RU216055U1 - INSINERATOR - Google Patents

Abstract

The utility model relates to the field of waste disposal and can be used to destroy large-sized solid combustible household and industrial waste by heat treatment. To increase the efficiency of the incinerator, reduce the cost of the process of disposal of large-sized combustible waste and prevent environmental pollution, an incinerator design is proposed that contains a chimney, a combustion chamber, and an afterburner. The chambers are connected by a transition, each chamber consists of a frame with a refractory lining. The combustion chamber is equipped with at least one burner, which can be a pellet burner. In the combustion chamber there is a series of water-cooled pipes, on which waste is placed, burned during the disposal process. In the transition between the main combustion chamber and the afterburning chamber, flow turbulators made of refractory material are installed. The combustion chamber is equipped with a lock feeder. After the afterburner, along the flue gases, a waste heat boiler with a combustion device for burning solid fuel is installed. Increases the efficiency of the incinerator, reduces costs and improves the environment.

Description

The utility model relates to the field of waste disposal and can be used to destroy large-sized solid combustible household and industrial waste (wood waste from waste sorting plants, used sleepers, etc.) by thermal treatment.

In the known methods of high-temperature solid waste incineration, an incineration plant (incinerator) is used, which is a furnace unit that includes two sequentially located combustion chambers: a pre-combustion chamber (combustion chamber) and an afterburning chamber [1]. In the pre-combustion chamber, waste is burned under conditions of excess oxygen, which is injected (as part of the air) into the working area. The temperature in the chamber is from 700 to 900 degrees Celsius. In the afterburner at temperatures up to 1200 degrees Celsius (and more), there is a thermochemical dissociation of the residual, unburned compounds in the first chamber (including unburned hydrocarbons, dioxins, furans, etc.). Maintaining the required temperatures and burning waste is due to the combustion in the furnace zone of continuously supplied fuel - gas or diesel mixture, less often - oils, firewood, coal.

Known apparatus for the destruction of organic pollutants [CA 2660501], made mobile and containing a pre-combustion chamber (combustion chamber), an afterburner and a chimney, and the chambers are connected by a transition, each chamber consists of a frame with an internal lining, the combustion chamber and afterburner are equipped with ports for burner installations, the afterburner is additionally equipped with a fan and connected to the chimney.

The incinerator [RU 2001101728] contains a body, a closing hatch for loading, a combustion chamber, a high-temperature heat source, a chimney connected to the atmosphere, while the combustion chamber is made deaf in its upper part and is connected in the lower part with an afterburner for the release of gaseous decomposition products so that the high-temperature zone is located on the border of the combustion chamber and the afterburner and covers the entire flow area of the gaseous decomposition products, while the high-temperature heat source is located in the afterburner, and a gas duct is installed in the decomposition chamber to remove gaseous decomposition products from its upper part to the afterburner .

Known design of the incinerator [RU 2735825], made portable and containing a frame to which a combustion chamber and an afterburner chamber are attached, and a chimney, the chambers being installed horizontally and connected by a transition, each chamber consists of a frame with an internal lining, the combustion chamber is equipped with a lid, grates arch type, round burner ports, ash pans, afterburner equipped with at least one burner port, fan, thermocouple and connected to the chimney.

Closest to the proposed one is the incinerator [2] (Fig. 1), containing a chimney 1, a combustion chamber 2, an afterburner 3, the chambers are connected by a passage 4, each chamber consists of a frame 5 with a refractory lining 6, the combustion chamber is equipped with a cover 7, at least one burner 8.

The disadvantages of the known solutions are: low efficiency of combustion of lumpy solid waste in its entirety (for example, sleepers, wood waste from waste sorting). For good ignition and combustion of such waste, it is better to ignite from below, but in known designs it is impossible to place the burner at the bottom, since the waste lies there. Burners and channels for the transition of gases from the combustion chamber to the afterburner are located in the upper part of the combustion chamber.

The problem that the proposed utility model is aimed at is to increase the efficiency of the incinerator, reduce the cost of the process of disposal of large-sized combustible waste and prevent environmental pollution, i.e. in improving the environment.

The technical problem is solved by the fact that in an incinerator containing a chimney, a combustion chamber, an afterburner, the chambers are connected by a transition, each chamber consists of a frame with a refractory lining, the combustion chamber is equipped with a lid, a burner, according to the utility model, a number of water-cooled pipes are located in the combustion chamber , on which waste is burned during the disposal process.

Placing lumpy waste at some distance from the bottom of the combustion chamber allows you to install the burner below the level of waste. Heating and ignition of the waste from below makes it possible to support combustion of the waste only in the lower part, which makes it possible to heat up not the entire mass of waste, but only its part, ensuring temperature stabilization in the lower part of the combustion chamber. Faster heating of the lower part of the waste eliminates the decrease in temperature in the combustion chamber and afterburner, thereby ensuring stable maintenance of the process of decomposition of harmful substances.

The pipes on which the incinerated waste is located are made water-cooled. Water cooling ensures the safety of the pipes and long-term operation at high temperatures in the combustion chamber.

When installing the burner device below the mark of the location of the mass of incinerated waste, there is no need to direct the flame from the burner from top to bottom to the waste lying below, which allows using a pellet burner as a burner device, from which the flame spreads through the space under a number of pipes. The use of pellets as an additional fuel reduces operating costs compared to burners operating on liquid and gaseous fuels.

The optimal layout parameters for a number of water-cooled pipes are: location of a number of pipes at a height of 0.05-0.5 of the total height of the combustion chamber from the bottom of the combustion chamber; pipe pitch from 1 to 50 diameters of a single pipe.

To increase the efficiency of afterburning of the decomposition products of the incinerated waste, hot gas flow turbulators are installed in the transition between the combustion chamber and the afterburner. The turbulators are made of refractory materials, such as bricks set with gaps in a checkerboard pattern. Additional turbulence of the gas flow improves the mixing of products of incomplete combustion from incinerated waste with the remaining oxygen in the air supplied to combustion. Without good mixing of gases, hazardous products of incomplete combustion will always be present in the combustion products, even at high temperatures and in the presence of excess oxygen.

The use of a lock feeder instead of a conventional cover ensures the preservation of the accumulated heat in the combustion chamber and prevents the release of combustion products into the atmosphere directly from the combustion chamber.

The operation of the incinerator on solid fuel allows you to install a solid fuel waste heat boiler behind the afterburner chamber in the direction of gases. The installation of a waste heat boiler makes it possible to obtain useful heat energy by burning waste, and the operation of a waste heat boiler on solid fuel makes it possible to maintain the required heat load.

The utility model is illustrated by a drawing, which shows the design of the incinerator (Fig. 2).

The incinerator consists of a combustion chamber 1 and an afterburner 2, which consist of a frame with a refractory lining 3 and are connected by a transition 4. The combustion chamber 1 is equipped with a lock feeder 5, a burner device 6, the afterburner is connected to a waste heat boiler 7 and a chimney 8. The transition 4 contains turbulators 9, consisting, for example, of refractory bricks, set in a checkerboard pattern with a gap between the bricks for the passage of gases. In the combustion chamber 1 at a height of 0.05 - 0.5 of the total height of the combustion chamber from the bottom of the combustion chamber there is a number of water-cooled pipes 10 with a step of 1 - 50 pipe diameters.

Works incinerator in combustion mode as follows.

Through the lock feeder 5, waste is loaded into the combustion chamber 1 onto a number of water-cooled pipes 10. The burner 6 is turned on. Under the action of the flame of the burner torch 6, the lining 3 of the combustion chamber 1 is heated, the waste is ignited. The gaseous products formed during combustion and pyrolysis from the combustion chamber 1, passing through the transition 4 and turbulators 9, enter the afterburning chamber 2, where they are completely afterburned. In case of insufficient temperature in the afterburner chamber 2 during the ignition period, an additional burner device is installed in the afterburner chamber, which is put into operation for the initial ignition period. As the waste burns out, waste is added to the combustion chamber 1 through the lock feeder 5. The products of complete combustion are discharged into the atmosphere through the waste heat boiler 7 and the chimney 8. The waste heat boiler is connected to heat consumers. If there is not enough heat for consumers, then solid fuel is added to the furnace of the waste heat boiler.

The proposed design makes it possible to increase the efficiency of combustion of lumpy solid combustible waste by improving the process of heating and ignition, ensuring complete combustion of the waste, as well as eliminating environmental pollution.

Sources of information

1. https://xn--80aahke6bhm.xn--plai/articles/49514-insinerator-ego-ustroystvo-i-shema/

2. http://izhtel.com/incinerators/izhtel-1000.html#footer

Claims (7)

1. An incinerator containing a chimney, a combustion chamber, an afterburner chamber, the chambers are connected by a transition, each chamber consists of a frame with a refractory lining, the combustion chamber is equipped with a lid, characterized in that, in order to improve the quality of combustion of lumpy solid combustible waste, the combustion chamber is equipped with a burner device installed below a row of water-cooled pipes, on which waste is placed, burned in the disposal process. 2. An incinerator according to claim 1, characterized in that a pellet burner is used as the burner of the main combustion chamber. 3. The incinerator according to claim 1, characterized in that in the transition between the main combustion chamber and the afterburner, flow turbulators made of refractory material are installed, which make it possible to improve the mixing of combustion products with excess oxygen before entering the afterburner. 4. The incinerator according to claim 1, characterized in that a number of water-cooled pipes in the main combustion chamber is located at a height of 0.05-0.5 of the total height of the combustion chamber. 5. The incinerator according to claim 1, characterized in that the pipes in the row of water-cooled pipes in the main combustion chamber are distributed along the row in increments of 1-50 pipe diameters. 6. The incinerator according to claim 1, characterized in that after the afterburner, along the flue gases, a waste heat boiler is installed with a combustion device for burning solid fuel with insufficient thermal power, heat consumers connected to it. 7. The incinerator according to claim. 1, characterized in that the combustion chamber is equipped with an airlock feeder to ensure the loading of waste without stopping the operation of the incinerator.

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