (2)

1. A method of producing organic fertilizer, including the use of wastes from the alcohol production of luther water and vinasse, pressing the latter to separate the centrate from the organic matter, obtaining a working mixture by mixing the centrate with luther water, neutralizing the resulting working mixture to a pH of 7.0 using a lime solution and feeding it into drives, preparation of compost from a solid residue of organic matter and the addition of vermiculture, characterized in that it additionally uses pig waste waste, which pressed to separate into solid and liquid fractions, carry out their delmigrization, then the liquid fraction is sent to a storage tank, where it is diluted with water in a ratio of 1:10 and transported to agricultural fields for irrigation, and the soil and ground grain wastes are added to the solid fraction, then laid sequentially in layers in a ratio of 7: 2: 1, mixed and irrigated with a working mixture in an amount providing a humidity of 75-85%, and kept in the summer for no more than 2 months, and in the winter for 3-4 months, then in ready for mpost Vermicultures added in a ratio of not more than 20% of the total volume of the compost is kept not more than 2 months and dried to a moisture content of 20-30%. 2. The system for implementing the method according to claim 1, comprising a unit for treating wastes of alcoholic production: luther water and stillage, including storage tanks communicated through pumping stations for feeding the stillage from the drive with a press for separation into liquid and solid fractions and an averager to obtain a working mixtures by mixing the liquid fraction with luther water, which is connected to a pumping station and with an intermediate homogenizer to neutralize the acidity of the working mixture with a lime solution, and a unit for producing organic fertilizer, including a grinder for cereal waste, next to which there are compost and vermiculture platforms and a blower, characterized in that it has an additional unit for processing pig waste waste, which includes a common storage for pig waste waste, a pump station, a press for separation of waste into liquid and solid fractions and accumulators for these fractions, while the solid fraction accumulator is in communication with compost and vermiculture sites.

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