RU2678215C1 - Pyrolysis disposal plant - Google Patents

Abstract

FIELD: processing and recycling of waste.SUBSTANCE: invention relates to devices for disposal of garbage through process of pyrolysis and can be used for disposal of solid household and industrial waste. Assembly comprises furnace, retort, pipe for removal of gas, the drive, additionally comprises reactor, frame on which there are three coolers, water pump, aquafilter, vacuum pump, cooling tower, pyrolysis gas passage pipeline, water cooling pipeline, while the reactor is made in form of metal cylinder, upper part of which is made in form of hemisphere with a hole, on the edges of which a sealing gasket is attached, diameter of the reactor opening is 2–3 cm larger than outer diameter of retort, inner wall is lined with fireclay bricks, lower part has a furnace in form of two nozzles on liquid fuel and pyrolysis gas burner, retort is made of heat-resistant stainless steel in form of metal cylinder with a flange, to which removable cover is tightly fastened by means of tightening locks, on which lifting rings are located, outlet with flange is welded to the center of the cover, to which pipe with a flange is attached to divert pyrolysis gas, coolers are made in form of steel cylinders of equal volumes with removable flanges installed in the lower part with drain valves, with d=0.5d, d=0.5d, have a rigid mount with a frame, manometers and thermometers are installed on each cooler, a second vacuum cooler, a retort, coolers are mounted on the second cooler, aqua-filter and pyrolysis gas burner are interconnected successively with pipeline for passage of pyrolysis gases, with upper connections being rigid, and lower flanges, pipe for removal of pyrolysis gases is connected to the pipeline for passage of pyrolysis gases by means of an adapter, the coolers in the lower part have branches connected to the storage of pyrolysis liquid, which is equipped with shut-off valve, at the same time, oil level sight glass of accumulation of pyrolysis fluid is mounted at the outlet of the third cooler, water cooling pipeline has a closed loop and made in form of steel pipes connected to coolers, cooling tower and water pump, while connection with coolers in the upper part is welded, in lower part it is made in form of shut-off flange valve, pressure gauge is installed on the pipeline, pipe for filling with water is installed on aqua-filter, and drain valve is installed in the lower part, a vacuum pump is connected to pipeline of pyrolysis gases through pipe and valve.EFFECT: technical result is pyrolysis process at a low temperature with the possibility of affordable repair and maintenance work.1 cl, 4 dwg

Description

The invention relates to a device for the disposal of garbage by carrying out the pyrolysis process and can be used for the disposal of solid household and industrial waste.

Known pyrolysis thermogaschemical installation for the disposal of municipal solid waste, including a combustion chamber with grate, connected to the primary air supply channel, thermogaschemical reactor, made in the form of a housing with a cylindrical retort, equipped with a sealed lid and the outlet of the pyrolysis products, and a secondary air supply chamber while it is equipped with a collector, a filtering unit, the input of which is connected in the upper part of the body of the thermogasochemical reactor above the cylindrical reto the one, and the outlet is connected to the secondary air supply chamber and the atmosphere by means of a gas duct that circulates the exhaust gases, while the combustion chamber and the secondary air supply chamber are placed in a separate housing, separated by a curved partition, and the chamber cavities are made in communication with the cavity of the thermogas chemical reactor body, flow swirls are fixed to the inner side surface of the thermogas-chemical reactor vessel, and the lateral surface of the cylindrical retort is multilayer, the output The pyrolysis products are organized in the upper part of the lateral surface of the retort and connected to a collector connected to the primary air supply channel. The primary air supply channel is a series of horizontally oriented tubes located in the secondary air supply chamber, while for curving the tube outlets, a curved partition is provided with openings made below the level of the grid-irons. The tubes of the primary air supply channel are equipped with throttle valves. The filtering unit is a housing having an upper, lower surface and a side wall, equipped with an inlet of the exhaust gas stream organized in the central part of the lower surface and an outlet of the stream of purified exhaust gases tangentially located in the side wall, while the filtering and / or a catalytic element with the formation of a channel between the filter and / or catalytic element and the side wall of the housing for the removal of purified exhaust gases. The filter unit is additionally equipped with vertically oriented plates fixed around the circumference near the inlet in front of the filter / or catalytic element in the direction of movement of the exhaust gas stream with the possibility of moving the plates around the circumference. The cylindrical retort is equipped with a crosswise vertically oriented partition with slots located along the entire height of the retort. A cylindrical retort is formed of at least one metal sheet rolled into a roll, equipped with a smoke exhauster connected to a gas duct connecting the filter unit and the secondary air supply chamber, vertically oriented bulkheads are placed in the combustion chamber and the secondary air supply chamber separating the cavities of the combustion chamber and the secondary air supply chamber into two parts, is equipped with a unit for preliminary mixing of exhaust gases from the combustion chamber and secondary air from the secondary air supply chamber, p located in the housing of the thermogaschemical reactor under a cylindrical retort, the exhaust gas pre-mixing unit is a truncated-conical bell, coaxially with which an annular insert is placed coaxially with a gap on the outer surface side, with turbines in the form of curvilinear plate-shaped elements fixed around its circumference, placed with the formation of channels connected to the secondary air supply chamber, while the channels formed by a bell and an annular insert, connected to the combustion chamber, the turbines are equipped with blades fixed in the upper part of the plate elements of a curvilinear shape obliquely to a vertical plane, the height of the cylindrical retort is not more than 0.9 of the height of the thermogas chemical reactor body, equipped with a water jacket circuit, it is equipped with a waste storage bin fixed to the housing of the combustion chamber and the secondary air supply chamber, and the hopper movement mechanism, while on the housing of the combustion chamber and the secondary air supply chamber of spirit, a filling funnel is mounted, and the hopper moving mechanism includes pivoting levers, on the one hand pivotally mounted on the filling funnel, and on the other hand, on the hopper, and a winch that moves the hopper on pivoting arms, is equipped with a ladder and a viewing platform located around the thermogas chemical reactor at the level of placement of the filter unit. Flow swirls are metal corners with an angle of 60 ° to 110 °. (RF patent No. 2428629, publ. 09/10/2011)

Known waste incinerator installation containing a furnace, a garbage feed unit, a heat recovery unit for gaseous combustion products, a slag unloading device, an ash removal unit, an air supply means, a chimney and a chimney, characterized in that the furnace is made in the form of a drum lined with heat-resistant material, for example a chamotte mounted horizontally with rotation around a longitudinal axis, while the garbage feed unit contains a hopper provided with a shutter connected to the receiving hole of the furnace by means of a seal the main body, the cavity of which is connected with the air supply channel, while the end face of the furnace is open to the afterburner, the lower part of which is made in the form of a slag receiving hopper and is equipped with an additional air supply channel, and the heat recovery unit of the gaseous products of combustion is made in the form of a heat exchange chamber, in the cavity of which a heat exchange section is placed, the gas passage channels of which are arranged vertically, while the upper end of the heat exchange chamber is connected by a gas channel to the upper end of the afterburner, and its lower end is connected to the chimney flue and is equipped with means of deashing. The afterburner is made of heat-resistant material, such as fireclay. (RF patent No. 45177, publ. April 27, 2005).

A known installation for the production of pyrolysis fuel containing technologically interconnected storage hopper of the initial dispersed raw material (IDS) with the channel for supplying particles of IDS, the combustion chamber of the circulating fluidized bed (CCS) with the channel for the removal of gaseous products of combustion, the channel for air supply and the channel for ash removal, pyrolysis a CFM reactor with a channel for discharging a mixture of primary pyrolysis products, a first stage cyclone with a channel for discharging a mixture of pyrolysis gas with carbon particles and a solid return channel inert substance (TIV), a second-stage cleaning cyclone with a pyrolysis gas exhaust channel and a carbon particles return channel, a first-stage condenser with a non-condensed secondary pyrolysis gas vapor removal channel and a pyrolysis gas primary condensate exhaust channel, a second-stage condenser with a suction gas return channel a recirculation channel and a secondary condensate discharge channel for pyrolysis gas, a gas blower with a pressure channel for recirculating gas return connected to the pyrolysis reactor CKS, a pyrolysis pump fuel with a channel for supplying an intermediate condensate of pyrolysis gas for supercooling, a water heat exchanger with a first and second channel for supplying a supercooled condensate of pyrolysis gas, respectively, to a condenser of the first stage and a condenser of the second stage, a cooling water circulation circuit and a channel for taking the intermediate condensate for subcooling, a pyrolysis fuel purification unit with a channel for the removal of pollutants connected to the pyrolysis fuel pump and the stabilization unit of the pyrolysis fuel from the channel m of pyrolysis fuel removal, characterized in that it further comprises an IDC prechamber with an internal channel for supplying heated IDS to the pyrolysis reactor CKS and a TIV prechamber with an internal channel for transferring heated TIV to the pyrolysis reactor TsKS, while the combustion chamber TsKS is made in the form of a combined combustion chamber TsKS in which are placed with the possibility of heating due to the direct transfer of heat released during the combustion of the carbonaceous substance in the combustion chamber of the CCS, an IDC prechamber with an internal channel for supplying heated IDS, for amer TIV with an internal flow passage of heated TIV and concentrically mounted CFB pyrolysis reactor, wherein the pre-chamber CID is configured to remove residual moisture from the particles CIDs by thermal shock, and the flow channel particulate CIDs connected prechamber CIDs. (Russian patent №2604845, publ. 12/10/2016)

For the prototype, a furnace was selected for pyrolysis of wood waste, containing a furnace, a retort, pipes for supplying heat and removal of furnace gases (RF patent No. 2366685, publ. September 10, 2009).

The general disadvantages of the known devices include the violation of ecological balance, as well as the low efficiency of the gas generator due to the lack of isolation of the cycle of thermal processing of household waste.

The technical task is the disposal of industrial and household waste in an environmentally friendly way.

The technical result - the pyrolysis process at low temperatures with the possibility of affordable repair and maintenance work.

The technical result is achieved by a pyrolysis waste incinerator containing a furnace, a retort, a gas exhaust pipe, a storage tank, further comprising a reactor, a frame on which three coolers are mounted, a water pump, an aquafilter, a vacuum pump, a cooling tower, a pyrolysis gas passage pipe, a water pipe cooling, while the reactor is made in the form of a metal cylinder, the upper part of which is made in the form of a hemisphere with a hole along the edges of which a gasket is attached, the diameter of the hole I the reactor is 2-3 cm larger than the outer diameter of the retort, the inner wall is lined with fireclay bricks, the bottom has a firebox in the form of two nozzles for liquid fuel and a pyrolysis gas burner, a chimney is installed in the upper part, the retort is made of heat-resistant stainless steel in the form of metal cylinder with a flange and a gasket, on which a removable cover is tightly fastened by means of tightening locks, and on which sling rings are located, an outlet with a flange is welded to the center of the cover, to which a pipe with fl with pyrolysis gas vent, coolers are made in the form of steel cylinders of equal volumes with removable flanges installed at the bottom with drain valves, while d2cohl = 0.5d1cohl., d3cohl = 0.5d2cooler., have a rigid mount with a frame, on each cooler manometers and thermometers are installed, a manovacuum meter is additionally attached to the second cooler, a retort, coolers, an aquafilter and a pyrolysis gas burner are connected in series with each other by a pipeline for the passage of pyrolysis gases, while the upper connections are made rigid and, and the lower flanged ones, the pipe for discharging pyrolysis gases is connected to the pipeline for passage of pyrolysis gases through an adapter, the coolers in the lower part have outlets connected to the pyrolysis liquid accumulator, which is equipped with a shut-off valve, while an accumulation level sight glass is installed on the outlet of the third cooler pyrolysis liquid, the water cooling pipeline has a closed loop and is made in the form of steel pipes connected to coolers, a cooling tower and a water pump, while the connection to the cooling in the upper part it is made welded, in the lower part it is made in the form of a shut-off flange valve, a pressure gauge is installed on the pipeline, a pipe for filling with water is installed on the aquafilter, and a drain valve is installed in the lower part, the vacuum pump is connected to the pyrolysis gas passage pipeline through the pipe and valve , a thermometer is installed on the reactor.

The invention is illustrated by drawings, where in FIG. 1 shows a general installation diagram, FIG. 2 - retora, in FIG. 3 is a top view of the reactor; FIG. 4 - retort cover.

The pyrolysis waste incinerator consists of a frame 1 on which three coolers 3,4,5 are installed, a water pump 6, an aquafilter 7, a vacuum pump 8, a cooling tower 9, a pyrolysis gas passage 10, a water cooling pipeline 1. The reactor 2 is made in the form of a metal a cylinder, the upper part of which is made in the form of a hemisphere with an opening, the sealing gasket 12 is fastened to the edges of the cylinder, a furnace in the form of two nozzles on liquid fuel 13 and a pyrolysis gas burner 14 is located in the lower part, a chimney 1 is installed in the upper part 5. The retort 16 is made in the form of a metal cylinder with a flange 17 and a gasket 12, on which the cover 18 is tightly fastened by means of tightening locks 19, and on which the sling rings 20 are located, in the center of the cover a tap with a flange 21 is welded to which a pipe with a flange is attached 22 for the removal of pyrolysis gas. In the lower part of the coolers 3,4,5, detachable flanges 23 are installed with drain valves 24, pressure gauges 25 and thermometers 26 are installed on each cooler, an additional vacuum gauge 27 is mounted on the second cooler. Retort 16, coolers 3, 4, 5, aqvafilter 7 and burner the pyrolysis gas 14 are connected together in series by a pipe 10 for passage of pyrolysis gases, while the upper connections are rigid and the lower flange 28. The pipe for removing pyrolysis gases 22 is connected to the pipe 10 for passage of pyrolysis gases by means of transitions 29. Coolers in the lower part have taps 30 connected to the pyrolysis liquid storage device 31, which is equipped with a shut-off valve 32, while a sight glass 33 of the pyrolysis liquid storage level is installed at the outlet of the third cooler. The water cooling pipeline has a closed loop and is made in the form of steel pipes connected to coolers 3, 4, 5, cooling tower 9 and a water pump 6, while the connection to the coolers in the upper part is made welded, in the lower part it is made in the form of a shut-off flange valve 34 , pressure gauges 25 are installed on the pipeline. A water pipe 35 is installed on the aquafilter 7, and a drain valve 36 is installed at the bottom. A vacuum pump 8 is connected to the pyrolysis gas passage pipe 10 through a pipe 37 and valve 38. At the reactor 2, Installed thermometer 26.

An example of a specific implementation.

Waste is loaded into the retort 16 and closed by a cover 18. To create a tight seal, a gasket 12 is installed between the retort 16 and the cover 18. The cover 18 is attached to the retort 16 with the help of tightening locks 19. Using a load-lifting mechanism (not shown in the drawing) for the retorting rings 20 16 is immersed in the reactor 2 on the gasket 12 by the flange 17. Under its own weight, the retort 16 is tightly installed in the reactor.

Before starting the installation, all taps are closed. Before starting the reactor 2, the vacuum pump 8 is started using the valve 38 and minus pressure is created inside the system (- 0.5 - 1 atmospheres), which is controlled by a manovacuometer 27.

The vacuum pump 8 reduces the internal pressure in the retort, which ensures the rapid achievement of the beginning of the recycling process of the loaded waste. The temperature of the system is created and regulated depending on the type of waste using thermometers 26. Liquid fuel burners 13 are ignited (by any known method). The retort 16 starts to heat up. When the temperature reaches 250-300 ° C, pyrolysis gas begins to be released, which enters through the pyrolysis gas passage 10 to the 3.4.5 coolers. Passing through cooler 3, the largest fractions of pyrolysis gas are precipitated, passing through cooler 4 of middle fractions, passing through cooler 5, light fractions are deposited. Through taps 30, the deposited fractions enter the pyrolysis liquid accumulator 31, from where, as they accumulate, which is controlled by the sight glass 33, they merge through the shut-off valve 32 into the storage tank (it is not shown in the drawing, because it can be made stationary both portable and both under the shutoff valve and at a distance). Entering the aquafilter 7, the pyrolysis gas is purified and enters the reactor 2 through the pyrolysis gas passage 10 to the pyrolysis gas burner 14, thereby maintaining the temperature in the reactor 2 during the pyrolysis process. Liquid fuel burners 13 are turned off. When the pyrolysis gas ceases to flow into the reactor 2, the liquid fuel burners 13 are turned on, and the residues of the utilized waste are burnt.

The water cooling pipe 11 has a closed loop. When you turn on the water pump 6, chilled water enters the coolers 3,4,5 in the upper parts. Passing through the coolers, the water temperature rises due to the hot pyrolysis gas and exits in the lower parts of the coolers, and through the flange valves 34 through the water cooling pipe 11 it enters the cooling tower 9, where it is cooled.

During the combustion of liquid fuel in the reactor 2. the resulting smoke exits through the chimney 15.

Cranes 24 provide drainage of residual masses of fluid.

The removable flanges 23 allow the carrying out, as necessary, preventive cleaning of the coolers.

Flange valves 34 provide control of the cooling system.

Thus, the claimed pyrolysis waste incinerator provides a process at a low temperature at the beginning of the pyrolysis process with the possibility of affordable repair and maintenance work.

Claims (1)

A pyrolysis incinerator containing a furnace, a retort, a gas exhaust pipe, an accumulator, characterized in that it further comprises a reactor, a frame on which three coolers are installed, a water pump, an aquafilter, a vacuum pump, a cooling tower, a pyrolysis gas passage pipe, a water cooling pipeline moreover, the reactor is made in the form of a metal cylinder, the upper part of which is made in the form of a hemisphere with a hole along the edges of which a gasket is attached, the diameter of the reactor opening is larger than the diameter of the retort is 2-3 cm, the inner wall is lined with fireclay brick, in the lower part there is a furnace in the form of two nozzles for liquid fuel and a pyrolysis gas burner, a chimney is installed in the upper part, the retort is made of heat-resistant stainless steel in the form of a metal cylinder with a flange , to which the removable cover is tightly fastened by means of tightening locks, on which the sling rings are located, an outlet with a flange is welded to the center of the cover, to which a pipe with a flange is attached to discharge the pyrolysis gas, Pressure gauges are made in the form of steel cylinders of equal volumes with removable flanges installed in the lower part with drain valves, while d _2cohl = 0.5d _1cohl , d _3cohl = 0.5d _2cohl , have a rigid mount with a frame, pressure gauges and thermometers are installed on each cooler , a manovacuum meter, a retort, coolers, an aquafilter and a pyrolysis gas burner are additionally attached to each other in series with a piping for the passage of pyrolysis gases, the upper connections being rigid and the lower ones flanged, a pipe for pyrolysis gas water is connected to the pyrolysis gas passage through an adapter, coolers in the lower part have outlets connected to a pyrolysis liquid storage device, which is equipped with a shut-off valve, while the sight glass of the pyrolysis liquid storage level is installed on the outlet of the third cooler, the water cooling pipeline has a closed the circuit is made in the form of steel pipes connected to coolers, a cooling tower and a water pump, while the connection with coolers in the upper part is made welded, to the lower part is designed as a locking flange of the valve, pressure gauge installed on the pipeline, mounted on aquafiltering tube for filling with water and the bottom of the drain valve is installed, a vacuum pump connected to conduit pyrolysis gases pass through a pipe and valve.

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