RU2670588C2 - Biofermenter for accelerated bioconversion of organic waste - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to agriculture and can be used for processing organic waste in compost. Bioenzymator for accelerated bioconversion of organic waste contains a cylindrical drum with a heat-insulating coating, equipped with a system of aeration of the compostable mass and having loading and unloading windows located on its opposite ends. Plant is equipped with blades for feeding the finished compost to the unloading window, evenly distributed along the circumference, drive and the rollers with the drum are mounted on the frame. Drum rotation drive is made with a reversible motor. Frame is made of U-shaped with reinforcement of stiffness at its corners “kerchiefs”, and from the end faces four different racks are rigidly fixed, the extreme of which are equal to each other and make up 2:3 from the height of two equally high central stands with holes made along the central axis, rigidly connected by a crossbar. Neighboring multiple-elevation racks are rigidly connected among themselves an inclined crossbeam. At the end of the biofermenter, the first ring is rigidly fixed, to which a second ring is rigidly fixed, whose outer diameter is less than or equal to the outer diameter of the second ring, and the inner diameter of the second ring is greater than the inner diameter of the first ring. Inside the second ring there is a disc, fixed removable threaded connections to the central pillars. Behind the disk there is a third ring, fixed by removable screw connections with the first, through the second, rings. Disk of the feed end has holes: in its central part there is an aperture with an aeration pipe installed in it, and in the upper part - a loading window with a damper. In the discharge end disk there are holes: in the center there is a discharge window with an unloading device placed in it, and in the upper part - the hole with the nozzle installed in it. Blades for feeding the finished compost to the unloading window are rigidly fixed to the inner surface of the cylindrical drum and are arranged along the radii of the cylindrical drum, equal to the length of the part of the discharge device located inside the cylindrical drum and installed in the unloading window. Reversible motor through a chain drive between the driving and driven gears and through a gear wheel mounted on the same shaft with the driven gear, interacts with a chain rigidly connected to a cylindrical drum and located in the central part of the cylindrical drum.EFFECT: invention provides a simplification of the construction of loading and unloading systems of the processed material, external air supply systems and removal of the gas-air mixture, as well as reducing the time of processing of organic waste with the possibility of continuous maintenance of the bioconversion process.1 cl, 5 dwg

Description

The invention relates to agriculture and can be used for the processing of organic waste into compost.

A device for compost preparation, patent for the invention of the Russian Federation No. 2192404, cl. C05F 3/06. A device for making compost, containing a rotating drum with an internal screw surface made with variable pitch, a feed metering device and an aeration pipe with a control valve. The internal screw surface is made with a variable pitch, where each subsequent coil has a pitch 2 times the previous one, while the last coil has a pitch equal to the step at the entrance.

The known device has several disadvantages:

- The device does not provide thermal insulation of the outer surface of the drum, which limits the possibility of carrying out the process of biofermentation of organic waste in the cold period of the year, since this process is thermophilic.

- The rotation of the entire drum, together with the mass of the processed organic matter, requires a complicated construction, a drive and an increased power consumption for the drive.

- The pairing of the rotating drum with fixed nodes supplying the processed organic matter and unloading the finished product has considerable difficulty.

- The existing system for ensuring the process of biofermentation with oxygen by using the provided natural ventilation cannot provide a technological process, since the exhaust pipe is almost directly connected to the outside atmosphere through the open discharge port and through the leakages of the pairing of the movable drum and the transition nozzle, therefore, the outside air will not flow through the inner space of the drum filled with a helical surface with a dynamic mass.

- The provided construction of the unloading hatch does not guarantee the stability of the unloading of the finished product.

Known bioreactor for the conversion of organic continuous waste (RF patent No. 146604, class C05F 3/06). Inside the stationary cylindrical drum along its axis a shaft with a screw surface is installed with rotation, which ends at the entrance to the discharge window and at its end a horizontal plate-scraper is rigidly fixed, with the first step of the screw surface along the length equal to the diameter of the cylindrical drum, and all subsequent equal to its radius, augers are installed above the loading and unloading window, and the window is made on opposite sides of the upper and lower parts of the shell of a cylindrical drum, respectively, for agruzochnym and over the discharge window mounted air ducts.

The known bioreactor has a significant drawback, which is that the shaft mounted inside the stationary cylindrical drum of the bioreactor with the possibility of rotation with a helical surface, which is intended for horizontal movement of the mass being processed while mixing it, ensures that the mass being processed touches the entire helical surface area, which causes simultaneous horizontal movement of the entire mass, while mixing it slightly, which reduces the level s mass and aeration, respectively, leads to a decrease in intensity of the bioconversion process.

Known installation for the preparation of compost, RF patent №2164905 class. C05F 3/06. Installation for compost preparation, containing a system for loading the initial mixture into a bioreactor, equipped with an aeration system with two first and second fans with suction nozzles and containing two horizontally arranged rotating drums, one of which operates in a mesophilic and the other in a thermophilic mode, and connected between a thermally insulated compost material overload system, and the bioreactor drum, operating in a thermophilic mode, is equipped with a system for unloading ready-made compost due to the fact that the suction inlet of the second fan is connected through a heat exchanger to a perforated pipe installed along the drum wall of the bioreactor operating in a thermophilic mode, and the suction inlet of the first fan is installed opposite the outlet opening in the upper part of the drum of the bioreactor operating in a thermophilic mode and connected through a heat exchanger with a perforated tube installed along the wall of the bioreactor drum, operating in mesophilic mode.

This installation has several disadvantages:

- The overall complexity and intensity of the structure.

- The difficulty of controlling chemical and microbiological processes in the bioreactor.

- The impossibility of aeration in the process of rotation of the bioreactor drums.

- The design of the loading and unloading hatches of the bioreactor significantly complicates the possibility of conducting a continuous process of bioconversion.

- Limited possibilities for varying the fermentation process depending on the type of raw materials used.

- Compost coming out of a drum operating in a thermophilic mode does not go through a stabilization stage, which may cause further growth of bacteria and deterioration in the quality of the final product.

The closest analogue to the claimed device is an installation for processing organic waste into compost (RF patent №2214991 class C05F 3/06), containing a base mounted on support rollers rotatably by means of a drive with a cylindrical drum with a heat insulating coating, equipped with a system of aerated composting mass and having loading and unloading windows on its opposite face sides. In the drum on the end wall with the discharge window, the blades are mounted to supply the finished compost to the discharge window, evenly spaced around the circumference. The installation is equipped with a frame rotatable in a vertical plane passing through the axis of rotation of the drum, the drive and supporting rollers with a drum mounted on the frame, the latter mounted on the base by means of hinged supports from the side of the discharge window of the drum. The rotational drive of the drum is made with a reversible electric motor, and the blades for supplying the finished compost to the discharge window are mounted on the end wall in pairs with the blades of each pair tilted in opposite directions relative to the plane of symmetry passing through the axis of rotation of the drum.

The disadvantages of the known solutions are:

- The complexity of the design.

- The impossibility of the implementation of a continuous process of processing biowaste.

- Lack of removal of the gas-air mixture from the bioreactor. The gas-air mixture containing harmful gases generated during the microbiological processing of organic waste enters the process room, which causes harmful working conditions for the staff.

- The air supply to the inside of the rotating drum is provided by means of a fixed air duct through the connecting bushings, which is difficult and unreliable.

- The rotation of the entire bioreactor together with recyclable organic waste requires complicated drive and increased energy consumption per drive.

The present invention is to simplify the design and reduce the processing time of organic waste with the possibility of continuous management of the process of bioconversion.

The task is solved due to the fact that biofermentation for accelerated bioconversion of organic waste, containing a cylindrical drum with a heat insulating coating, equipped with a system of aeration of compostable mass, made in the form of a perforated pipeline, and having loading and unloading windows located on its opposite end sides, as well as shovels to supply the finished compost to the discharge window, evenly spaced around the circumference, the frame, the drive and the support rollers with a drum installed on the frame, the drive of the drum rotation is made with a reversible electric motor, the frame is made U-shaped with stiffness reinforcement at its corners with “kerchiefs”, and four unequal racks are fixed on the front sides, the outermost of which are equal to each other and are 2: 3 of height two central racks with equal height with holes made along their central axis rigidly interconnected by a crossbar, while adjacent upright racks are rigidly interconnected by an inclined crossbar, while at the butt end biofermentative The orifice is rigidly fixed to the first ring, to which the second ring is rigidly fixed, the outer diameter of which is less than or equal to the outer diameter of the first ring, and the inner diameter of the second ring is larger than the inner diameter of the first ring; inside the second ring there is a disk fixed by removable threaded connections with central posts; the disk has a third ring mounted, fixed by removable threaded connections with the first, through the second, rings, holes are made in the disk of the boot end: in its central part - a hole with a perforated pipe installed in it, and in the upper part - a loading window with a damper, and in the discharge end disk there are holes: in the center - a discharge window with an unloading device placed in it, and in the upper part - an opening with a branch pipe installed in it, the blades for feeding the finished compost to the discharge window are rigidly fixed to the inner surface of the cylindrical drum and are located along the radii of the cylindrical drum, the length equal to the length of the part of the unloading device, inside the cylindrical drum and installed in the unloading window, while the reversing motor through a chain drive between the driving and driven gears, and through the gear gears mounted on the same shaft with the driven gears interact with a chain rigidly connected to the cylindrical drum and located in the central parts of a cylindrical drum. New essential features:

- The frame is made U-shaped with the effort of rigidity in its corners "kerchiefs".

- On the end sides, four unequal-high racks are rigidly fixed, the outermost of which are equal to each other and are 2: 3 from the height of two equal-height central racks with holes made along their central axis rigidly connected to each other by a crossbar.

- Neighboring racks of different height are rigidly interconnected by an inclined crossbar.

- At the end of the biofermenter, the first ring is rigidly fixed, to which the second ring is rigidly fixed.

- The outer diameter of the second ring is less than or equal to the outer diameter of the first ring, and the inner diameter of the second ring is larger than the inner diameter of the first ring.

- Inside the second ring there is a disc fixed with removable threaded connections with central posts.

- Behind the disc there is a third ring, fixed by removable threaded connections with the first, through the second, rings.

- There are holes in the disk of the loading end: in its central part there is a hole with a perforated pipeline installed in it, and in the upper part there is a loading window with a flap.

- There are holes in the disk of the discharge end: in the center there is a discharge window with an unloading device placed in it, and in the upper part there is a hole with a branch pipe installed in it.

- The blades for feeding the finished compost to the discharge window are rigidly fixed to the inner surface of the cylindrical drum and arranged along the radii of the cylindrical drum, the length equal to the length of the part of the discharge device located inside the cylindrical drum and installed in the discharge window.

- Reversible motor through a chain drive between the driving and driven gear gears, and through the gear gear mounted on the same shaft with the driven gear gear interact with the chain rigidly connected to the cylindrical drum and located in the central part of the cylindrical drum.

These new essential features, in conjunction with the known, are necessary and sufficient to achieve a technical result in all cases to which the requested amount of legal protection applies.

The technical result is that:

- The immobility of the ends simplifies the design of the systems for loading and unloading the material being processed, as well as the design of the systems for supplying outside air and removing the gas-air mixture.

- The design of the ends allows you to simplify the loading of organic waste into the biofermenter and unloading of the finished product from it.

- Reducing the time of bioconversion, due to the maintenance of temperature and oxygen supply of compostable waste at levels close to optimal, ensuring maximum activity of thermophilic microorganisms, due to the continuity of the biofermenter.

- Automation of the process of supplying the processed material to the biofermenter and unloading the finished product from it.

FIG. 1 shows schematically a biofermentor for accelerated bioconversion of organic waste.

FIG. 2 - view A of a biofermenter for accelerated bioconversion of organic waste.

FIG. 3 - section BB of a biofermenter for accelerated bioconversion of organic waste.

FIG. 4 schematically shows the attachment of the end face of the biofermenter to the frame.

FIG. 5 shows the kinematic diagram of the biofermenter drive.

Biofermentor for accelerated bioconversion of organic waste, containing a cylindrical drum 1 with a heat insulating coating, equipped with a system of aeration of composted mass, made in the form of a perforated pipeline 2, and having a loading 3 and unloading 4 windows located on its opposite end sides, as well as blades 5 for supplying ready compost to the discharge window 4, evenly spaced around the circumference, the frame 6, the drive 7 and the support rollers 8 with a drum 1 mounted on the frame 6, and the drive rotation 7 b Rabban 1 is provided with a reversible electric motor 9. The frame 6 is U-shaped with increased stiffness in its corners "gussets" 10, and with the end faces is rigidly secured four Uneven rack 11; 12; 13; 14, the extreme of which are 11 and 14 are equal to each other and constitute 2: 3 of the height of two equal-height central pillars 12; 13 with holes 15, made on their central axis, rigidly interconnected by a crossbar 16. Neighboring racks 11 and 12; 13 and 14 are rigidly interconnected by an inclined crossbar 17. At the end of the biofermenter, the first ring 18 is rigidly fixed, to which the second ring 19 is rigidly fixed, the outer diameter of which is less than or equal to the outer diameter of the first ring 18, and the inner diameter of the second ring 19 is greater than the inner diameter of the first ring 18. Inside the second ring 19 is mounted a disk 20 fixed by removable threaded connections with central posts 12 and 13, a third ring 21 is fixed behind the disk 20 fixed by removable threaded connections with pe vym 18, through the second 19 rings. In the disk of the boot end 20 holes are made: in its central part - a hole 22 with perforated pipe 2 installed in it, and in the upper part - a boot window 3 with a flap (not shown), and in the disk of the discharge end 23 holes are made: in the center there is an unloading window 4 with an unloading device 24 placed in it, and in the upper part there is an opening 25 with a branch pipe 26 installed in it. Blades 5 for feeding finished compost to the discharge window are rigidly fixed to the inner surface of the cylindrical drum 1 and placed wife radii cylindrical drum 1, a length equal to the length of the discharge device 24 located inside the cylindrical drum 1 and installed in the discharge window 4. Reversible electric motor 9 through the chain gear 27 between the leading 28 and the driven gear 29, and through the gear gear 30, mounted on one shaft 31 with a driven gear gear 29 interact with a chain 32 rigidly connected to a cylindrical drum 1 and located in the central part of a cylindrical drum 1.

The bio-fermenter for accelerated bioconversion of organic waste can function in two technological modes of the bioconversion process: cyclic and continuous.

The bio-fermenter works as follows: the prepared organic waste through the loading window 3 gets inside the cylindrical drum 1. The biofermenter is loaded on% of its volume. To evenly distribute the loaded waste within the biofermenter, the cylindrical drum 1 must be periodically rotated on support rollers 8 fixed to the frame 6 by means of a reversible electric motor 9 using a rotational drive 7 consisting of a leading 28 and a driven 29 gear gear interconnected by means of a chain gear 28 , moreover, the driven gear gear 29 is mounted on the same shaft 31 with the gear gear 30, which interact with the chain 32 rigidly connected to the cylindrical drum 1 and placed in the central part of the cylindrical drum 1. After loading the processed waste inside the cylindrical drum 1, the loading window 3 is closed by a damper (not shown in Fig.), the biofermenter is driven by a reversing motor 9 and a rotation drive 7, at the same time adjustable aeration of the processed waste through a perforated pipe 2 connected to a pressure fan (in FIG. not shown). Rings 18; 19 and 21 begin to rotate with a cylindrical drum 1, while the disks of the loading end 20 and the discharge end 23 are static, which allows, without interrupting the bioconversion process, to load fresh organic waste into the cylindrical drum 1 and unload the finished product from it. Formed in the process of bioconversion gases are removed from the cylindrical drum 1 through the hole 25 with the pipe 26 installed in it. After the organic waste processed reaches the calculated parameters in the cylindrical drum 1, which is determined by their temperature controlled by a thermal sensor device 24 installed in the discharge window 4. Recycled organic waste through the blades 5 are fed to the discharge device 24 due to the rotation of the cylindrical th drum 1 on the support rollers 8 by means of a reversible drive motor 9 and 7. When the rotation stabilization bioconversion process defined analysis dischargeable quality recycled organic waste begins scheduled shipment of the product obtained.

In the cyclic method of processing, the finished product is completely unloaded from the cylindrical drum 1 by means of an unloading device 24, after which a new batch of processed organic waste is loaded into the biofermenter and the cycle repeats.

In the continuous method of processing, the finished product is partially unloaded from the cylindrical drum 1 by means of an unloading device 24 with simultaneous loading of processed organic waste through the loading window 3.

Claims (1)

Biofermentor for accelerated bioconversion of organic waste, containing a cylindrical drum with a heat insulating coating, equipped with a system of aeration of composted mass, made in the form of a perforated pipeline, and having loading and unloading windows located on its opposite end sides, as well as vanes for feeding the finished compost to the discharge window, evenly spaced around the circumference, the frame, the drive and the supporting rollers with a drum mounted on the frame, and the rotational drive of the drum is performed Not with a reversible electric motor, characterized in that the frame is made U-shaped with reinforcement stiffness at its corners with "kerchiefs", and four unequal-high racks are fixed on the front sides, the outermost of which are equal to each other and constitute 2: 3 from the height of two equal-height central racks with holes made along the central axis, rigidly interconnected by a crossbar, while adjacent racks of different height are rigidly interconnected by an inclined crossbar, while at the end of the biofermenter the first e ring, to which the second ring is rigidly fixed, the outer diameter of which is less than or equal to the outer diameter of the second ring, and the inner diameter of the second ring is larger than the inner diameter of the first ring; inside the second ring there is a disk fixed by detachable threaded connections with central posts; a ring fixed by removable threaded connections with the first, through the second, rings, holes are made in the boot end disk: in its central part there is a hole with it has an aeration pipe, and in the upper part there is a loading window with a damper, and in the discharge end disk there are holes: in the center there is a discharge window with an unloading device in it, and in the upper part there is a hole with a branch pipe installed in it, while the blades for supplying the finished compost to the discharge window is rigidly fixed to the inner surface of the cylindrical drum and arranged along the radii of the cylindrical drum with a length equal to the length of the part of the unloading device inside the cylindrical drum and installed in the unloading window, while the reversing engine through a chain transmission between the driving and driven gears and through gears mounted on the same shaft with the driven gears, interacts with a chain rigidly connected to the cylindrical drum and located in the central part of the cylindrical drum.

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