RU2580221C1 - Animal waste disposal unit - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: animal waste disposal unit is proposed. The device comprises a horizontal housing divided by vertical partitions into chambers of acidic, neutral, alkaline and methane fermentation, a gas cavity in the upper part of the housing, and in the lower - a settling chamber, an unloading device, and a stirring means. The stirring means is made in the form of a drive horizontal shaft with blades and is provided with the hopper of continuous loading of a feedstock with a grinder. The vertical partitions on the site of interaction with the blades are made perforated, the housing is made conical with the increasing diameter of the fermentation chambers. The cone apex has a cylindrical chamber on top of which there is the hopper of continuous loading of the feedstock, at the end of the cylindrical chamber an electric drive is provided, rotating the shaft with a screw. The screw crushes the feedstock and feeds it into the chamber of acid fermentation and further into the chamber of neutral, alkaline, methane fermentation. The surface of the conical housing and the cylindrical chamber is covered with a heat insulating material. On top of the housing there are the packets of a solar collector, inside the walls of the conical housing and the cylindrical chamber mounted tubes are provided, made with the ability of heating the chambers of fermentation with the coolant heated in the solar collectors.

EFFECT: continuous fermentation process, temperature control for the reproduction of active bacteria.

3 cl, 1 dwg

Description

The invention relates to the field of chemistry, in particular to the disposal and use of animal waste with the production of combustible gas of biomethane, biological fuel and biological fertilizer.

A known apparatus of methane fermentation [1], containing a vertical body with technological partitions and a pipe for supplying and discharging media.

The disadvantage [1] is that in this apparatus of methane fermentation, the degree of decomposition of the organic matter of the substrate is not high enough.

A known apparatus of methane fermentation [2], containing a horizontal casing, divided by vertical partitions into chambers of acidic, neutral, alkaline and methane fermentation, having a gas cavity in the upper part and a sedimentation cavity and discharge device in the lower part, and a mixing means located inside the casing.

The disadvantage [2] is that in this apparatus there are no conditions for grinding the cellulose-containing components of the substrate and for adjusting it with carbon, and an excess of ammonia nitrogen inside the apparatus reduces the efficiency of fermentation and, accordingly, its efficiency.

The closest to the claimed technical solution, the prototype is a methane fermentation apparatus [3], containing a horizontal body divided by vertical partitions into acid, neutral, alkaline and methane fermentation chambers and having a gas cavity in the upper part and a sedimentation cavity and discharge device in the lower part , and the mixing means located inside the housing is equipped with a loading device that interacts with a grinder, including a housing with a granular, abrasive, immobilization in bulk and with a perforated wall for communication with the acid fermentation chamber and blades placed in the housing on the drive shaft and the precipitation chamber located on the output section of the housing, and the mixing means is made in the form of a horizontal drive shaft with blades interacting with vertical partitions, the latter on the area of interaction with the blades is perforated.

The disadvantage of this technical solution [3] is that the speed and degree of mixing in the fermentation chambers is the same, while the fermentation processes are different and require different volumes of mixing; the process is not automated; the waste recycling process is not continuous, but with periodic loading and unloading; the cycle time depends on the ambient temperature; in the cells there are insufficient conditions for the reproduction of active bacteria.

The aim of the invention is the implementation of a continuous fermentation process in the chambers by automating mixing, maintaining the temperature regime for the reproduction of active bacteria.

The goals are achieved in that a livestock waste disposal device containing a horizontal body divided by vertical partitions into an acidic fermentation chamber, where carbohydrates, proteins and fats are converted into organic acids, a neutral fermentation chamber under the influence of methane-forming bacteria, where the pH increases further, an alkaline fermentation chamber where organic acids and nitrogenous substances decompose to form ammonium compounds, amines and other products with alkaline properties, and a meth of methane fermentation, where methane released during the fermentation enters the gas cavity in the upper part, a precipitation cavity, a discharge device are contained in the lower part of the device, a mixing means is located inside the body, which in turn is equipped with a loading device and a chopper interacting with it, including a body containing granular, abrasive filling, granules of expanded clay granules of the order of 25 mm in size, also equipped with a perforated partition in the wall for communication, can act as such it with a chamber of acidic fermentation, and placed in the housing, on the drive shaft of the blade, and located on the output section of the housing by a precipitation chamber, while the mixing means is made in the form of a horizontal drive shaft with blades, with interacting vertical partitions, the latter at the site of interaction with the blades perforated, the said body is made in a horizontally conical design with an increasing diameter of the fermentation chambers, and the top of the cone has a cylindrical chamber, which has a continuous loading hopper, an electric drive is provided from the end of the said chamber, which rotates a shaft with a screw located inside a cylindrical chamber, crushing the source material of a certain moisture content and feeding into the first adjacent fermentation chamber, and further chambers are provided further along the process, with each the axis of the rotary blades are coaxial to the chamber, the shafts are of a certain size and are mounted through the wall of the housing at the base of the cone, while the surface of the conical housing and the cylindrical chamber with a continuous feed hopper is additionally covered with heat-insulating materials, and solar collector packages are provided on top of the casing, in which the heat carrier is heated by solar energy, in addition, mounted pipes through which walls are made of a conical casing and a cylindrical chamber with a continuous feed hopper are used to make pipes through which heating of the fermentation chambers with the heat carrier heated in the mentioned solar collectors, and the inner surface of the chamber walls is broader The method is made of a porous material that improves the conditions for the reproduction of active fermentation bacteria; the rotation speeds of electric drives are controlled by the selection of optimal feed conditions for feed, grinding and feeding into the fermentation chambers, as well as mixing of the fermentation chambers.

The drawing shows a livestock waste disposal device, where 1 is a housing, 2 is a partition attached to the housing 1, 3 is an acidic fermentation chamber, 4 is a neutral fermentation chamber, 5 is an alkaline fermentation chamber, 6 is a methane fermentation chamber, 7 is a loading device, 8 - loading device, 9 - shaft, 10 - shaft drive, 11 - mixing blades, 12 - gas cavity, 13 - sedimentation cavity, 14 - grinder body, 15 - grinder shaft with screw, 16 - grinder shaft drive, 17 - blades, 18 - granular, abrasive filling, 19 - per oriented partition, 20 - wall containing the perforated partition, 21 - precipitation chamber, 22 - inclined partition, 23 - branch pipe, 24 - hydraulic shutter, 25 - safety valve, 26 - solar collector, 27 - heat-exchangers, 28 - branch pipe biomethane.

A livestock livestock waste disposal device operates as follows: a substrate-loading substrate (sewage and animal waste) to be processed is fed to the loading device 7 via an external loading device not shown in the drawing. When waste waste enters the building 14, the pulp-containing loading components (straw, leaf litter, sawdust, hay, etc.) are crushed and abraded due to intensive contact with the granular abrasive backfill 18, which is, for example, expanded clay granules about 25 mm in size which interact with the blades 17, and the exit of the suspensions from the housing 14 is possible only if the particle size of the suspensions is less than the size of the perforations of the partition 19. In a similar way, movement along the chamber m 3, 4, 5 and 6 through the perforated sections of the partitions 2, fixed to the housing 1, which provides finer grinding of the solid component in the load (substrate) in contrast to the prototype.

By introducing cellulose-containing components, a ratio between carbon and nitrogen is reached within 20: 1.

Abrasion of the cellulose-containing components of the substrate allows you to adjust it for carbon and reduce the inhibitory effect of nitrogen.

Thermostating of the fermentation process is carried out due to the temperature of heaters 27 located in the walls of the device, which allows to achieve optimal conditions for the reproduction of active methane-producing bacteria. When the shaft 9 is equipped with stirring blades 11, the drive 10, the dry crust on the surface of the substrate is destroyed and the sludge is mixed in the conical body 1. In the precipitation chamber 21, gas bubbles are separated from the suspensions, which, after separation, are deposited and discharged through the unloading device 8. Biomethane from the gas cavity 12 is diverted through the pipe 28 to the consumer. The clarified component of the post-fermentation residue is discharged from the chamber 21 through the nozzle 23 through the hydraulic shutter 24. The presence of the precipitation chamber 21 minimizes the loss of cellulose-containing components of the substrate during unloading, and the removal of the liquid component through the hydraulic shutter with a siphon eliminates uncontrolled emptying of the hydraulic shutter and controls the degree of filling of the housing 1 substrate.

The production of biomethane and biological fertilizer, which is the solid component of the post-fermentation residue, is discharged through the device 8, and the inclined lower surface of the conical body contributes to better removal of the solid residue, which makes the device more productive.

Used sources

1. Yanko V.G., Yanko Yu.G. Wastewater and sludge treatment in digesters. Kiev, 1978, p. 40, fig. 81.

2. Viestur U.E., Kuznetsov A.I., Savenkov V.V. Fermentation system. Riga, 1986, p. 18-19, fig. 2.2.

3. RF patent 2080371, IPC ⁶ C12M 1/107, Tumchenko V.I.

Claims (3)

1. A livestock waste disposal device comprising a horizontal body divided by vertical partitions into acid, neutral, alkaline and methane fermentation chambers, a gas cavity in the upper part of the body, and a sedimentation cavity, an unloading device, a mixing device located inside the body, provided with bunker of continuous loading of feedstock and a grinder interacting with it, including granular abrasive backfill, perforated partition in the wall of the message a separator with an acidic fermentation chamber located in the housing on the drive shaft of the blade and the precipitation chamber located on the output portion of the housing, the mixing means is made in the form of a horizontal drive shaft with blades interacting with vertical partitions, characterized in that the vertical partitions in the area of interaction with the blades are perforated, the body is conical with an increasing diameter of the fermentation chambers, and the top of the cone has a cylindrical chamber, representing I have a chopper, on top of which there is a hopper for continuous loading of feedstock, an electric drive is provided from the end of the cylindrical chamber, which rotates the shaft with a screw located inside the cylindrical chamber, crushing the feedstock of a certain moisture content and feeding it into the acidic fermentation chamber and then into the chambers neutral, alkaline, methane fermentation, while the electric drive rotates a horizontally mounted shaft passing through the wall of the conical body on the right side , and mixing blades placed on the shaft, in addition, the surface of the conical body and the cylindrical chamber with the feed hopper are additionally coated with heat-insulating material, and on top of the body are packages of a solar collector made with the possibility of heating the heat carrier from solar energy, in addition, inside the walls of the conical the housing and the cylindrical chamber with a feed hopper are provided with mounted pipes configured to heat the fermented chambers I coolant heated in solar collectors. 2. The device for the disposal of livestock waste according to claim 1, characterized in that the inner surface of the walls of the fermentation chambers is made of porous material that improves the conditions for the reproduction of active fermentation bacteria, while the rotational speeds of the electric drives are controlled by the selection of optimal feed conditions for grinding, grinding and feeding fermentation chambers, as well as mixing in the fermentation chambers. 3. The device for the disposal of animal waste according to paragraphs. 1, 2, characterized in that the rotation speeds of the electric drives are controlled by the selection of optimal feed conditions for the feedstock, grinding and feeding into the fermentation chambers, as well as mixing the fermentation chambers.

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