RU2672280C1 - Mobile installation for thermal processing of solid municipal waste at landfill - Google Patents

Abstract

FIELD: processing and recycling of waste.SUBSTANCE: invention relates to devices for thermal processing of municipal solid waste and can be used in housing and communal services for the disposal and destruction of waste with the simultaneous production of gaseous fuels. In a mobile unit for thermal processing of solid municipal waste at a landfill containing a metal lined inside a rectangular case with a flat vault, equipped with mounting loops for transportation, framed with a metal frame with a vertical tape support installed in the lower part along the outer perimeter of the housing and forming a collector for collecting gaseous products of processing municipal solid waste, connected to the pipeline for supplying thermal gas to the consumer and to a pipeline for the supply of thermal gas to radiation pipes, horizontally installed under the body roof, made in the form of a cover, provided with a bottom layer of thermal insulation, close to it and to each other, metal supply and heating channels for air are installed, their end parts are made of elliptical section and placed outside the case, the middle parts of the said channels inside the case are made of a semi-elliptical cross section, in each channel for supplying and heating the air a radiation tube is concentrically mounted, made of elliptical cross section, the section of the radiation pipe from the side of the nozzle, located in the end part of the specified channel, has openings, the opposite end part of the specified channel is equipped with a pipe air supply, and located therein section of the radiation pipe is equipped with a pipe for removal of combustion products.EFFECT: increasing the energy efficiency of recycling unsorted municipal solid waste at the landfill with an increase in the service life of the installation.1 cl, 2 dwg

Description

The invention relates to a device for thermal processing of solid municipal waste (MSW) and can be used in housing and communal services for the disposal and destruction of waste with the simultaneous production of gaseous fuel.

Known devices for the disposal and destruction of unsorted and pre-sorted MSW, which represent a shaft-type furnace (reactor), containing a loading device, a lined housing with zones for drying, pyrolysis and gasification of the MSW layer, equipped with openings for outputting gaseous products of processing, devices for preparation and supply of combustible gas to an external consumer and devices for removing unprocessed inorganics (patent for invention RU No. 2089786, IPC F23G 5 / 00.1997, patent for invention RU No. 2089787, M To F23G 5/00, 1997, patent for invention RU No. 2201552, IPC F23G 5/027, F23G 5/14, 2003, patent for invention RU No. 2282788, IPC F23G 5/027, 5/24, 2006 , patent for the invention RU No. 2433344, IPC F23G 5/027, 5/14, 5/24, 2010).

The disadvantages of these devices are: 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; the dependence of the thermal processing process on the gas permeability of the MSW layer; the need for devices for loosening the MSW layer during sintering; design complexity due to the presence of additional energy-intensive devices for producing a gasification agent.

Known devices for the thermal processing of MSW, operating in the combustion mode. The most common are direct-burning furnaces of the MSW layer in the air stream on fixed or moving grates of a special design, placed in a lined housing equipped with gas burner devices (US patent No. 5265587, IPC F23H 07/04, 1993, patent for invention RU No. 2114357 , IPC F23G5 / 00, 1998, patent for invention RU No. 2265773, IPC F23G5 / 00, F23B 1/16, С04В 2/10, 2003).

The disadvantages of these devices are the mandatory presence of a system for pre-sorting and drying MSW, a complex and expensive system for the secondary purification of flue gases due to the presence of dioxins and furans in them, as well as the rapid wear of the grate and their contamination with dust and resin particles.

Known devices for the thermal destruction of solid waste, which are cyclone furnaces decompressed and fluidized bed with a stream of heated air pre-sorted and crushed MSW, containing a lined housing with burner devices (patent for invention RU No. 224976, IPC F23G 5/00, 2002 ., patent for invention RU No. 2226468, IPC F23G 5/30, 2004).

The disadvantages of such devices are: the use of additional nodes and mechanisms for the implementation of the processes of separation and grinding of MSW; creation of high speeds (not lower than 28 m / s) of the flow of the mixture of air and waste to organize a more complete combustion process.

All of the above MSW thermal destruction devices are installed stationary at the place of their processing with the possibility of transporting the waste from its subsequent loading into the furnace, which leads to significant additional costs.

Known mobile plants for the thermal processing of municipal solid waste directly in landfills and landfills. The most common are rotary kilns operating in the combustion mode, equipped with gas burners and mounted on a tractor (patent for invention RU No. 2292515, IPC F23G 5/00, F23G 5/20, 2005, patent for invention RU No. 2456507, IPC F23G 5/20, 2011, patent for invention RU No. 2442931, IPC F23G 5/40, 2012).

The disadvantages of the installations are: low productivity for combusted MSW, complexity and cumbersome equipment used.

The well-known "Portable installation for the thermal processing of municipal solid waste at the landfill" (patent for the invention of the Russian Federation No. 2536896, IPC F23G 5/40, 2014), containing a metal lined inside a rectangular hood housing with a flat vault on which gas burner devices are installed, framed by a metal frame with a vertical belt support installed in the lower part along the outer perimeter of the cap body and forming a channel for collecting gaseous products of processing solid household waste, connected by a pipeline mi with gas burner devices and with a pipeline for supplying gas to the consumer.

The disadvantages of the known installation are: the low quality of the resulting combustible gas due to the presence in it of components of the products of gas combustion from gas burners; insufficiently good heat transfer due to the presence in the working space of the furnace of triatomic gases, requiring energy for their heating; the need to install additional devices for heating the combustion air, which leads to a complication and cost of construction.

The well-known "Portable installation-module for the thermal processing of municipal solid waste at the landfill" (patent for the invention of the Russian Federation No. 2617230, IPC F23G 5/40, 2017), adopted for the prototype, containing a metal lined inside a rectangular housing with a flat vault, equipped with mounting loops for transportation, framed by a metal frame with a vertical belt support mounted in the lower part along the outer perimeter of the cap body and forming a channel (acting as a collector) for collecting gaseous products the processing of municipal solid waste, connected to the pipeline for supplying gas to the consumer, is equipped with radiation pipes installed horizontally below the dome of the hood, so that the distance from the radiation pipes to the layer of municipal solid waste does not exceed 0.5 m, connected by pipelines to the channel for collection of gaseous waste products and with a pipeline for supplying starting gaseous fuel, while the number of radiation pipes and their relative position is determined from the condition ensuring uniform and stable heating and thermal decomposition of waste due to radiant heat.

The disadvantages of the known installation are the low efficiency of processing unsorted MSW at the landfill due to significant losses of thermal energy through the arch, the limited service life of the installation due to the fragility of the arch due to its overheating.

The technical result of the invention is to increase the energy efficiency of processing unsorted MSW at the landfill while increasing the service life of the installation.

The technical result is achieved in that in a mobile installation for the thermal processing of municipal solid waste at a landfill containing a metal lined rectangular body with a flat arch, equipped with mounting loops for transportation, framed by a metal frame with a vertical tape support installed in the lower part along the outer perimeter of the body and forming a collector for collecting gaseous products of the processing of municipal solid waste, connected to the pipeline for supply thermogas to the consumer and with a pipeline for supplying thermogas to radiation pipes, horizontally mounted under the body arch, made in the form of a cover, provided with a layer of thermal insulation from below, metal air supply and heating channels are installed close to it and to each other, the end parts of which are elliptical and placed outside the housing, the middle parts of these channels located inside the housing are made of semi-elliptical section, in each air supply and heating channel is concentrically installed and the radiation pipe made of elliptical cross section, the radiation pipe section from the nozzle side located in the end part of the specified channel has openings, while the opposite end part of the specified channel is equipped with an air supply pipe, and the radiation pipe section inside it is equipped with a pipe for exhaust products .

The proposed technical solution is illustrated by drawings, where in FIG. 1 shows a view of a mobile installation for the thermal processing of municipal solid waste at a landfill; in FIG. 2 is a sectional view of a mobile installation.

The following notation is used in the drawings: body 1, refractory material 2, air supply and heating channels 3, radiation pipes 4, cover 5, insulation layer 6, metal frame 7, vertical belt support 8, collector 9 for collecting gaseous products of MSW processing, ribs stiffness 10, the outlet pipe of the thermogas 11, the nozzle 12 of the radiation pipe, the holes 13 for supplying heated air for combustion, the pipe for removing combustion products 14, the pipe for supplying air 15.

A mobile installation for the thermal processing of municipal solid waste at the landfill contains a metal lined inside rectangular housing 1 with a flat vault, equipped with mounting loops for transportation (not shown in the drawing). The body vault 1 is made in the form of a removable cover 5, provided with a bottom layer of thermal insulation 6, which facilitates the repair work and ensures an increase in the service life of the installation. The housing 1 is framed by a metal frame 7 with a vertical tape support 8 installed in the lower part along the outer perimeter of the housing 1 and forming a collector 9 for collecting gaseous products of processing municipal solid waste (thermogas). The strength of the connection of the housing 1 with the metal frame 7 is provided by stiffeners 10. For introduction into the MSW layer, the lower edge of the metal tape support 8 is made pointed in order to reduce the resistance when moving the installation in a vertical plane under the action of gravity as the MSW layer is eliminated. The metal frame 7 is equipped with nozzles 11 for connecting the collector 9 to the thermogas supply pipe to the consumer and to the thermogas supply pipe for burning into the nozzles 12 of the radiation pipes 4. Under the body arch 1, made in the form of a cover 5, provided with a thermal insulation layer 6 below, close to the thermal insulation layer 6 and metal channels for supplying and heating air 3 are horizontally mounted to each other. The end parts of the channels for supplying and heating air 3 are made of elliptical cross-section and placed outside the housing 1. The middle parts of the channels under Achi and air heating 3, located inside the housing 1, are made semi-elliptical section. In each channel for supplying and heating air 3, a radiation pipe 4 is made concentrically mounted in an elliptical section. The section of the radiation pipe 4 from the nozzle 12, located in the end part of the air supply and heating channel 3, has holes 13. The opposite end part of the specified air supply and heating channel 3 is equipped with an air supply pipe 15, and the portion of the radiation pipe 4 located in it is equipped with a pipe for removal of combustion products 14. The distance from the radiation pipes 4 to the layer of municipal solid waste and their quantity is determined from the condition of ensuring uniform and sustainable heating and thermal decomposition of waste beyond Thu radiant heat.

To improve the air-fuel mixture formation and ensure stable combustion, the portion of the radiation pipe 4 from the nozzle 12, located in the end part of the air supply and heating channel 3, has openings 13 evenly distributed over its entire surface to supply heated air entering through the pipe 15. Removing combustion products are carried out through the pipe 14.

Mobile installation for thermal processing of solid municipal waste at the landfill operates as follows. The installation is placed on the landfill directly on the MSW layer. The radiation pipes 4 are ignited by supplying starting gaseous fuel into them through nozzles 12 and atmospheric air through openings 13 through air supply and heating channels 3, into which atmospheric air is supplied through nozzles 15. Radiation pipes 4 transmit heat by radiation from the hot outer surface of the pipe: in its upper part - to the air moving through the air supply and heating channels 3, heating it, and in its lower part - by a layer of MSW. Heating the air supplied to the combustion improves the combustion conditions of the fuel, increasing the combustion temperature and the efficiency of the process. The resulting combustion products are removed into the atmosphere through the pipe 14.

Air supply and heating channels 3, filled with air and located close to each other, create a kind of air gap between the cover 5, reinforced with a layer of thermal insulation 6, and radiation pipes 4, which can significantly reduce heat loss from radiation pipes 4 through the cover 5 and create radiant fluxes of directed action on the MSW layer, intensifying the process of decomposition of waste and increasing its energy efficiency. The use of pipes of elliptical section 4 allows to reduce their number compared to pipes of circular cross section at the same intensity of irradiation of the surface of the MSW layer, which facilitates the design of the installation and makes it less metal-intensive.

Organized radiant fluxes of directed action act on the MSW layer, lead to its thermal decomposition at a temperature not lower than 900 C. The thermal energy of the process spreads deep into the layer, providing its gradual heating and drying. Gaseous products (thermogas) formed as a result of thermal decomposition of MSW come from the collector 9 to collect gaseous products and then through the nozzles 11 for subsequent supply to the external consumer and for burning radiation pipes 4 into the nozzles 12. After entering the operating mode, the starting gaseous feed is shut off fuel in radiation pipes 4, which will subsequently work on thermogas. The process is carried out until the complete destruction of a portion of solid waste. Then, the mobile installation for the thermal processing of municipal solid waste is reinstalled at another place on the landfill to eliminate the next portion of solid waste.

At the landfill, you can place a group of installations at the same time.

Thus, the use of the claimed invention improves the energy efficiency of processing unsorted municipal solid waste at the landfill by increasing the rate of decomposition of waste and minimizing heat loss to the environment, while increasing the service life of the installation.

Claims (1)

A mobile unit for the thermal processing of municipal solid waste at the landfill, containing a metal lined rectangular housing with a flat arch, equipped with mounting loops for transportation, framed by a metal frame with a vertical tape support installed in the lower part along the outer perimeter of the housing and forming a collector for collecting gaseous products processing of municipal solid waste, connected to the pipeline for supplying gas to the consumer and with the pipeline for supplying and gas to radiation pipes horizontally mounted under the body arch, characterized in that under the body arch made in the form of a cover provided with a layer of thermal insulation from below, metal air supply and heating channels are installed close to it and to each other, the end parts of which are elliptical sections and are placed outside the housing, the middle parts of these channels located inside the housing are made of semi-elliptical section, in each air supply and heating channel, a radiation concentric is installed a pipe made of an elliptical cross section, a portion of the radiation pipe on the nozzle side located in the end part of the specified channel has openings, the opposite end part of the specified channel is equipped with an air supply pipe, and the portion of the radiation pipe located in it is equipped with a pipe for exhausting combustion products.

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