RU2645029C1 - Plant for thermal decomposition of unsorted solid organic wastes - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: plant for thermal decomposition of unsorted solid organic wastes comprises an loading device, a pyrolysis chamber installed inside the combustion chamber in the body to form a zone for extracting pyrolysis gas and feeding to external consumer and combustion chamber, it is also equipped with a storage chamber, a funnel-shaped shield forming an annular zone for removing water vapour and light volatile compounds through holes in the pyrolysis chamber body is installed in the pyrolysis chamber, the pyrolysis chamber is installed with lip-type seal inside the combustion chamber to form a zone for extracting the mixture of process gases. The combustion chamber is provided with a branch pipe for discharging the mixture of process gases through heat exchanger-air heater connected by air duct of hot air through a manifold with gas burners. The pyrolysis chamber is provided with slot manifold for extracting pyrolysis gas for supplying to external consumer and into the combustion chamber. The combustion chamber is configured for supplying solid fuel thereto.

EFFECT: increased efficiency and reliability for thermal processing of unsorted solid organic wastes with production of high quality combustible gas.

3 cl, 2 dwg

Description

The invention relates to devices for the thermal processing of solid organic waste, including domestic, without prior sorting and can be used in the national economic complex for the disposal and destruction of waste.

Known installations for the disposal and destruction of solid waste, including a gasification chamber of a recovery furnace with drying, pyrolysis and gasification zones with openings for introducing an oxygen-containing gasifying agent and outlet openings for discharging gaseous products into the afterburning chamber, a device for controlling the flow of a gasifying agent, one an opening for introducing an oxygen-containing agent is located in the gasification zone, another in the drying zone (Patent for the invention of the Russian Federation No. 2089786, IPC F23G 5/00, 1997, patent for ISO shaving of the Russian Federation No. 2089787 IPC F23G 5/00, 1997).

The disadvantages of these devices are the low reliability due to freezing of the processed waste in the upper part of the gasification chamber, associated with the release of resins from the waste by pyrolysis gas rising from the bottom of the gasification chamber, a complex structure due to the presence of additional energy-intensive devices for producing a gasification agent.

A known installation for the disposal and destruction of municipal solid waste (MSW), (RF patent No. 2201552, IPC F23G 5/027, F23G 5/14, 2003), containing a loading device, a gasification chamber with openings for the discharge of gaseous products, an afterburner , a waste receiving container, a device for removing gaseous products of processing and a combustion chamber, some of which are located in the lower part of the afterburning chamber of the tangentially external surface of the working space of the chamber, and others are located in the lower part of the gasification chamber sous to center of the chamber and connected to the openings O of the gaseous products of the gasification chamber. The afterburning chamber covers the drying zone and the pyrolysis zone of the gasification chamber, the lower part of which is located in the housing with the formation of an annular space connected to the internal volume of the gasification chamber and to the outlet openings of gaseous products. Combustion chambers located radially to the center of the gasification chamber are installed between the housing and the afterburner.

The disadvantage of this installation is its low efficiency due to clogging by the pre-processed solid waste solid waste mass of the pyrolysis gas outlet channel, which leads to a decrease in the channel cross-section, the accumulation of pyrolysis gas in the gasification chamber and the impossibility of its entry to the consumer.

A known installation for the disposal and destruction of solid waste (patent for the invention of the Russian Federation No. 2282788, IPC F23G 5/027, F23G 5/24, 2006), adopted as a prototype, containing a loading device, a gasification chamber with pyrolysis gas outlet openings installed in the housing with the possibility of forming a pyrolysis gas extraction zone for supplying it to the combustion chambers and to an external consumer, an afterburner, a device for removing gaseous products of combustion. Part of the chambers is made with the possibility of complete combustion of pyrolysis gas, another part of the chambers is capable of receiving a gasifying agent when burning pyrolysis gas and placed in a housing with the possibility of supplying a gasifying agent to the gasification chamber. The installation is equipped with deflectors located in the afterburner and made in the form of flat tapes covering the gasification chamber along a helix. The pyrolysis gas combustion chambers are installed at an angle of inclination of the helix lines of the deflectors so that the high-temperature high-velocity flows of combustion products formed at the outlet of the combustion chambers enter the channels formed by the helical surfaces of the deflectors and, moving along the channel, wash the outer surface of the gasification chamber, transferring to it most of the heat energy.

The disadvantages of this installation are the production of low-quality fuel gas due to its saturation with water vapor in the drying zone and low reliability due to the complexity of the design of the boot device.

The technical result of the invention is to increase the efficiency and reliability of the thermal processing of unsorted solid organic waste to produce high quality combustible gas.

The technical result is achieved in that the installation for thermal decomposition of unsorted solid organic waste containing a loading device, a pyrolysis chamber installed inside the combustion chamber in the housing, with the formation of a pyrolysis gas extraction zone for supplying it to an external consumer and into the combustion chamber, is equipped with a storage chamber, a funnel-shaped visor is installed in the pyrolysis chamber, forming an annular zone for removal through the openings in the housing of the pyrolysis chamber of water vapor and light volatile compounds the pyrolysis chamber is installed with a lip seal inside the combustion chamber with the formation of a process gas mixture extraction zone, while the combustion chamber is equipped with a nozzle for exhausting the process gas mixture through a heat exchanger-air heater connected by a hot air duct through a manifold with gas burners. The pyrolysis chamber is equipped with a slotted collector for collecting pyrolysis gas for supplying it to an external consumer and to the combustion chamber. The combustion chamber is configured to supply solid fuel to it.

The invention is illustrated by drawings, where in FIG. 1 shows a General view of the installation for thermal decomposition of unsorted solid organic waste in the context; in FIG. 2 shows a process gas extraction zone.

The following notation is used in the drawings: storage chamber 1, pyrolysis chamber 2, slotted collector 3, nozzles for removing pyrolysis gas 4, holes for removing water vapor and light volatile compounds 5, funnel-shaped visor 6, combustion chamber 7, burners 8, furnace door 9 , a pipe for removing the mixture of process gases 10, a lip seal 11, an air heat exchanger-heater 12, a hot air manifold 13, a fan 14, control valves 15, a grate 16, a receiving container 17.

The installation for thermal decomposition of unsorted solid organic waste contains a storage chamber 1, a pyrolysis chamber 2 installed inside the combustion chamber 7 in the housing, with the formation of a pyrolysis gas extraction zone through a slot collector 3 for collecting pyrolysis gas for supply to an external consumer and to the combustion chamber 7. The combustion chamber 7 is configured to supply solid fuel to it through the furnace doors 9. In the pyrolysis chamber 2, a funnel-shaped visor 6 is installed, forming an annular zone with openings for blow water vapor and light volatile compounds 5. The pyrolysis chamber 2 is installed with a lip seal 11 inside the combustion chamber 7 with the formation of the extraction zone of the process gas mixture, while the combustion chamber 7 is equipped with a pipe for exhausting the mixture of process gases 10 through the heat exchanger-air heater 12. Heat exchanger -heater 12 is connected by a hot air duct through the manifold 13 with gas burners 8.

Installation works as follows. Solid organic waste is loaded into the collection chamber 1 without prior sorting. The storage chamber 1 is a kind of shutter, since the height of the layer of processed raw materials, having high hydraulic resistance, prevents the escape of gases into the atmosphere. The solid fuel (for example, firewood) is loaded into the combustion chamber 7 through the furnace doors 9 and is fired up. In this case, high-temperature flows of combustion products are formed, which transfer thermal energy to the processed raw materials, washing the outer surface of the pyrolysis chamber 2, and ensure uniform heating of all zones of the pyrolysis chamber 2, namely, the drying zone and the pyrolysis gas production zone and, having given most of the thermal energy to the processed raw materials through the wall of the pyrolysis chamber 2, provide the process of drying and pyrolysis. The pyrolysis gas obtained as a result of the start-up of the installation is taken into a slotted collector 3. A part of the selected gas is sent to an external consumer, and the other part is directed to the burners 8 and used as the main fuel, ensuring its complete combustion by supplying hot air from the collector 13, which is obtained in the heat exchanger -heater 12 due to the heat loss from the process gases entering the pipe for removal of the mixture of process gases 10 from the selection zone of the mixture of process gases of the combustion chamber 7. Supply near cold air, the heat exchanger-heater 12 is produced by a fan 14. Water vapors and light volatile compounds formed as a result of drying the raw materials in the drying zone of the pyrolysis chamber 2 pass through holes to remove water vapor and light volatile compounds 5 in the annular zone formed by a funnel-shaped peak 6 the upper part of the combustion chamber 7 (into the extraction zone of the mixture of process gases), where they, mixing with the products of combustion, form a mixture of process gases, which through the pipe to discharge the mixture Process gas heat exchanger 10 and air heater 12 are sent to afterburning.

To ensure free movement of the housing of the pyrolysis chamber 2 in the vertical direction as a result of thermal expansion during its heating and to isolate the process gas mixture extraction unit from the environment, a lip seal 11 of refractory fiber is installed.

After the furnace reaches the operating mode, starting solid fuel is not used. The regulation of the combustion process of the pyrolysis gas is carried out using control valves 15.

The working process of thermal decomposition is carried out due to the energy received from the combustion of pyrolysis gas.

Recycled waste is moved from the drying zone to the pyrolysis zone under the action of gravity, undergoing continuous heat treatment.

The remaining unprocessed particles enter the grate 16, and then into the receiving container 17, from where they are removed for further use.

The use of the invention improves the efficiency and reliability of the installation of thermal processing of unsorted solid organic waste with the production of high quality combustible gas.

Claims (3)

1. Installation for thermal decomposition of unsorted solid organic waste, containing a loading device, a pyrolysis chamber installed inside the combustion chamber in the housing, with the formation of a pyrolysis gas extraction zone for supplying it to an external consumer and into the combustion chamber, characterized in that it is equipped with a storage chamber, a funnel-shaped visor is installed in the pyrolysis chamber, forming an annular zone for removal of water vapor and light volatile compounds through openings in the pyrolysis chamber casing; anovlena a lip seal within the combustion mixture to form a selection process gases zone chamber, the combustion chamber is provided with a nozzle for discharging a mixture of process gases through the heat exchanger-heater air duct connected to the hot air through a manifold with gas burners. 2. Installation for thermal decomposition of unsorted solid organic waste according to claim 1, characterized in that the pyrolysis chamber is equipped with a slotted collector for collecting pyrolysis gas for supplying it to an external consumer and to the combustion chamber. 3. Installation for thermal decomposition of unsorted solid organic waste according to claim 1, characterized in that the combustion chamber is configured to supply solid fuel to it.

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