RU2655795C1 - Device for producing pig breeding sewage wastes biogas and fertilizers - Google Patents

Abstract

FIELD: recycling and disposal of waste.

SUBSTANCE: invention relates to a method for disposing of organic waste using an anaerobic digestion apparatus of pig breeding sewage with production of biogas and fertilizers. Device includes a cylindrical sealed container with an opening in the lid for supplying the sewage and a branch pipe in the bottom for the discharge of the liquid fraction with a discharge valve, inclined perforated plate, fixed above the bottom at an angle to the axis of the hollow shaft, nozzles for supplying compressed air from the power source. Nozzles are perpendicularly mounted on the shaft at the same distance from each other and are made in the form of tubes bent at the end at a right angle in a direction opposite to the intended rotation of the shaft due to the energy of the compressed air emerging from the nozzles. Length of the nozzles is increased from top to bottom in the direction of the inclined perforated plate. Angle of inclination of the perforated plate to the axis of the shaft is oriented towards the outlet of the discharge closed conduit to discharge the spent solid fraction of the sludge used as a fertilizer, when rotating the shaft driven by the motor. Discharge pipeline is tilted to its axis, stepped, with the diameter of the steps decreasing in the direction of movement of the spent sludge, and has a discharge device in the form of a shaft with a screw, for the collection of biogas produced during the fermentation process. Under the cover of the tank are installed gas collecting pipes, connected together by means of a common branch pipe.

EFFECT: invention makes it possible to intensify the process of cleaning livestock sewage, while performing water protection measures of the environment.

4 cl, 4 dwg

Description

The invention relates to methods for the disposal of organic waste, and in particular to methods for anaerobic processing of pig farms and poultry farming and the production of biogas and fertilizers for individual and farm households, preferably using bedding and water washing of animal and bird wastes.

The widespread adoption of biogas plants is determined by the solution of two main tasks:

Recycling of organic waste (solution of environmental problems);

The receipt of thermal and electric energy, ensuring the operation of the actual installation of biogas production, as well as the receipt of excess thermal and electric energy for sale.

For the efficient operation of biogas plants, it is necessary to process organic waste with obtaining sufficiently cheap thermal and electric energy, in particular when using animal and bird vital products as raw materials. In addition, biogas physiologically affects people, animals and plants, is a source of a specific smell and is involved in the “greenhouse effect”.

The amount of biogas generated at the facility depends on the stage of biochemical processes. To increase the amount of biogas generated, a device for mixing the waste is needed, the formation of a large amount of foam and a reliable gas-tight insulation device that prevents the migration of gas accumulations in the device and the release of biogas from the foam-forming mass of liquid.

The environmental safety of the use and caloric content of biogas in combination with the simple technology for its production is a positive factor for the further development and dissemination of biogas technology in the processing of agricultural waste, in particular for farms.

It should be noted that the processing of various organic wastes by the method of anaerobic digestion with the formation of biogas has become in recent years a priority for farms for waste disposal, etc.

Liquid and solid sludge formed during methanogenesis processes - waste from a working biogas plant is transported to the fields and used as organic fertilizer.

Methane digestion is a multi-stage process of microbiological processing of organic matter to final products, mainly methane and carbon dioxide. Moreover, methane-forming bacteria develop under anaerobic conditions.

At the same time, the whole process of fermentation and flow is not considered in stages, namely, as a result of wave formation on the surface of the aerated liquid, a large mass of foam is formed, enriched with atmospheric oxygen in a closed container, oxygen, which is used to aerate the liquid by repeatedly recirculating the latter, and this in turn allows you to create improved operating conditions of the installation and creates the proper sanitary conditions in the area of its operation. Ultimately, it allows to provide the necessary hydrodynamic regime in the entire volume of the structure, more uniform saturation of the liquid with oxygen, to increase the volume of the aeration tank without increasing energy consumption, or with an equal volume of aeration tank to reduce energy consumption by about 1.2 times due to an increase in the utilization rate of air oxygen.

The biogas output mainly depends on the composition and type of raw materials used, while such effluents are also used as fertilizer for irrigation, but here it is necessary to take into account the formation of excess activated sludge, which should not immediately come to irrigation due to its environmental hazard, and use it for fertilizing the fields is possible only after prolonged storage and processing at a special installation.

Biogas is a cheap and affordable way to generate energy. Currently, a large number of biogas production technologies have been developed and applied, based on the use of various options for temperature, humidity, microbial mass concentration, duration of leakage, etc. In addition, dozens of articles and patent reviews are devoted to the anaerobic processing of organic waste into biogas. However, today the issue of finding the most effective, cheap and affordable ways to intensify the process of biogas and fertilizer production using pig farms or poultry manure on individual and farm enterprises, in particular, the use of a storage container body made of durable plastic material, the base of which has a bottom with an outlet the nozzle of the liquid fraction and the assembly of the aerated liquid (drains) as a whole.

A known method of anaerobic digestion of liquefied waste and a device for its implementation (Patent RU No. 2073401, AC 3/00, C02F 3/00, from 02.20.1997).

The essence of the known invention lies in the fact that anaerobic digestion of organic waste is carried out sequentially in the external and internal chambers of the metaten, and the mixing of fermented waste in the external chamber is carried out by feeding organic waste introduced into the metaten.

A disadvantage of the known invention is that the conditions regarding the time duration of the waste processing process for individual and farm households with a small number of animals (e.g. pigs) are not used, i.e. it is designed for a long exposure time and a large total required volume. In addition, the operation of the installation requires a significant flow of water to dilute the waste.

A known method of producing biogas from animal feces WO 2012/152266, application PCT / DE 2012/100124, publ. 11/15/2012, class C12P 5/02).

This solution was announced initially in Germany and in 116 countries and offers several stages of fermentation for the separation of methane. Liquid manure or chicken droppings are used as the initial substrate. The first stage of fermentation occurs within 1 to 4 days with the addition of an enzyme, and then a solution of ammonia. After which there is a separation of gas containing about 50% CO ₂ , H ₂ S, NH ₃ . Then, repeated fermentation is carried out from 10 to 30 days at a temperature of 35 ° C and above, of a certain acidity, and after that biogas containing 75% methane is re-separated.

A disadvantage of the known solution is the duration and complexity of its application, for example, for use by small farms. In addition, a sufficiently high reaction temperature is maintained.

There is also known a method of methane digestion of manure (Patent No. 2413408, АСС 3/00, C02F 11/04, C02F 3/34, dated 10.03.2009).

The disadvantage of this method is the high cost of heat energy for heating and maintaining the reactor at a temperature of 37.5 ° C, which increases the costs of small farms, in particular, throughout the year, i.e. leads to a rise in price of the method.

Manure, in particular pig breeding, contains all the bacteria necessary for methane fermentation, therefore, there is no need to additionally introduce methane generating structures, it is only necessary to provide the bacteria that are already in optimal conditions for their life.

The prototype is a well-known installation for processing livestock waste and fertilizer production, containing complex blocks of neutralization and purification, compression and storage of gas, the first of which is made in the form of sequentially installed manure storage with liquid diluent and a feed pump, heat exchanger, metaten and separator with output lines solid and liquid fractions, respectively connected through pumps - activators to the consumer and the sump, while in front of the methene on the heated feed line avoza mounted gas-liquid ejector and metatenke set airlift barborter connected at the input with the output of the gas-liquid ejector, whose gas inlet is connected to the output and compression of the storage unit (Patent RU №2056393, C05F 3/06, of 20.03.1966).

A disadvantage of the known invention is that a temperature is required for the methane generation reaction to occur (55 ± 2 ° C), which is maintained by the heater, and a large amount of hot water is needed as a heating medium, which is unacceptable for small farms, especially in the summer warm season. In addition, the complexity of the process of obtaining biogas, respectively, the selection of the fermented mass and pipelines for the disposal of spent activated sludge with the selection of the liquid fraction from the tank. Another disadvantage is the lack of active mixing mass with biomass twisting along the entire height of the tank. Thus, the degree of active mixing of the fermented mass is insufficient for anaerobic fermentation, which should accelerate the formation of a large volume of foam, from which biogas can be released for flowing inside the tank of active spontaneous mixing of the fermented mass, which eliminates the need for a long time of an additional mixing device, does not contribute intensification of active mixing of the fermented mass.

The practice of such fermentation of organic waste from pig breeding waste and bird droppings shows that anaerobic digestion remains an insufficiently solved problem. For the efficient operation of the volume of small tanks, in particular for use in small livestock farms, the production of fresh manure (litter) of animals - organic fertilizers, combustible biogas, as well as improving the environmental situation of rural settlements.

The objective of the invention is to increase the efficiency and technological capabilities of processing waste pig waste (bird droppings) into biogas and organic fertilizer.

The specified technical result is achieved by the fact that the device for producing biogas and fertilizer from pig waste wastes, including a manure accumulator with a liquid accumulator in a cylindrical tank and a feed pump, a separator with solid and liquid fraction mains-outlets to the consumer and settler, at the bottom of the cylindrical tank, installed on the prepared base, the bottom is combined with the outlet pipe of the liquid fraction with a discharge valve and, in addition, an inclined perforated plate with from holes at an angle to the axis of the hollow shaft, which is equipped with nozzles for supplying compressed air from a power source, perpendicular to the shaft and made in the form of tubes bent at the end at a right angle in the direction opposite to the proposed rotation of the shaft due to the energy coming out of the compressed nozzles air, at the same distance from each other, while the length of the nozzles is increased from top to bottom towards the inclined perforated plate with holes, and the angle of inclination of the perforated plate with holes to the axis Ala is oriented in the direction of the outlet opening of the outlet pipe with an inclination of its axis for unloading the spent solid fraction of sludge sludge, in addition, the outlet pipe is equipped with an unloaded device in the form of a screw shaft stepwise with a diameter of steps that decrease in the direction of movement of the spent sludge sludge and is used as fertilizer while unloading the spent solid fraction of sludge sludge inside the tank is produced by rotation of the shaft, driven by an electric motor.

In addition, in order to expand the scope of application in the regime of maximum unloading of the spent solid fraction of sludge sludge, a closed pipeline consisting of separate pipe sections and bolted together, the initial pipe section is made integral, and the second and subsequent pipe sections are split along their middle part, which consist of a lower tray and a top cover, the latter is pivotally attached to the wall of the tray with the possibility of rotation in vertical and horizontal planes relative to the wall mount tray.

In addition, the top cover is provided with a latch in the form of a lock fastening to the wall of the tray.

In addition, the seal of the lid is formed by rubber attached to its inner contour, and is located above the outer wall of the tray.

Using the proposed technical solution will allow you to get the following result:

to simplify the method of processing liquid pig breeding stock (or chicken droppings);

to ensure the reliability and completeness of biogas selection from the processed liquid pig breeding runoff (or chicken manure) due to the gas drainage design in a closed tank combining the functions of vertical gas removal of biogas and separation of the runoff into solid and liquid fractions with the possibility of using solid sludge sediment for fertilizer;

the term biogas, used in the formula, obtained as a result of the breakdown of organic material in the form of pig farms (or chicken droppings) and obtained as a result of vital activity in an oxygen environment in sufficient quantities, allows observing the technology of waste fermentation by microorganisms that operate;

it should be noted that each type of microorganisms of anaerobic reproduction is distinguished by the specific need of an aerated warm liquid enriched with atmospheric oxygen;

active saturation with atmospheric compressed air from a power source (for example, a compressor, etc.) is a water-air mixture obtained with the formation of a large amount of foam on the surface of effluents by dissolving air in wastewater, i.e. the process of dissolving air in drains is intensified by crushing air bubbles, where compressed air leaves the nozzles under high pressure and spins these drains in a hermetically sealed container (mixes the drains).

A sufficient degree of biogas production and the production of organic fertilizers is achieved by increasing the mass transfer surface between the layers of effluents filling the tank with constant saturation with compressed air, mixing and using the energy of compressed air flowing from the nozzles. The nozzle ends are bent at right angles to maintain the maximum reactive force required to rotate the hollow shaft. The length of the nozzles increases from top to bottom in the direction of an inclined perforated plate with holes, the angle of inclination of which to the shaft axis is oriented in the direction of the outlet of the discharge pipe with an inclination to its axis to discharge the spent sludge to the consumer. At the same time, different nozzle lengths increase the mass transfer surface and minimize the “near-wall effect” (adhesion to the vessel wall). At the end of the cycle of obtaining completely biogas, the flow of sewage ceases and, accordingly, the rotation of the hollow shaft is stopped, therefore, for unloading the spent solid fraction in the form of sludge, it is driven by an electric motor by means of a V-belt transmission, and the discharge pipe works with a discharge device in the form of a step screw shaft with a diameter of steps decreasing in the direction of movement in the direction of the spent sludge.

Another new constructive solution is that the design of the discharge pipe includes separate sections of pipes connected by bolts, while the initial section of the pipe is made integral, and the second and subsequent sections of the pipes are split along their middle part, consisting of a lower tray and an upper cover pivotally attached to the wall of the tray with the possibility of rotation relative to the mounting to the wall of the tray. Thus, the proposed solution meets the criteria of the invention of "inventive step".

The claimed technical solution can be used for small farms, the production of biogas and fertilizers from pig waste (or chicken manure), which receive a large mass of foam on the surface of the liquid in a hermetically sealed container. All this, in general, after the end of gas extraction also reduces the influence of the “near-wall effect”, while the discharge of the spent solid fraction in the form of silt sludge is improved.

The claimed method for producing biogas and fertilizers from pig waste wastes is carried out using the device: in FIG. 1 is a schematic cross-sectional view; in FIG. 2 is a section AA in FIG. one; in FIG. 3 - discharge pipe and auger shaft diagram according to the described solution; in FIG. 4 - pipe section with a cover, section in FIG. 3.

The method is carried out in the following sequence. The vertical cylindrical body of the tank 1 is installed on a prepared base with a bottom 2 with a nozzle 3 for outputting a liquid fraction with a relief valve, and an inclined perforated plate 4 with holes is fixed above the bottom 2 with holes at an angle to the axis of the hollow shaft 5. Nozzles 6 for supplying compressed air perpendicular to on the shaft 5 and made in the form of tubes bent at the end at a right angle in the direction opposite to the expected rotation of the shaft, due to the energy coming out of the compressed air nozzles from the power source, for example, a compressor, or other source (not shown). The length of the nozzles 6 is increased from top to bottom in the direction of the inclined perforated plate 4 with holes. In the upper part of the shaft 5, a wheel 7 is fixed for a belt connection with an electric motor.

Pig stock (or chicken droppings) is diluted at a moisture content of 90 to 96%. It is at this humidity that optimal conditions are created for the life of anaerobic microorganisms. Waste water is loaded through the hole 8 in the lid 9 of the container 1.

The temperature of the medium necessary for the progress of the metangeneration reaction (55-60 ° C), support the heater 10, which can be used as a hot water heating medium.

A closed discharge pipe 11 with a shutter for discharging the spent sludge sludge with a slope of its axis, the initial part of which is oriented from an inclined perforated plate 4 with holes, is output from the tank 1. The outlet pipe 11 is made of separate pipe sections connected by bolts to each other, while the initial pipe section 12 is made integral, and the second 13 and subsequent 14 pipe sections are split along their middle part, consisting of a lower tray 15 and an upper cover 16. Cover 16 the hinge 17 is attached to the wall of the tray 15 with the possibility of rotation in a vertical and horizontal plane relative to the fastening to the wall of the tray 15. The closed discharge pipe 11 is provided along the entire length with a shaft 18 with a screw 19, an unloading device th operate with stepwise decreasing diameter in the direction of movement of the solid waste sludge consumer outside the container 1.

In tank 1, alkaline (methane) fermentation takes place, then carbon dioxide and methane are formed. The decomposition of fermented substances occurs to a certain limit, and the fermentation of sediment in the form of activated sludge in the tank 1 depends on the mode of fermented dose and the moisture content of the loaded effluent.

The output of biogas during digestion occurs under the cover 20 of the tank 1. The gas collection pipes 21 can be made of a set of polyethylene material and interconnected by means of a common pipe 22 above the area of the effluent mirror with a large mass of foam formed during the treatment of effluents. Next, biogas is transported by a pipe 23 to a compressor station in a cogenerator (not shown).

After the end of the cycle of biogas extraction from wastewater, the supply of compressed air from the power source is stopped, the hollow shaft 5 is stopped, the shutter on the outlet pipe 11 is opened at the beginning of the integral section of the pipe 12. An electric motor (not shown) is turned on, which drives the wedge-shaped gear with wheel 7 a shaft 5 for mixing the used pig breeding stock in the form of a solid fraction down towards the perforated plate 4 with holes. In the course of mixing, respectively, in the presence of a fixed inclined perforated plate 4 with holes, the solids in the form of sludge are easier to move towards the outlet pipe 11 by placing 24 at the end of its drive with an electric motor 25, then it is used as an organic fertilizer in compliance with environmental safety standards the environment. Such a constructive solution of the unloading device allows the solid fraction to pass through without stopping the device, which means that the motor with the drive for the screw shaft ensures operability without breakdowns and is reliable in operation.

After the end of the emptying of the tank 1 from the wastewater, it is filled with a new volume of wastewater, and the process continues with a known technological repeating cycle until biogas is extracted from them and a solid fraction is obtained for the fertilizer to the consumer, as well as a liquid fraction in the sump (not shown). Such a constructive solution of the device for the method of producing biogas and fertilizers from pig waste (or bird droppings) allows the use of a cylindrical closed tank, in particular for small farms, without the use of expensive catalysts and enzymes.

It should be noted that livestock enterprises are potential sources of environmental pollution by biogenic and organic substances, as well as microorganisms and other substances contained in manure.

Damage from environmental pollution by manure can be prevented by applying optimal technologies for its processing and rational use of not only biogas, but also nutrients from the remaining and spent solid fractions of silt residue as fertilizer to increase crop yields.

The effluents are deeply mixed with the formation of a large mass of foam on the surface enriched with oxygen in the air under the lid of a cylindrical closed container, resulting in acceleration due to the mass flow and its swirling due to the energy flowing from the compressed air nozzles from the power source. The container itself can be made of polyethylene material, sufficiently durable in production.

The small number of working elements and the simplicity of the design does not cause large material costs in the manufacture of this installation, it is especially important for the use of small farms. As a result of constantly mixing sewage sludge during loading, it allows to solve several problems of the above, as well as reduce the influence of the “near-wall effect”, i.e. lack of adhesion of silt on the inner walls of the tank. Thus, there is a separation into a liquid fraction, which merges in the bottom of the tank through an inclined perforated plate with holes, and is removed further into the sump, and also a more facilitated way of removing the sludge solid fraction by means of a discharge pipe with an unloaded device to the consumer.

Claims (4)

1. A device for producing biogas and fertilizer from pig waste waste, including a manure storage device, made in the form of a cylindrical sealed container with an opening in the cover for supplying waste and a bottom with a pipe for removing the liquid fraction with a discharge valve, a heater, an inclined perforated plate fixed above bottoms at an angle to the axis of the hollow shaft, nozzles for supplying compressed air from the power source, perpendicularly mounted on the shaft at the same distance from each other and made in the form of a pipe k, curved at the end at a right angle in the direction opposite to the expected rotation of the shaft due to the energy of compressed air coming out of the nozzles, the length of the nozzles is increased from top to bottom towards the inclined perforated plate, and the angle of inclination of the perforated plate to the shaft axis is oriented in the direction of the outlet outlet of the closed a pipeline for unloading during rotation of the shaft, driven by an electric motor, the spent solid fraction of sludge sediment used as fertilizer, discharge pipe the piping is made with a slope to its axis, stepped, with a diameter of steps decreasing in the direction of movement of the spent sludge, and has an unloading device in the form of a shaft with a screw for selecting biogas generated during digestion, gas collection pipes are connected under the tank lid, interconnected by means of a common pipe. 2. The device according to claim 1, in which the closed pipeline consists of separate pipe sections, bolted together, the initial pipe section is made whole, and the second and subsequent pipe sections are split along their middle part, consist of a lower tray and an upper cover, which is pivotally attached to the wall of the tray with the possibility of rotation in vertical and horizontal planes relative to the fastening to the wall of the tray. 3. The device according to claim 2, in which the lid has a latch in the form of a lock fastening to the wall of the tray. 4. The device according to claim 2, in which the seal of the cover is formed by an elastic band attached to its inner contour and located above the outer wall of the tray.

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