RU2700862C1 - Method of recycling polymer components of municipal and industrial wastes and device for its implementation - Google Patents

Abstract

FIELD: environmental protection.

SUBSTANCE: invention relates to environmental protection and can be used for processing and recycling polymer components of municipal and industrial wastes, namely production of elements of building structures. Method comprises grinding and mixing polymer components, heating the obtained mixture to a liquid state while slowly moving it downward along the screw heater through the wall by the flue gases coming into its thermal jacket and cooled therein, as a result of which in the mixture steam, low-boiling hydrocarbons are formed, solid polymer components become plastic, pressure is increased, and the mixture itself becomes a liquid paste, which is supplied to degasser, removal of cooled flue gases from screw heater supplied to heater of network water, after which flue gases are directed to gas cleaning, simultaneous separation from charge in degasser, as a result of volume increase and pressure reduction, pyrolysis gas, which is a mixture of water vapor, nitrogen, carbon dioxide, low-boiling hydrocarbons and insignificant amount of oxygen, and degassed charge under action of gravity enters the degassing pan. At that, pyrolysis gas is discharged into burner of combustion chamber of screw heater, supply of doses of filler from bin for filler into forms, moving on belt conveyor, during further movement of which the free part of the inner space of the molds is filled with doses of the molten charge from the degasser and the molds filled with elements of the construction structure are collected into the cooling chamber, where they are cooled and hardened.

EFFECT: high reliability and efficiency of recycling polymer components of municipal and industrial wastes.

3 cl, 1 dwg

Description

The present invention relates to the protection of the environment and can be used for the processing and disposal of polymer components of municipal and industrial waste, namely the production of structural elements.

A known method for the disposal of solid waste, including grinding solid waste (wood waste, used tires, etc.), feeding solid waste into the cavity of a rotating pyrolysis chamber (reactor), carrying out a pyrolysis process, removing pyrolysis gas and periodically removing solid pyrolysis residues (semi-coke) from reaction zones with their simultaneous cooling in a device consisting of a crusher (grinder), the bottom of which is connected by a screw feeder to the loading hole of the rotary chamber, inside of which are arranged heating pipes connected to the inlet and outlet chambers of the flue gases, equipped with appropriate nozzles, and a cooling chamber with a jacket, equipped with a sluice unit for unloading solid products (semi-coke) and a pipe for removing pyrolysis gas [RF Patent No. 2367848, MKl. F23 G5 / 027, MKL. C10 B53 / 02, 2009].

The main disadvantages of this method are the frequency of loading and unloading waste, the inability to separately utilize a polymer film, pyrolysis gas, which reduces the reliability, economic and environmental efficiency of the known method.

The main disadvantages of the known device are the design complexity, lack of equipment for the disposal of pyrolysis gas, which reduces the reliability, economic and environmental efficiency of the known device.

Closer to the proposed invention is a method for the efficient disposal of organic components of urban and industrial waste, including: grinding and mixing the organic components of urban and industrial waste with the addition of peat or wood waste; heating the charge in the screw heater with the flue gases coming from the reactor heat jacket, as a result of which the charge takes on the form of a paste, degassing the charge in the degasser with the release of primary gas, continuously feeding the granulated charge by the screw feeder into the reactor for carrying out the pyrolysis process with simultaneous feeding to the burner for combustion combustion chambers of purified pyrolysis gas, primary gas and hot air, the combustion of which produces hot flue gases,

the destruction of the granular charge in the pyrolysis pipe with the formation of pyrolysis gas and semicoke, cooling and purification of hot pyrolysis gas in a vertical refrigerator and a rotary adsorber filled with adsorbent, after which the purified and cooled pyrolysis gas is fed to the combustion chamber for combustion, its excess is sent to the consumer or to a gas holder, and the flue gases from the auger heater are fed into the network water heater.

A device that implements the method includes a shredder interconnected at the outlet and input of the processed waste, averager installed vertically one above the other, a screw heater, a degasser, an extruder, a cooler-granulator, a screw feeder, a shell-and-tube reactor covered with a heat jacket with a pipe the exit of flue gases connected to the combustion chamber, a collection of pyrolysis products, connected by semicoke with a discharge and cooling screw, cooled by network water, and by gas in series with rtikalnym condenser, a rotary adsorber, connected on the flue gas with a screw preheater and preheater mains water, [RF patent № 2556645, IPC F23 G5 / 027, 2015].

The main disadvantages of this method are the complexity of the process, the need for a cycle of recycled water for the process of purification of pyrolysis gas, utilization of its heat and its constituent components, the inability to separately utilize polymer components to obtain structural elements, which reduces the reliability and economic efficiency of the known method.

The main disadvantages of the known device are the complexity of its design, the need for equipment for a cycle of circulating water (pump station, cooling towers, etc.) and the inability to produce elements of building structures, which reduces the reliability and economic efficiency of the known device

The technical result, the solution of which the invention is directed, is to increase the reliability and efficiency of the method for recycling polymer components of municipal and industrial waste and a device for its implementation.

The technical result is achieved by the fact that the method of disposal of polymer components of municipal and industrial waste contains: grinding and mixing polymer components (plastic film, pipe segments and bottles); heating the resulting mixture to a liquid state when it is slowly moving up and down the screw heater through the wall with flue gases to a temperature of 150–200 ⁰ With flue gases with a temperature of 500–600 ⁰ C coming from the combustion chamber of the screw heater into its heat jacket and cooling in it to a temperature of 250–300 ⁰ С, as a result of which water vapor, low-boiling hydrocarbons are formed in the mixture, solid polymer components become plastic, pressure increases, and the mixture itself takes the form of a liquid paste, which stumbles into the degasser; removal of chilled flue gases from the screw heater entering the network water heater, which is heated to a temperature of 80–90 ⁰ С, and the gases are cooled there to a temperature of 140–150 ⁰ С, as a result of which their heat is additionally utilized, and then sent to gas treatment and purified from harmful impurities, are released into the atmosphere; simultaneous release from the charge in the degasser, as a result of an increase in volume and a decrease in pressure, of pyrolysis gas with a temperature of 120–170 ⁰ С, which is a mixture of water vapor, nitrogen, carbon dioxide, low boiling hydrocarbons and a small amount of oxygen that is discharged into the burner of the auger combustion chamber heater, and degassed charge under the action of gravity enters the pan of the degasser; simultaneous supply of filler doses from the filler hopper to molds moving on a conveyor belt (option: fittings are pre-placed in molds when closing the shutter-flasher of the filler hopper); filling, as a result of the conveyor belt movement, of the free part of the internal space of the forms with doses of the molten charge from the degasser; the receipt of forms filled with elements of the building structure in the assembly in the cooling chamber, where they are cooled and hardened.

A device for implementing a method for recycling polymer components of municipal and industrial waste contains: interconnected at the input and output of the processed polymer components, a chopper, an averager representing an apparatus with a mixer, vertically mounted one above the other, a screw heater, consisting of a screw placed in a heat a jacket equipped with a combustion chamber with a gas-oil burner connected by a pyrolysis gas pipe to a degasser and a flue gas pipe evatelem mains water, wherein the degasser is a cylindrical sleeve is connected with a screw heater equipped with a nozzle-gate flasher; a hopper for the filler placed to the left of the screw heater, equipped with an outlet pipe with a shutter-flasher; belt conveyor located under the nozzles of the degasser and the hopper for the filler; forms with structural elements placed on a conveyor belt; cooling chamber located after the conveyor belt.

A device for implementing the method of recycling polymer components of municipal and industrial waste (CPS) is shown in FIG. one.

A device for implementing a method for recycling polymer components of municipal and industrial waste contains: interconnected at the input and output of the processed polymer components, a chopper 1, averager 2, which is an apparatus with a stirrer, mounted one above the other vertically; a screw heater 3, consisting of a screw 4, placed in a heat jacket 5, equipped with a combustion chamber 6 with a gas-oil burner (not shown in Fig. 1), connected by a pyrolysis gas pipe 7 to a degasser 8 and a flue gas pipe 9 with a network water heater 10, wherein the degasser 8 is a cylindrical shell connected to a screw heater 3, equipped with an outlet pipe 11 with a shutter-flasher 12; placed to the left of the screw heater 3, a filler hopper 13 provided with a nozzle 14 with a shutter-flasher 15, and the nozzles 11 and 14 are located above the conveyor belt 16, on the tape of which are placed forms 17 for structural elements, filled at first with the conveyor belt 16 reinforcement ( in Fig. 1 is not shown) or a filler (gravel or metallurgical slag - not shown in Fig. 1), and after the outlet pipe 14, also melt-filled polymer components (not shown in Fig. 1); behind the end of the conveyor belt 16 there is a cooling chamber (not shown in Fig. 1), which is a room with a room temperature.

The method of disposal of the polymer components of municipal and industrial waste is carried out in the proposed device as follows. Pre-sorted polymer components (plastic product residues - polyethylene film, pipe sections, plastic bottles) are loaded into the grinder 1, where the aforementioned polymer components are grinded, after which the resulting heterogeneous charge is fed to the averager 2, where as a result of mixing a more uniform charge is formed, which enters the inlet pipe (not shown in Fig. 1) of the screw heater 3. In the screw heater 3, when the charge is slowly moved from top to bottom along the screw 4, it is heated through the wall to a temperature of 150–200 ⁰ С with flue gases with a temperature of 500–600 ⁰ С (the relatively low temperature of the flue gases is explained by the low content of combustible components in the pyrolysis gas) coming from the combustion chamber 6 to the heat jacket 5 and cooling in it to a temperature of 250–300 ⁰ С, as a result of which water vapor, low-boiling hydrocarbons are formed in the charge, a significant part of the solid organic components (plastics and plastic film) become plastic, the pressure rises, and the mixture takes the form of a liquid paste, which enters the degasser 8. The cooled flue gases are removed from the screw heater 3 through the flue gas pipe 9, enter the network water heater 10, which is heated to a temperature of 80–90 ⁰ С, cooled there to a temperature of 140– 150 ⁰ С, as a result of which their heat is additionally utilized, after which they are sent to gas treatment (in FIG. 1 is not shown) and purified from harmful impurities (sulfur oxides, nitrogen oxides, etc.) are released into the atmosphere. At the same time, in the degasser 8, as a result of an increase in volume and a decrease in pressure, pyrolysis gas with a temperature of 120–170 ⁰ С is released from the mixture, which is a mixture of water vapor, nitrogen, carbon dioxide, low-boiling hydrocarbons and a small amount of oxygen (the exact composition of the pyrolysis gas is determined the composition of the charge and the temperature of its heating in the screw heater 3, which is discharged into the burner of the combustion chamber 6 of the screw heater 3, and the degassed mixture under the action of gravity enters the drain pan of the degasser 8. O at the same time from the hopper for the filler 13 through the outlet pipe 14, equipped with a shutter-flasher 15, doses 17 of the filler (gravel or metallurgical slag) are delivered to the molds moving on the conveyor belt 16 or reinforcement is placed in them, then, as a result of the conveyor belt 16 , molds 17 come under the outlet pipe 11, equipped with a shutter-flasher 12, from which the remaining part of the internal space of molds 16 is filled with a dose of molten charge, after which molds 17 filled with an element of a building structure The complete assembly (block, stove, fence, etc.) enters the cooling chamber (in Fig. 1 is not shown), where they cool and solidify.

The installation is launched using backup fuel (for example, fuel oil or solar oil).

Thus, the proposed method for the disposal of polymer components of municipal and industrial waste and a device for its implementation, along with improving the environmental situation in places of waste disposal, provides complete utilization of their most dangerous (organic) parts with the simultaneous production of fuel gas, which provides its own recycling needs, elements building structures and hot water for heating and hot water supply.

Claims (3)

1. A method of recycling polymer components of municipal and industrial waste, comprising grinding and mixing polymer components, heating the resulting mixture to a liquid state while slowly moving it from top to bottom along the screw heater through the wall with flue gases entering its heat jacket and cooling in it, as a result why water vapor, low-boiling hydrocarbons are formed in the charge, solid polymer components become plastic, pressure increases, and the charge itself takes the form of liquid vapor joints that enters the degasser, the removal of chilled flue gases from the screw heater entering the network water heater, after which the flue gases are sent to the gas purification, simultaneous release from the charge in the degasser, as a result of an increase in volume and a decrease in pressure, pyrolysis gas, which is a mixture water vapor, nitrogen, carbon dioxide, low-boiling hydrocarbons and a small amount of oxygen, and the degassed charge under the influence of gravity enters the degasser tray, different t Ie, that the pyrolysis gas is discharged into the burner of the auger heater combustion chamber, filler doses are fed from the filler hopper into molds moving on a conveyor belt, with further movement of which the free part of the inner space of the molds is filled with doses of the molten charge from the degasser and the molds filled elements of the building structure, in the cooling chamber, where they are cooled and solidified. 2. The method according to p. 1, characterized in that in the molds moving on the conveyor belt, the reinforcement is placed before closing the shutter-flasher of the hopper for the filler. 3. A device for implementing a method for recycling polymer components of municipal and industrial waste, comprising a chopper, averager, which is an apparatus with a mixer, vertically mounted one above the other, connected to each other at the input and output of the processed polymer components, a screw heater, consisting of a screw connected with a degasser and placed in a heat jacket connected by a flue gas pipe to a network water heater, a gas-oil burner, characterized in that The core heater is equipped with a combustion chamber with a gas-oil burner connected by a pyrolysis gas pipeline with a degasser, the degasser tray is equipped with an outlet pipe with a flasher shutter, a filler hopper is located to the left of the screw heater, the pan is equipped with an outlet pipe with a flasher shutter, under the outlet ducts and a degasser a conveyor belt is arranged for the filler hopper, on the tape of which forms with structural elements are placed, and at the end of the conveyor belt there is a wife of the cooling chamber.

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