Thermal cracking treatment method and equipment for hazardous waste and solid waste
1. The utility model provides a useless, useless thermal cracking treatment facility admittedly which characterized in that: comprises a dry distillation system (2); the dry distillation system (2) comprises a plurality of dry distillation chambers (21), the tops of the dry distillation chambers (21) are provided with a hopper (22) communicated with the dry distillation chambers (21) and a dry distillation gas collection device (23), and the upper end and the lower end of each dry distillation chamber (21) are provided with sealing doors (24); heat conducting walls (25) are arranged on two sides of the dry distillation chamber (21), a combustion chamber (251) is arranged in each heat conducting wall (25), a cavity is formed in each combustion chamber (251) in a hollow mode, a gas channel (2511) is arranged at the bottom of each combustion chamber (251), one end of each gas channel (2511) is communicated with each combustion chamber (251), the other end of each gas channel (2511) is communicated with a gas holder (42), and the number of the combustion chambers (251) is multiple; the combustion chamber (251) is provided with a plurality of heat storage chambers (26) at the lower part, a hot air channel (2512) is connected between each heat storage chamber (26) and the corresponding combustion chamber (251), the hot air channel (2512) is respectively connected with the bottom of the combustion chamber (251) and the top of the heat storage chamber (26), and the combustion chamber (251) is communicated with the heat storage chamber (26) through the hot air channel (2512).
2. The equipment for thermal cracking treatment of hazardous waste and solid waste according to claim 1, wherein: the number of the dry distillation chambers (21) and the number of the combustion chambers (251) are multiple, and the dry distillation chambers (21) and the combustion chambers (251) are equidistantly distributed in rows and columns.
3. The equipment for thermal cracking treatment of hazardous waste and solid waste according to claim 1 or 2, characterized in that: the hot air pipe (2512) is a bidirectional pipe, and gas flows from the combustion chamber (251) to the heat storage chamber (26) or from the heat storage chamber (26) to the combustion chamber (251) through the hot air pipe (2512).
4. The equipment for thermal cracking treatment of hazardous waste and solid waste according to claim 1 or 2, characterized in that: and circulation holes (2513) are formed in the upper parts of the partition walls of the combustion chambers (251), and communication holes (2514) are formed in the lower parts of the partition walls of the combustion chambers (251), so that the communication holes are not formed between the combustion chambers (251) at the two end parts of the dry distillation system (2) in order to prevent short circuit of combustible gas.
5. The equipment for thermal cracking treatment of hazardous waste and solid waste according to claim 1 or 2, characterized in that: the top of the combustion chamber (251) is provided with a fire observation hole (2515).
6. The equipment for thermal cracking treatment of hazardous waste and solid waste according to claim 1 or 2, characterized in that: the lower parts of the heat storage chambers (26) are provided with bidirectional air conveying channels (262); a plurality of two-way air conveying passages (262) are connected with a smoke channel (263) together, and two ends of the smoke channel (263) are respectively provided with a ventilation device (27).
7. The equipment for thermal cracking treatment of hazardous waste and solid waste according to claim 1 or 2, characterized in that: the device also comprises an oil gas recovery and separation device, a combustible gas recovery and supply device, a slag pushing device, a slag car (6), a waste heat boiler and a chimney (8); a plurality of dry distillation chambers (21) of the dry distillation furnace system (2) are connected with a hopper (22) together, one side of the dry distillation system (2) is provided with a slag transport vehicle (6), and the other side is provided with a set of slag pushing device; the multiple dry distillation chambers (21) of the dry distillation system (2) are connected with a dry distillation gas collecting device (23) together, the dry distillation gas collecting device (23) is communicated with an oil-gas recovery and separation device through a pipeline, and the oil-gas recovery and separation device comprises an oil-gas separator, a condenser and an oil-water separator; the gas end output by the oil gas recovery and separation device is provided with a combustible gas recovery and supply device and is communicated with the combustible gas recovery and supply device; the combustible gas recovery gas supply device comprises an induced draft fan and a gas holder (42), wherein the induced draft fan is connected with the gas output end of the oil-gas recovery and separation device, and the gas holder (42) is arranged at one end, far away from the oil-gas recovery and separation device, of the induced draft fan and is connected with the gas holder (42).
8. A thermal cracking treatment method for hazardous waste and solid waste, which uses the treatment equipment defined in any one of claims 1-7, characterized by comprising the following steps:
A. classifying, screening and crushing dangerous waste and solid waste, conveying the classified and crushed dangerous waste and solid waste to a dry distillation system through a bin of a crushing workshop, loading crushed dangerous waste and solid waste particles into a hopper (22) by a charging car (12), and filling the crushed dangerous waste and solid waste particles into a dry distillation chamber (21) at the upper part of the dry distillation system (2) from a plurality of material inlet openings (221) in the hopper (22);
B. the gas holder (42) is used for introducing combustible gas into the combustion chamber (251) through the gas passage (2511), the combustible gas is fully combusted in the combustion chamber (251), heat generated by combustion is transferred to the heat conducting wall (25), the heat conducting wall (25) transfers the heat to the adjacent dry distillation chamber (21), the temperature of the dry distillation chamber (21) is increased and kept between 500 ℃ and 900 ℃, and dry distillation gas and material residues are generated in the dry distillation chamber (21) at the moment; the flue gas generated by the combustion chamber (251) enters a chimney (8) after being purified by a ventilation device (27);
C. the dry distillation gas generated by dry distillation in the dry distillation chamber (21) is introduced into an oil-gas recovery and separation device, the dry distillation gas is separated into gaseous fuel oil and combustible gas through an oil-gas separator, the separated gaseous fuel oil is subjected to moisture removal through an oil-water separator and is liquefied to preliminarily form liquid fuel oil, the separated combustible gas is subjected to moisture removal through a condenser and then is introduced into a gas holder (42) through an induced draft fan, and the combustible gas is introduced into a combustion chamber (251) through the gas holder (42);
D. after dangerous waste and solid waste dry distillation in the dry distillation chamber (21) is finished, the sealing door (24) is opened, the slag pushing device is started to push the generated waste slag out of the dry distillation system (2) and push the waste slag into the slag transport vehicle (6), the sealing door (24) is closed at the moment, the waste slag is transported to the waste heat boiler by the slag transport vehicle (6), and the whole process flow of dry distillation treatment is completed.
9. The thermal cracking treatment method for dangerous waste and solid waste according to claim 8, characterized in that: the combustion chamber (251) is divided into two operating periods: when the combustion chamber (251) works, combustible gas in the combustion chamber (251) is combusted to generate waste gas, the gas in the combustion chamber (251) is subjected to thermal expansion, the combustion waste gas flows into the heat storage chamber (26) from the combustion chamber (251) through the hot air channel (2512) from top to bottom under the action of pressure, the combustion waste gas transfers heat to the heat storage bricks (261) of the heat storage chamber (26), and then the heat is discharged into the chimney (8) through the bidirectional gas conveying channel (262) and the smoke channel (263); the combustion waste gas flows from the combustion chamber (251) to the heat storage chamber (26) from top to bottom, and the working period of the flow is called as a first working period; gas is supplied to the combustion chamber (251) from a gas holder (42), the gas is introduced into the combustion chamber (251) through a gas channel (2511), air flows through a flue gas channel (263) and a bidirectional gas transmission channel (262) and enters the heat storage chamber (26), when passing through the heat storage chamber (26), the air is heated through a heat storage brick (261) of the heat storage chamber (26), and the heated hot air finally flows into the combustion chamber (251) through a hot air channel (2512) and is mixed with combustible gas to support combustion; the air flows from the heat storage chamber (26) to the combustion chamber (251) from bottom to top, and the working period of the flowing direction is called as a second working period.
Background
The generation amount of dangerous waste in our country is increasing in recent years. The statistical data of the department of ecological environment shows that the general industrial solid waste production of 196 large and medium cities in 2019 is 13.8 hundred million tons, and the industrial hazardous waste production is 4498.9 million tons. Common hazardous wastes include waste circuit boards, medical wastes and the like, and solid wastes include furan white plastics, waste rubber tires and the like. With the development of industry, the discharge of hazardous waste and solid waste in the industrial production process is increasing day by day. In 2017, the yield of waste of the Chinese electronic appliances is nearly 800 ten thousand tons, which is second only to the United states and is located in the second place of the world, in different electronic and electric products, the proportion of circuit boards is 2-20%, and estimated as 5%, 40 ten thousand tons of waste circuit boards are generated in China every year. According to the display of a recycled plastic information network, 6300 ten thousand tons of waste plastics are produced in 2019, wherein the landfill amount is 2016 ten thousand tons and accounts for 32 percent; the burning amount is 1953 ten thousand tons, and the proportion is 31 percent; the abandoned amount is 441 ten thousand tons, and the percentage is 7 percent. According to the commercial network of Chinese tires, 1000 more than ten thousand tons of waste tires are produced in 2020 in China continental land only. The harmful substances have corrosivity, toxicity and inflammability, and can not only pollute water and soil and destroy the ecological environment, but also threaten the health of human beings, animals and plants if being randomly discarded, such as dangerous waste and solid waste which are not specially treated, are not easily degraded when flowing into the natural environment, and can exist in the natural environment for a long time. While the prior art is mainly used for treating the waste, the method is incineration, and although the method can treat the dangerous waste and the solid waste in a short time, the treatment method has the problems of large pollution, low comprehensive utilization rate of resources and the like for a long time. Therefore, a method and equipment for treating hazardous waste and solid waste are urgently needed, and the solid waste and the hazardous waste are safely, scientifically and effectively treated in a harmless manner.
Disclosure of Invention
The invention aims to provide a thermal cracking treatment method and equipment for hazardous wastes and solid wastes, which avoid the environmental waste caused by the traditional hazardous wastes and solid wastes incineration or burying treatment by carrying out thermal cracking on the hazardous wastes and the solid wastes, achieve the effects of recycling and harmless treatment of the hazardous wastes and solid wastes, save more energy and protect more environment, and solve the problems in the background technology.
The technical scheme of the invention is as follows:
a thermal cracking treatment device for hazardous waste and solid waste comprises a dry distillation system; the dry distillation system comprises a plurality of dry distillation chambers, the tops of the dry distillation chambers are provided with hoppers communicated with the dry distillation chambers and dry distillation gas collecting devices, and the upper end and the lower end of each dry distillation chamber are provided with sealing doors; heat conducting walls are arranged on two sides of the dry distillation chamber, a combustion chamber is arranged in each heat conducting wall, a cavity is formed in each combustion chamber in a hollow mode, a gas passage is arranged at the bottom of each combustion chamber, one end of each gas passage is communicated with the combustion chamber, the other end of each gas passage is communicated with the gas holder, and the number of the combustion chambers is multiple; the lower part of the combustion chamber is provided with a plurality of heat storage chambers, a hot air channel is connected between each heat storage chamber and the corresponding combustion chamber, the hot air channels are respectively connected with the bottom of each combustion chamber and the top of each heat storage chamber, and the combustion chambers are communicated with the heat storage chambers through the hot air channels.
The number of the dry distillation chambers and the combustion chambers is multiple, and the dry distillation chambers and the combustion chambers are distributed in rows and columns at equal intervals.
The hot air pipe is a bidirectional pipe, and gas can flow from the combustion chamber to the heat storage chamber through the hot air pipe or from the heat storage chamber to the combustion chamber.
The upper part between the partition walls of the combustion chambers is provided with a circulation hole, the lower part between the partition walls of the combustion chambers is provided with a communicating hole, and the communicating holes are not arranged between the combustion chambers positioned at the two end parts of the dry distillation system for preventing the short circuit of combustible gas; and the top of the combustion chamber is provided with a viewing hole.
The lower parts of the heat storage chambers are provided with bidirectional air conveying channels; a plurality of two-way gas transmission ways are connected with a flue gas channel together, and two ends of the flue gas channel are respectively provided with a ventilation device.
The hazardous waste and solid waste thermal cracking treatment equipment also comprises an oil gas recovery and separation device, a combustible gas recovery and supply device, a slag pushing device, a slag car, a waste heat boiler and a chimney; a plurality of dry distillation chambers of the dry distillation furnace system are connected with a hopper together, one side of the dry distillation system is provided with a slag conveying vehicle, and the other side of the dry distillation system is provided with a set of slag pushing devices; the multiple dry distillation chambers of the dry distillation system are commonly connected with a dry distillation gas collecting device, the dry distillation gas collecting device is communicated with an oil-gas recovery and separation device through a pipeline, and the oil-gas recovery and separation device comprises an oil-gas separator, a condenser and an oil-water separator; the gas end output by the oil gas recovery and separation device is provided with a combustible gas recovery and supply device and is communicated with the combustible gas recovery and supply device; the combustible gas recovery gas supply device comprises an induced draft fan and a gas holder, wherein the induced draft fan is connected with the gas output end of the oil-gas recovery and separation device, and the gas holder is arranged at one end, far away from the oil-gas recovery and separation device, of the induced draft fan and is connected with the gas holder.
A thermal cracking treatment method for hazardous waste and solid waste adopts the treatment equipment, and comprises the following steps:
A. classifying, screening and crushing dangerous waste and solid waste, and then conveying the classified, screened and crushed dangerous waste and solid waste to a dry distillation system through a bin of a crushing workshop, loading crushed dangerous waste and solid waste particles into a hopper by a charging car, and filling the crushed dangerous waste and solid waste particles into a dry distillation chamber at the upper part of the dry distillation system from a plurality of material inlet openings in the hopper;
B. the gas holder is used for introducing combustible gas into the combustion chamber through the gas passage and fully combusting the combustible gas in the combustion chamber, the heat generated by combustion is transferred to the heat conducting wall, the heat conducting wall transfers the heat to the adjacent dry distillation chamber, the temperature of the dry distillation chamber is increased and kept between 500 ℃ and 900 ℃, and dry distillation gas and material residues are generated in the dry distillation chamber; the flue gas generated by the combustion chamber enters a chimney after being purified by a ventilation device;
C. introducing dry distillation gas generated by dry distillation in the dry distillation chamber into an oil-gas recovery and separation device, separating the dry distillation gas into gaseous fuel oil and combustible gas through an oil-gas separator, removing moisture of the separated gaseous fuel oil through an oil-water separator, liquefying the gaseous fuel oil to preliminarily form liquid fuel oil, removing moisture of the separated combustible gas through a condenser, introducing the separated combustible gas into a gas holder through an induced draft fan, and introducing the combustible gas into a combustion chamber through the gas holder;
D. after dangerous waste and solid waste dry distillation in the dry distillation chamber is finished, the sealing door is opened, the slag pushing device is started to push the generated waste slag out of the dry distillation system and push the waste slag into the slag transport vehicle, the sealing door is closed at the moment, and the waste slag is transported to the waste heat boiler by the slag transport vehicle, so that the whole process flow of dry distillation treatment is completed.
The combustion chamber is divided into two working periods: when the combustion chamber works, combustible gas in the combustion chamber is combusted to generate waste gas, the gas in the combustion chamber is heated to expand, the combustion waste gas flows into the heat storage chamber from top to bottom through the hot air channel from the combustion chamber under the action of pressure, the combustion waste gas transfers heat to the heat storage bricks of the heat storage chamber, and then the heat is discharged into the chimney through the bidirectional gas transmission channel and the flue gas channel. The combustion waste gas flows from the combustion chamber to the heat storage chamber from top to bottom, and the working period of the flow direction is called as a first working period; the gas is supplied to the combustion chamber from the gas holder, the gas is introduced into the combustion chamber through the gas passage, the air flows through the flue gas passage and the bidirectional gas transmission passage and enters the heat storage chamber, when the air passes through the heat storage chamber, the air is heated by the heat storage bricks of the heat storage chamber, and the heated hot air finally flows into the combustion chamber through the hot air passage and is mixed with the combustible gas to support combustion; the air flows from the heat storage chamber to the combustion chamber from bottom to top, and the working period of the flowing direction is called as a second working period.
The invention has the beneficial effects that:
1. the invention can recycle the fuel gas and fuel oil generated by thermal cracking, and can recycle the waste heat of the cracking waste residue, thereby avoiding resource waste and fully realizing the maximization of resource utilization;
2. the invention has little pollution, and the waste gas generated by combustion is treated by the air interchanger and then is discharged after reaching the standard;
3. the processing capacity of the dry distillation system can be adjusted according to production requirements, the hazardous waste and solid waste can be treated by 10-300 million tons each year, the investment is small, the effect is fast, the capacity of supplementing the hazardous waste and solid waste in the market is insufficient, and the demand is greater than the supply vacancy;
4. the treatment temperature of the dry distillation system can be adjusted, the temperature range is 500-900 ℃, and the treatment temperature can be conveniently adjusted according to different dry distillation products;
5. the heat storage chamber has excellent structure and high heat recovery efficiency, and can fully utilize available resources at each place.
Drawings
FIG. 1 is a schematic view showing the construction of a dry distillation system according to an embodiment of the present invention;
FIG. 2 is a schematic cross-sectional view of a retort system in accordance with an embodiment of the present invention;
FIG. 3 is a cross-sectional view A-A of FIG. 2 according to the present invention;
FIG. 4 is a cross-sectional view B-B of FIG. 2 according to the present invention;
FIG. 5 is a cross-sectional view C-C of FIG. 2 of the present invention;
FIG. 6 is a cross-sectional view taken along line D-D of FIG. 2 in accordance with the present invention;
FIG. 7 is a schematic view of a ventilator according to an embodiment of the present invention;
FIG. 8 is a schematic structural diagram of a slag pushing cart according to an embodiment of the invention;
FIG. 9 is a schematic structural view of a slag dumping car according to an embodiment of the invention;
FIG. 10 is a schematic structural view of a slag car according to an embodiment of the invention;
FIG. 11 is a schematic process flow diagram according to an embodiment of the present invention;
in the figure: 12. Charging a car; 2. A dry distillation system; 21. A dry distillation chamber; 22. A hopper; 221. A feeding port; 23. A dry distillation gas collection device; 24. A sealing door; 25. A heat conducting wall; 251. A combustion chamber; 2511. A gas passage; 2512. A hot air channel; 2513. A circulation hole; 2514. A connecting hole; 2515. A fire observation hole; 26. A heat storage chamber; 261. Heat storage bricks; 262. A bidirectional gas transmission channel; 263. A flue gas channel; 27. A ventilation device; 271. A first ventilation pipeline; 272. An air valve; 273. A purifying bin; 274. A second ventilation pipeline; 275. An exhaust gas valve; 42. A gas holder; 51. Pushing a slag car; 52. A slag guide vehicle; 6. A slag car and an 8-chimney.
Detailed Description
The invention is further illustrated by the following examples in conjunction with the accompanying drawings.
A thermal cracking treatment device for hazardous waste and solid waste comprises a dry distillation system 2; the dry distillation system 2 comprises a plurality of dry distillation chambers 21, the tops of the dry distillation chambers 21 are provided with hoppers 22 communicated with the dry distillation chambers 21 and dry distillation gas collecting devices 23, and the upper end and the lower end of each dry distillation chamber 21 are provided with sealing doors 24; heat conducting walls 25 are arranged on two sides of the dry distillation chamber 21, a combustion chamber 251 is arranged in each heat conducting wall 25, a cavity is formed in each combustion chamber 251 in a hollow mode, a gas channel 2511 is arranged at the bottom of each combustion chamber 251, one end of each gas channel 2511 is communicated with each combustion chamber 251, the other end of each gas channel 2511 is communicated with the gas holder 42, and the number of the combustion chambers 251 is multiple; the lower part of the combustion chamber 251 is provided with a plurality of heat storage chambers 26, a hot air channel 2512 is connected between the heat storage chamber 26 and the corresponding combustion chamber 251, the hot air channel 2512 is respectively connected with the bottom of the combustion chamber 251 and the top of the heat storage chamber 26, and the combustion chamber 251 and the heat storage chamber 26 are communicated through the hot air channel 2512.
The number of the dry distillation chambers 21 and the combustion chambers 251 is multiple, and the dry distillation chambers 21 and the combustion chambers 251 are equidistantly distributed in rows and columns.
The hot air pipe 2512 is a bidirectional pipe, and gas may flow from the combustion chamber 251 to the heat storage chamber 26 through the hot air pipe 2512, or may flow from the heat storage chamber 26 to the combustion chamber 251.
A circulation hole 2513 is arranged at the upper part between the partition walls of the combustion chamber 251, a communicating hole 2514 is arranged at the lower part between the partition walls of the combustion chamber 251, and the communicating holes 2514 are not arranged between the combustion chambers 251 at the two end parts of the dry distillation system 2 in order to prevent short circuit of combustible gas; the top of the combustion chamber 251 is provided with a viewing hole 2515.
The lower parts of the heat storage chambers 26 are provided with bidirectional air conveying channels 262; the two-way air ducts 262 are connected with a smoke channel 263, and two ends of the smoke channel 263 are respectively provided with a ventilation device 27.
The thermal cracking treatment equipment for hazardous waste and solid waste also comprises an oil-gas recovery and separation device, a combustible gas recovery and supply device, a slag pushing device, a slag car 6, a waste heat boiler and a chimney 8; a plurality of dry distillation chambers 21 of the dry distillation furnace system 2 are connected with a hopper 22 together, one side of the dry distillation system 2 is provided with a slag transport vehicle 6, and the other side is provided with a set of slag pushing devices; the multiple dry distillation chambers 21 of the dry distillation system 2 are commonly connected with a dry distillation gas collecting device 23, the dry distillation gas collecting device 23 is communicated with an oil-gas recovery and separation device through a pipeline, and the oil-gas recovery and separation device comprises an oil-gas separator, a condenser and an oil-water separator; the gas end output by the oil gas recovery and separation device is provided with a combustible gas recovery and supply device and is communicated with the combustible gas recovery and supply device; combustible gas retrieves gas supply unit includes draught fan and gas holder 42, the draught fan is connected with vapor recovery separator's gas output, the one end that vapor recovery separator was kept away from to the draught fan is equipped with gas holder 42 to be connected with gas holder 42.
A thermal cracking treatment method for hazardous waste and solid waste adopts the treatment equipment, and comprises the following steps:
A. classifying, screening and crushing dangerous waste and solid waste, conveying the classified and crushed dangerous waste and solid waste to a dry distillation system through a bin of a crushing workshop, loading crushed dangerous waste and solid waste particles into a hopper 22 by a charging car 12, and filling the crushed dangerous waste and solid waste particles into a dry distillation chamber 21 at the upper part of the dry distillation system 2 from a plurality of material inlet openings 221 in the hopper 22;
B. the gas holder 42 introduces combustible gas into the combustion chamber 251 through the gas passage 2511, the combustible gas is fully combusted in the combustion chamber 251, heat generated by the combustion is transferred to the heat conducting wall 25, the heat conducting wall 25 transfers the heat to the adjacent dry distillation chamber 21, the temperature of the dry distillation chamber 21 is increased and kept between 500 ℃ and 900 ℃, and dry distillation gas and material residues are generated in the dry distillation chamber 21; the flue gas generated by the combustion chamber 251 enters the chimney 8 after being purified by the air interchanger 27;
C. introducing dry distillation gas generated by dry distillation in the dry distillation chamber 21 into an oil-gas recovery and separation device, separating the dry distillation gas into gaseous fuel oil and combustible gas through an oil-gas separator, removing moisture of the separated gaseous fuel oil through an oil-water separator, liquefying the separated gaseous fuel oil to preliminarily form liquid fuel oil, removing moisture of the separated combustible gas through a condenser, introducing the separated combustible gas into a gas holder 42 through an induced draft fan, and introducing the combustible gas into a combustion chamber 251 through the gas holder 42;
D. after dangerous waste and solid waste are subjected to dry distillation in the dry distillation chamber 21, the sealing door 24 is opened, the slag pushing device is started to push the generated waste slag out of the dry distillation system 2 and push the waste slag into the slag transport vehicle 6, the sealing door 24 is closed at the moment, the waste slag is transported to the waste heat boiler by the slag transport vehicle 6, and the whole process flow of dry distillation treatment is completed.
More specific embodiments in the examples: reference is made to fig. 1-11.
The utility model provides a thermal cracking treatment equipment that useless, admittedly useless, is including smashing workshop, dry distillation system 2, oil gas recovery separator, combustible gas recovery air feeder 4, pushing away sediment device, fortune slag car 6, exhaust-heat boiler and chimney 8. The crushing plant crushes the material and transports it to the retort system 2 adjacent to it by means of a charging car 12.
The dry distillation system 2 is composed of a plurality of dry distillation chambers 21, each dry distillation chamber 21 is a hollow cavity, each cavity is in a cuboid shape and is vertically arranged in the length direction, each dry distillation chamber 21 is a dangerous waste and solid waste thermal cracking place, each dry distillation chamber 21 is a closed cavity, each interior of each dry distillation chamber is formed by building refractory bricks, waste residues are removed conveniently after dry distillation, the widths of two ends of each dry distillation chamber 21 in the horizontal direction are unequal, one end of each dry distillation chamber is wider (a residue pushing end), and the other end of each dry distillation chamber is narrower (a residue discharging end). The height and length of the dry distillation chamber 21 may be different according to the material processing capacity, the height of the dry distillation chamber 21 may be designed to be about 3-10 m, and the length of the dry distillation chamber 21 may be designed to be about 10-18 m.
The hazardous waste and the solid waste are pyrolyzed in the dry distillation chamber 21 to generate high-temperature oil-gas mixture and waste residue. The hazardous waste and the solid waste are pyrolyzed in the dry distillation chamber 21 to generate waste slag which is transported to a waste heat boiler by a slag pushing device 5 and a slag transport vehicle 6. The slag pushing device 5 comprises a slag pushing cart 51 and a slag guiding cart 52, wherein the slag pushing cart 51 pushes the combustion waste slag out of the dry distillation chamber 21 and onto the slag guiding cart 52, the slag guiding cart 52 pushes the combustion waste slag out of the dry distillation chamber 21, the combustion waste slag is conveyed to the slag transporting cart 6, and the slag transporting cart 6 finally conveys the combustion waste slag to the waste heat boiler. The dry distillation system 2 can burn to generate waste gas in the dry distillation process, and the generated waste gas is discharged from a chimney 8 after standard reaching treatment.
A hopper 22 is arranged above the dry distillation chamber 21, a plurality of feeding ports 221 are formed in the bottom of the hopper 22, a dry distillation gas collecting device 23 is further arranged on the same side, provided with the feeding ports 221, of the dry distillation chamber 21, and the dry distillation gas collecting device 23 is far away from the feeding ports 221. One end of the dry distillation gas collection device 23, which is far away from the dry distillation chamber 21, is connected with an oil-gas recovery and separation device 3, and the oil-gas recovery and separation device 3 comprises an oil-gas separator 31, a condenser and an oil-water separator 33.
One end of the dry distillation gas collection device 23, which is far away from the dry distillation chamber 21, is connected with an oil-gas separator, the oil-gas separator can preliminarily separate the dry distillation gas generated by dry distillation into gaseous oil and combustible gas, and one end of the oil-gas separator, which is far away from the dry distillation gas collection device 23, is simultaneously connected with a condenser and an oil-water separator. Gaseous state oil can get rid of its moisture and form comparatively pure liquid oil through oil water separator processing, forms comparatively pure gas after the moisture is got rid of to the combustible gas through the condenser, the one end that oil water separator was kept away from to the condenser is connected with combustible gas and retrieves air feeder. The combustible gas retrieves gas supply unit includes an draught fan and a gas holder 42, the condenser is kept away from oil and gas separator's one end and is connected with the draught fan, the one end that the condenser was kept away from to the draught fan is connected with gas holder 42. The gas holder 42 can supply combustible gas to the dry distillation system 2 so as to realize collection, separation, treatment and reutilization of dry distillation gas.
And heat conducting walls 25 parallel to the dry distillation chamber 21 are respectively arranged on two sides of the dry distillation chamber, and the heat conducting walls 25 are made of heat conducting refractory materials. The heat conducting wall 25 is hollow to form a plurality of cavities similar to the dry distillation chamber 21 in size, namely a combustion chamber 251, and the dry distillation chamber 21 and the combustion chamber 251 are arranged side by side. The number of the dry distillation chambers 21 and the combustion chambers 251 is multiple, and the dry distillation chambers 21 and the combustion chambers 251 are equidistantly distributed in rows and columns.
The bottom of the combustion chamber 251 is respectively provided with a gas channel 2511 and two hot air channels 2512, one end of the gas channel 2511 is communicated with the bottom of the combustion chamber 251, and one end of the gas channel 2511, which is far away from the combustion chamber 251, is provided with a gas holder 42 and is connected with the gas holder.
One end of the hot air channel 2512 is communicated with the bottom of the combustion chamber 251, and one end of the hot air channel 2512, which is far away from the combustion chamber 251, is provided with the heat storage chamber 26 and is connected with the upper part of the heat storage chamber 26, so that the combustion chamber 251 is communicated with the heat storage chamber 26. The hot air pipe 2512 is a bidirectional pipe, and gas may flow from the combustion chamber 251 to the heat storage chamber 26 through the hot air pipe 2512, or may flow from the heat storage chamber 26 to the combustion chamber 251.
Circulation holes 2513 are formed in the upper parts of the partition walls of the combustion chamber 251, communication holes 2514 are formed in the lower parts of the partition walls of the combustion chamber 251, and the communication holes 2514 are not formed between the combustion chambers 251 at the two end parts of the dry distillation system 2 in order to prevent short circuit of combustible gas. The top of the combustion chamber 251 is provided with a viewing hole 2515.
The below of combustion chamber 251 is equipped with heat-retaining room 26, heat-retaining room 26's quantity is a plurality of, and distributes according to row and row equidistance, heat-retaining room 26 inner wall is equipped with heat-retaining brick 261, heat-retaining brick 261 is hollow refractory material brick for the heat of storage burning waste gas transmission. The lower part of the heat storage chamber 26 is connected with a bidirectional gas transmission channel 262, the bidirectional gas transmission channels 262 at the lower part of each row of heat storage chambers 26 are connected with a complete flue gas channel 263 together, and the trend of each row of flue gas channels 263 corresponds to the length direction of the carbonization chamber 21. Two ends of the smoke channel 263 are respectively provided with a ventilation device 27. The bidirectional gas duct 262 and the flue gas duct 263 allow both the exhaust of combustion exhaust gases and the supply of fresh air, the gas flow direction of which is controlled by the ventilator 27. Therefore, the gas in the heat storage chamber 26 is changed in flow at regular intervals.
The air interchanger 27 is composed of an air interchanging pipeline I271, an air valve 272, a purifying bin 273, an air interchanging pipeline II 274 and a waste gas valve 275, the purifying bin 273 is connected with the flue gas channel 263 through the air interchanging pipeline II 274 and the waste gas valve 275, and the flue gas generated by the combustion chamber 251 enters the chimney 8 after being purified by the purifying bin 273; the first ventilation pipe 271 is connected with the purification bin 273 through an air valve 272.
The combustion chamber 251 is divided into two operating periods: when the combustion chamber 251 works, the combustible gas in the combustion chamber 251 is combusted to generate exhaust gas, the gas in the combustion chamber 251 is subjected to thermal expansion, the combustion exhaust gas flows into the heat storage chamber 26 from top to bottom from the combustion chamber 251 through the hot air channel 2512 under the action of pressure, the combustion exhaust gas transfers heat to the heat storage bricks 261 of the heat storage chamber 26, and then the heat is discharged into the chimney 8 through the bidirectional gas conveying channel 262 and the smoke channel 263. The combustion waste gas flows from the combustion chamber 251 to the heat storage chamber 26 from top to bottom, and the working period of the flow is called as a first working period; the gas is supplied to the combustion chamber 251 from the gas holder 42, the gas is introduced into the combustion chamber 251 through the gas passage 2511, the air flows through the flue gas passage 263 and the bidirectional gas transmission passage 262 and enters the heat storage chamber 26, when the air passes through the heat storage chamber 26, the air is heated through the heat storage bricks 261 of the heat storage chamber 26, and the heated hot air finally flows into the combustion chamber 251 through the hot air passage 2512 and is mixed with the combustible gas to support combustion; the air flows from the heat storage chamber 26 to the combustion chamber 251 from the bottom to the top, and the working period of the flowing direction is called as a second working period.
To facilitate an understanding of the present invention, the heat storage chamber 26 is now briefly described in gas flow communication with the combustion chamber 251. The explanation will be given only by taking as an example the reference a combustion chamber 251, the reference B combustion chamber 251, the reference C combustion chamber 251, and the reference D combustion chamber 251 and the reference a heat storage chamber 26, the reference B heat storage chamber 26, the reference C heat storage chamber 26, and the reference D heat storage chamber 26 corresponding thereto, and the other combustion chambers 251 and heat storage chambers 26 are the same as those in the above case, and so on.
In the first working period, the gas channel 2511 in the combustion chamber 251 of reference sign a introduces gas into the combustion chamber 251, the hot air channel 2512 provides fresh air for the combustion chamber 251 of reference sign a, the gas channel 2511 in the combustion chamber 251 of reference sign B is closed, and the hot air channel 2512 in the combustion chamber 251 of reference sign B is used for sucking and exhausting waste gas combusted in the combustion chamber 251 of reference sign a. At this time, fresh air flows in the label A heat storage chamber 26 connected with the label A combustion chamber 251, flows through the label A heat storage chamber 26 from the smoke channel 263 and the bidirectional air conveying channel 262 from bottom to top, flows through the hot air channel 2512 from the label A heat storage chamber 26 and finally reaches the label A combustion chamber 251; the combustion waste gas flows in the B heat storage chamber 26 connected with the B combustion chamber 251, flows through the hot air channel 2512 from top to bottom from the B combustion chamber 251 to the B heat storage chamber 26, and flows into the chimney 8 from the B heat storage chamber 26 through the bidirectional air conveying channel 262 and the smoke channel 263.
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