RU2683638C1 - Manure solid fraction into the cattle bedding processing device with controlled bio-thermal process - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to the agriculture. Manure solid fraction into the cattle bedding processing device with controlled biothermal process, containing a base, mounted on the support rollers with possibility of rotation by means of a drive cylindrical drum with the heat insulating coating, equipped with the treated mass aeration system and having on its retractable end left wall a loading branch pipe for the screw conveyor and on the right sliding end wall a discharge opening, as well as mounted in the drum on the same end wall blades for the finished mass supply to the discharge opening, wherein the aeration system in the biothermal chamber is implemented by the oxygen-ozone air mixture through pipes made of porous metal, taking into account of the temperature sensors readings.EFFECT: invention allows to perform the organic matter controlled biothermal processing.5 cl, 13 dwg

Description

The invention relates to the field of agriculture, in particular, to devices for producing cattle litter by the biothermal process, as well as the production of organic-mineral fertilizers.

The known technology of in-line processing of livestock waste into organic fertilizers (see the journal "Technique and equipment for the village" No. 2, 2007, p. 14, article "In-line technology of processing livestock waste into organic fertilizer - authors: A.I. Zavrazhnov, V .V. Mironov, M.S. Koldin and P.S. Nikitin (FSEI HPE Michurinsky GAU).

In the given technology, containing mixing manure with moisture-absorbing material in a certain proportion, keeping the mixture in shoulders, passing the mixture through an aeration bioreactor in countercurrent to forced air, grinding and unloading the compost mixture. The above technology does not provide for the introduction of additional enrichment components and preheating of the compost mixture with continuous mixing to accelerate the composting process.

There is a known technology for processing and recycling waste (see the prospectus "Biocomplex. Recycling and recycling. ZA0 Scientific and Production Association" Biocomplex ", Moscow, including containers with dispensers with bulk and liquid raw materials, a mixer, a bioreactor with a compressor, a steam generator, a dryer and a grinder. According to this technology, the prepared mixture is loaded into a bioreactor, which can rotate around its longitudinal horizontal axis using two powerful drive stations. After processing in the bioreactor, the compost mixture enters the dryer and then into the grinder. During the composting process, the pathogenic microflora is destroyed, the odor is neutralized, the moisture content of the biomass is reduced, helminth eggs die and weed germination is lost. As you can see from technology, the compost process is quite complicated and has a periodic nature.

A known installation for the preparation of composts (see RF patent No. 2164905, class C05 3/06, 04/10/1991) for processing organic waste into compost containing a system of two cylindrical drums with an insulating coating installed horizontally with the possibility of rotation around the longitudinal axis on road wheels with two electric drives located on the base. The installation is equipped with a composted mass aeration system and has loading and unloading windows located on its opposite sides - side end walls, as well as blades mounted in a drum with a unloading window, for supplying the finished compost to the unloading window, evenly spaced around the circumference.

The disadvantage of this installation is its low productivity, a certain design complexity, an abundance of electric drives: 2 powerful electric drives for rotating 2 drums, electric drives of 2 augers, 3 electric fans, 2 electric heaters, limited options for regulating the technological process due to rotating end the walls of the drums.

A known installation for processing organic waste into compost (patent No. 2214991, C1, C05F 3/06, 10.27.2003), containing a base mounted on track rollers with the possibility of rotation by means of a drive, a horizontal cylindrical drum with a heat-insulating coating, equipped with a compostable aeration system masses and having loading and unloading windows located on its opposite end faces. In the drum on the end wall with the unloading window inside the drum, vanes are mounted to feed the finished compost to the unloading window, evenly spaced around the circumference.

The disadvantage of this setup is that two bioconversion processes occur in one place and it is rather difficult to select information from a rotating bioreactor through rotating end walls.

And yet, the disadvantages of the above patents are that they do not ensure uniform saturation of the entire volume of the composted mass with an oxygen-ozone air mixture. This installation is a prototype of the proposed device.

The purpose of the invention is an adjustable biothermal process for the processing of organic matter.

This object is achieved in that a cylindrical biothermal drum with a heat-insulating coating for processing organic matter into bedding, mounted horizontally on four track rollers with the possibility of reciprocating motion by means of a reversible electric drive, is equipped with an aeration system of an oxygen-ozone air mixture carried out through porous metal pipes located horizontally relative to the longitudinal axis of the bio-drum within 120 ° sectors around the circumference and fixed n and the left sliding end wall of the drum so that under the aeration pipes of porous metal freely passed one part of the mixing blades, mounted on the inner surface of the drum body so that the length of the larger side of the blades was located along the longitudinal axis of the drum and attached to the drum body under angle of 60 °, forming an intermittent helical line like a multi-auger screw, and the other part - an angle of 60 ° would be turned in the opposite direction (when reversing the electric drive).

The entire inner surface of the bio-drum, end walls, vanes, except for pipes made of porous metal, are coated with an anti-adhesive, wear-resistant coating with the ability to wet with mixed organic matter. When an oxygen-ozone air mixture passes under pressure through porous metal pipes with outlets closed by plugs, due to their porosity, a huge number of small streams enter the mixed mass under pressure (the pore size is 0.05-0.1 mm in diameter) , it turns out some kind of destructive "brush", contributing to a significant enrichment of the organic material with an air mixture.

Basically, a bioreactor is a stationary installation containing a rotating part of the bioreactor and two movable parts with its own electric drives, this is the left end wall of the bioreactor and the right end wall.

Through the horizontal central axis of each wall there are rods for suspending temperature sensors on it. A transverse partition with a shutter device divides the bioreactor into two chambers - biothermal and drying.

We did not find any information about the rotating bioreactor with fixed end walls, so we decided to facilitate the receipt of information from the retractable wall for the dashboard of the control system: indicators of temperature sensors, oxygen meters, pressure sensors and exhaust gases from the body into the atmosphere, as well as other automation devices, for simplicity, not shown.

In the right chamber of the bioreactor, the same aeration system, exactly the same arrangement of aeration pipes, only made of metal with holes with a diameter of 1-2 mm, leading the compost mass to a "boiling" state. The resulting mass has a loose structure and without loss retains its properties during prolonged storage without shelter. In the same chamber, the parts of the aeration system and blades for unloading the mass also have anti-adhesive wear-resistant coating.

In FIG. 1 shows the proposed device in the form of a general view; in FIG. 2 is a view A in FIG. one; in FIG. 3 is a section BB in FIG. one; in FIG. 4 is a section BB in FIG. one; in FIG. 5 is a section GG in FIG. one; in FIG. 6 - blinds in the closed position; in FIG. 7 - blinds in the open position; in FIG. 8 is a section in FIG. 5; in FIG. 9 is a cross-section EE in FIG. 5; in FIG. 10 is a view G in FIG. 2; in FIG. 11 is a section II in FIG. 2; in FIG. 12 - retractable left end wall in FIG. one; in FIG. 13 - retractable end wall right in FIG. one.

The device contains a horizontal cylindrical bioreactor, consisting of three components: the left end self-propelled retractable wall with a heat-insulating coating 1, the rotating drum with a heat-insulating coating 2 and the right end self-propelled retractable wall with a heat-insulating coating 3. Each wall is mounted on its platform 4, which has the ability to move and fix with the drum and with its foundation.

On the left end wall 1 mounted: pipe supplying solid fraction 5; a pipe for removing a gas mixture of carbon dioxide and ammonia 6; on the central horizontal axis - rod 7 for mounting temperature sensors 8; the supply system of the oxygen-ozone air mixture, consisting of a distribution pipe 9, electromagnetic valves 10, loop-shaped pipes 11 made of porous metal and plugs 12. The motion of the rod 7 is provided by two extensions 13. On the wall are also mounted (not shown) temperature sensors inside drum, the concentration of oxygen in the gas medium and the pressure of the gas mixture. Drum 2 is a cylinder with a horizontal axis of rotation, the walls of which have the following structure: the casing 14 itself, a low-temperature heat source - a building heat cable 15 that maintains a temperature of 5 ° to 30 °, thermal insulation 16 made of foam or mineral mats, a shell 17, which is supported on track rollers 18, which are mounted on racks and a foundation, standing at an angle of 1 ° -2 ° above the horizon with a rise in the direction of the left wall. In rotation, the drum is driven through its gear rim 19 by a wheel 20 with a reversible electric drive 21. On the axis of symmetry across the inside of the center of the drum, there is a louvre device 22 in the form of a partition that divides the inner zone into two - biothermal and drying. The smooth transition from the housing 14 to the device of the blinds 22 is provided by a large cover 23 and a small 24 during operation of the blinds. For maintenance, the blinds are provided in the housing 14 of the hatches 25. Inside the drum, paired vanes 26 are attached to its inner surface, the angle between which is 60 ° with the apex on the drum body, i.e. 30 ° on both sides of the radius of the drum. The blades are arranged intermittently along a helix, like a multi-auger screw. The length of the blades in height should be such that they freely pass under the aeration loop system of porous metal, mixing the mass of the solid fraction of manure during rotation of the drum.

The right end self-propelled sliding wall on its platform is not much different from the left one, only instead of porous metal pipes there is a system of aeration metal pipes 27 with a hole diameter of 1-2 mm, there is an unloading window 28 with a cover 29 and a rod 30 for suspending various sensors. The left end wall 1 and the right end wall 3 with their sides with corresponding seals create the integrity of the bioreactor.

All open external and internal parts of the bioreactor, except for the aeration pipe system made of porous metal, have a non-adhesive wear-resistant coating that prevents the application of adhesion of the solid fraction of manure to the corresponding parts of the bioreactor.

The device operates as follows.

Due to the fact that the drum 2 is stationary on the "hill" with a slope to the right side, the left end wall 1 is attached to it on the left side by a self-propelled gun and is fixed with it. The same thing happens with the right wall 3, which self-propelled approaches the drum and is fixed with it with the simultaneous application of the brakes. (Electric platform drives, brakes, clips - not shown).

Before starting work, the biothermal chamber must be hermetically separated from the drying chamber by a partition from closed louvers 22, the operation of the electromagnetic valves 10 and the cover 29 of the discharge window 28 is checked. The loose solid fraction of manure intended for processing, with a moisture content of up to 70%, is fed through a screw conveyor through pipe 5 located in the left end sliding wall 1, into the biothermal chamber of the rotating drum, preheated with heat cable 15. At a speed of rotation of 1.0-1.5 rpm, it is filled Drum up to 70% of its volume. The filled drum is automatically transferred to the processing of the solid fraction in the litter at a rotation speed of 0.3 rpm, while the mass is continuously loaded and slowly advanced according to the slope with the help of vanes 26 fixed along a helical line on the inner surface of the drum. After filling the drum, a supercharger (not shown) for supplying the air mixture through the nozzle of the distributor 9 into the pipes 11 of the porous metal of the heated oxygen-ozone mixture is turned on. The blades 26, attached along a helical line to the inner surface of the rotating drum body, actively mix the mass both above and from under the aeration pipe system of porous metal, saturating this loose mass with an oxygen-ozone air mixture to an oxygen concentration of 25-30%. Passing under pressure through pipes of porous metal with plugs 12 and due to their porosity, a huge number of small streams come out of them into the mixed mass from the solid fraction of manure (pore size in diameter is 0.05-0.1 mm), a good destructive brush », Contributing to a significant enrichment of an organic mixture with an air mixture.

The entire biothermal process that takes place in the bioreactor can be divided into 3 zones: the initial zone with a temperature of 40 ° C, the middle one - where the process of biochemical decomposition of the organic component of the solid fraction of manure begins, while the temperature inside reaches 60-70 ° C, ensuring all nutrients of the initial mass and finish with a temperature of 35 ° C. In the middle zone, the destruction of pathogenic and pathogenic microorganisms, weed seeds, and helminths occurs. Thus, the development of pathogenic fungi - pathogens of diseases of plants, humans, birds and animals is excluded. Upon reaching the above temperature, which is recorded by the temperature sensor 8, aerobic microorganisms begin to actively develop in the mass, and independently maintain a temperature of 60-70 ° C. Water vapor generated by stirring, with the presence of carbon dioxide and ammonia, is removed from the drum through the nozzle 6. To improve mixing, the rotation mass of the drum is constantly reversed by a reversible electric drive 21. A drop in temperature in the treated mass to 25-30 ° C indicates almost the readiness of the litter, but even with high humidity.

In case of violation of the processing regimes of the solid fraction of manure into cattle bedding in the above zones, the biothermal chamber provides a support mode by automatically feeding the oxygen-ozone air mixture to the appropriate zones using the distributor pipe 9, electromagnetic valves 10 into the porous metal looped pipes with plugs 12 on the free side of these pipes. The finished, but still wet mass of the litter should proceed into the drying chamber through the transverse partition with automatically opened blinds 22 for further drying of the litter, which should be a very dry, loose and friable mass without smell, not attractive to parasites, flies and rodents. For this, the aeration system in the drying chamber is similar to the system located in the biothermal chamber, but instead of the porous metal pipes 11 with plugs 12, ordinary metal pipes 27 are located, but with larger holes with a diameter of 1-2 mm in the walls. Through the pipe 31, ordinary atmospheric air enters the drying chamber under pressure, resulting in a “boiling” state of the resulting litter. According to the readings of the humidity and temperature sensors, the lid 29 automatically opens in the discharge window 28 with the help of vanes 26 and the finished product is fed into the input tray of the receiving device. Simultaneously with unloading the litter from the drying chamber, the biothermal chamber is loaded with the blinds 22 closed.

Thus, there is a continuous process of processing the solid fraction of manure into litter.

Claims (5)

1. A device for processing the solid fraction of manure into bedding for cattle with an adjustable biothermal process, containing a base mounted on track rollers with the possibility of rotation by means of a drive, a cylindrical drum with a heat insulating coating, equipped with an aeration system of the treated mass and having a loading nozzle on its retractable end left wall under the screw conveyor and on the right sliding end wall the unloading window, as well as vanes mounted in the drum on the same end wall for I supply the finished mass to the discharge window, characterized in that the aeration system in the biothermal chamber is carried out by an oxygen-ozone air mixture through pipes of porous metal, taking into account the readings of temperature sensors. 2. The device according to p. 1, characterized in that the loading and unloading of the working material occurs continuously with a rotating drum. 3. The device according to p. 1, characterized in that the drum is divided by a transverse sealed partition with the device blinds. 4. The device according to claim 1, characterized in that the drum has mounting hatches in the partition area. 5. The device according to p. 1, characterized in that the inside of the drum body and its parts are coated with a non-adhesive wear-resistant coating.

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