KR20090121814A - Dry distillation type incinerator for rpf & rdf - Google Patents

Abstract

PURPOSE: A dry distillation type incinerator for RPF and RDF is provided to prevent an injury of a worker due to an incinerator in which a temperature is not enough decreased because a worker does not execute an ash processing work. CONSTITUTION: A dry distillation type incinerator for RPF and RDF is composed of a body unit(100) and a grate(200). The body unit is composed of a waste input port(110), a gas exhaust port(120), and a firebrick. The waste input port is formed in the upper part of the body unit. The gas exhaust port is formed at the side of the body unit to exhaust the combustion gas. The firebrick has a discharge port. The grate is composed of a cooling water pipe(250) which is formed in the center of the body unit and an air duct(280) which is formed within the cooling water pipe. The cooling water pipe is formed in the shape of plural long rods by passing through the body unit. The air duct supplies air through plural air holes(260) formed at regular intervals according to the cooling water pipe. The grate divides a combustion unit(150) and an ash processing unit(180).

Description

 Dry distillation type incinerator for RPF & RDF

The present invention relates to an RPF & RDF distillation incinerator, and more particularly, to the center of the body portion of the RPF & RDF distillation incinerator, for cooling the air supply pipe outside the air supply pipe and the air supply pipe for supplying air for incineration. It is equipped with a cooling water pipe, and the space is divided into the upper combustion part and the lower reprocessing part centering on the rostol, so that the waste combusted in the upper combustion part automatically falls to the lower reprocessing part, and the reprocessing part The ash of the waste falling into the furnace is again related to the RPF & RDF distillation incinerator, which is automatically discharged to the outside using the screw rod under the ash treatment unit.

In general, RPF (refuse plastic fuel) and RDF (refuse derived fuel) are fuels obtained from waste, and the non-combustible components such as moisture, metals, and glass contained in the waste are removed through drying, crushing, screening, and flammability. Solid fuel made by processing labor.

Not only can it be used as an energy source for coal, but also the waste can be treated cleanly, so it is a very suitable technology for the reality of Korea that has both a lack of energy resources and environmental problems.

In addition, in accordance with the International Climate Change Convention to Prevent Global Warming, each country is trying to recover all possible energy to reduce CO2 emissions. RPF & RDF technology can recover a small amount of waste energy and at the same time, It is also very beneficial for CO2 response.

Environmental issues are the most serious threat that humanity has ever experienced, and there is widespread consensus around the world that the 21st century will be the 'century of the environment'. Korea also has a lot of difficulties in reducing greenhouse gas emissions and hazardous waste disposal due to environmental recommendations.In particular, waste disposal issues are not covered by NIMBY (Not In My Back Yard) and NIMTO (Not In My Term of Office). Interlocking has already become a serious social problem.

Recently, in order to properly manage wastes, waste emission control and recycling are considered the top priority, and attention is being paid to various methods that can effectively use wastes as energy resources in terms of resource conservation and environmental conservation. .

In waste incineration facilities, power generation and heat use are one of the representative energy utilization technologies, but they are limited to relatively large incineration facilities, and the supply and demand imbalance in heat use is pointed out as a problem. In the future, it is necessary to reform current technology and develop new technology, and RPF & RDF technology is emerging as a promising technology belonging to the latter.

Incinerators for incineration of such RPF & RDF not only suppress the ingress of air during the injection of the smoked material, but can also be burned or dried by supplying the minimum air required so that the combustion gas in the collected gas can be A dry distillation incinerator is used in which the ratio is high and the residue is low in the amount of unburned matter and can be taken out as a lump, thereby reducing the waste amount and facilitating recovery of useful metals.

That is, Figure 1 is a schematic diagram showing the structure of a conventional RPF & RDF distillation incinerator.

In this way, the waste of the RPF & RDF type is introduced into the dry distillation incinerator 10 formed of a refractory brick, and the injected waste is combusted by the combustor 20.

At this time, the combustion gas separated from the ash in the incinerator 10 is sent to the gas chamber 50 through the gas pipe 40 is burned in the gas incinerator 60 is discharged to the outside.

And the burned waste is to be discharged through the discharge port 30 provided in the incinerator.

Such RPF & RDF distillation incinerator had the following problems.

In other words, when the waste in the form of RPF & RDF is injected into a dry distillation incinerator formed of refractory bricks and incinerated, the combusted waste is discharged through an outlet provided in the incinerator, and the body is formed of refractory bricks and maintained at a high temperature for a long time. In order to discharge the ash of the waste from the incinerator, the incinerator had to be lowered to a temperature at which a worker can discharge the ash of the waste.

In addition, since the temperature of the incinerator is lowered, the operator directly discharges the waste ash in the incinerator, thereby reducing the work efficiency and causing the worker to be injured by the incinerator that has not sufficiently lowered the temperature.

Therefore, an object of the present invention is a loss consisting of a cooling water pipe provided for cooling the air supply pipe outside the air supply pipe and the air supply center to supply the air necessary for incineration in the center to divide the RPF & RDF dry distillation incinerator into a combustion section and a reprocessing section. It is equipped with a toll, so that the waste combusted in the upper combustion section automatically falls to the lower reprocessing unit, and the ash of the waste dropped to the reprocessing unit can be automatically discharged to the outside by using the screw rod under the reprocessing unit again. To effectively solve the problem of the incinerator not being used until the temperature of the incinerator is lowered, and to provide an RPF & RDF distillation incinerator that can prevent accidents that occur when the worker directly reprocesses. There is.

In the present invention, in the construction of the RPF & RDF incinerator for incineration of waste, a waste inlet for injecting waste is provided at the top, and a gas outlet for discharging combustion gas is coupled to the side, and incineration is incinerated. Characterized in that consisting of; body portion consisting of a refractory brick to be provided with a discharge port for discharging the old ash.

And is provided in the center of the body portion formed in the form of a plurality of long rods through the body at equal intervals and the cooling water pipes are connected to each other inside the body so that the water introduced from the inlet on one side can be discharged to the drain on the other side, Rostol is provided in the cooling water pipe and consists of a supply pipe for supplying air to the plurality of air supply holes formed at equal intervals along the cooling water pipe, the upper portion in the body portion between the combustion section and the lower reprocessing unit; Characterized in that made.

Particularly, the lower part of the reprocessing unit includes a screw rod that rotates about the shaft portion, and one side of the screw rod forms a discharge port provided with a cover to achieve the object of the present invention.

The present invention is equipped with a rostol in the center of the RPF & RDF distillation incinerator divided into an upper combustion unit and a lower reprocessing unit, the lower reprocessing unit automatically after the combustion of the waste burned in the upper combustion unit The ash of the waste that falls into the ash treatment unit is automatically discharged to the outside by using the screw rod under the ash treatment unit. Therefore, it is possible to prevent economic loss caused by the incinerator not being used until the temperature of the incinerator is lowered. will be.

In addition, since the worker does not perform the reprocessing work directly, the injured by the incinerator that is not sufficiently low temperature can be prevented.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

That is, Figure 2 is a schematic view showing the structure of the RPF & RDF distillation incinerator according to the present invention, Figure 3 is a cross-sectional view showing the appearance of the RPF & RDF distillation incinerator according to the present invention, Figure 4 is a RPF according to the present invention & Fig. 5 is a cross-sectional view showing the operation of the stole of the RDF dry distillation incinerator, Fig. 5 is a perspective view showing the structure of the rostol of the RPF & RDF distillation incinerator according to the present invention, Figure 6a, 6b, 6c Sectional view showing the operation of the RPF & RDF distillation incinerator according to the invention.

In the present invention, in the construction of the RPF & RDF incinerator for incineration of waste, a waste inlet 110 for injecting waste is provided at the top, and a gas outlet 120 for discharging combustion gas is provided at the side. It is characterized in that consisting of; body portion 100 is composed of refractory brick to be provided with a discharge port for discharging the incinerated ash.

And it is provided in the center of the body portion 100 is formed in the form of a plurality of long rods penetrating the body portion 100 at equal intervals and the water introduced from the inlet 210 of one side may be discharged to the drain hole 220 of the other side. Cooling water pipe 250 is connected to each other in the body portion 100 so as to be provided inside the cooling water pipe 250 and a plurality of air supply holes 260 formed at equal intervals along the cooling water pipe 250 It consists of a supply pipe 280 to supply, the stall 200 to divide the upper combustion unit 150 and the lower re-processing unit 180 in the body portion 100; characterized in that consisting of.

In particular, the lower part of the reprocessing unit 200, the screw rod 300 is rotated around the shaft portion 310, and the one side of the screw rod 300 is formed with a discharge port 320 provided with a cover 330 It features.

In addition, the combustion unit 150 is formed on the body portion 100, the door 170 is installed on one side wall of the combustion unit 150 to check the combustion state, and the combustor 175 is installed on the door 170. It is characterized by including.

In addition, reference numeral 190 in the drawings is a management door for maintenance and management of the reprocessing unit 180, 400, 500, 600 are the gas pipe and the gas that the gas discharged from the incinerator, respectively, are collected It is a gas incinerator which incinerates a gas chamber and gas.

That is, in the present invention, the waste is introduced into the incinerator through the waste inlet 110 formed on the body portion 100 of the incinerator in order to incinerate the waste.

The waste introduced in this way is not lowered to the reprocessing unit 180 by the rostol 200 provided in the center of the incinerator, and the burner 175 provided in the door 170 in the combustion unit 150 in the upper portion of the rostol 200. By combustion.

At this time, the rostol 200 is provided with a cooling water pipe 250 for supplying cooling water from the outside and an air supply pipe 280 for supplying air into the combustion chamber from the inside of the cooling water pipe 250.

When combustion starts inside the incinerator, air is supplied to the air supply pipe 280 from the outside, and the air introduced in this way is supplied to the combustion unit 150 through the air supply holes 260 formed at equal intervals in the cooling water pipe 250. will be.

At this time, since the internal temperature of the body portion 100 of the incinerator is high temperature, the cooling water pipe 250 is provided outside the air supply pipe 280 to prevent the air supply pipe 280 from being deformed by heat.

Waste combusted by the combustion unit 150 is automatically dropped to the reprocessing unit 180 under the rostol 200.

The waste ash dropped to the reprocessing unit 180 is operated by a switch to operate the screw rod 300 provided in the lower portion of the reprocessing unit 180, and automatically rotates to the outlet 320 along the rotation of the screw rod 300. Will be discharged.

At this time, the discharge port 320 is provided with a cover 330 so that when performing the combustion operation in the combustion unit 150 of the incinerator, the discharge port 320 is blocked, such as an explosion that may occur when a large amount of external air is introduced during combustion. It is to prevent accidents.

1 is a schematic view showing the structure of a conventional RPF & RDF distillation incinerator.

Figure 2 is a schematic diagram showing the structure of the RPF & RDF distillation incinerator according to the present invention.

Figure 3 is a cross-sectional view showing the appearance of the RPF & RDF distillation incinerator according to the present invention.

Figure 4 is a cross-sectional view showing the operation of the stall of the RPF & RDF distillation incinerator according to the present invention.

5 is a perspective view showing the structure of the rostol of the RPF & RDF distillation incinerator according to the present invention.

Figure 6a, 6b, 6c is a cross-sectional view showing the operation of the RPF & RDF distillation incinerator according to the present invention.

Explanation of symbols for the main parts of the drawings

100: body 110: inlet

120: gas outlet 150: combustion part

180: outlet 200: rostol

210: inlet 220: drain

250: cooling water pipe 260: air supply hole

280: supply pipe 300: screw rod

310: shaft 320: outlet

Claims (3)

In constructing RPF & RDF incinerator for incineration of waste, The upper portion is provided with a waste inlet 110 for injecting waste, the gas outlet 120 for discharging the combustion gas is coupled to the side, it is also composed of a refractory brick to be provided with an outlet for discharging the incinerated ash Body part 100; And It is provided in the center of the body portion 100 and is formed through the body portion 100 at equal intervals in the form of a plurality of long rods so that water introduced from the inlet 210 of one side can be discharged to the drain hole 220 of the other side The air is supplied to the plurality of air supply holes 260 provided in the cooling water pipe 250 and the cooling water pipe 250 which are connected to each other in the body part 100, and are formed at equal intervals along the cooling water pipe 250. Rostol 200 is made of an air supply pipe 280 to divide the upper combustion unit 150 and the lower re-processing unit 180 in the body portion 100; RPF & RDF distillation incinerator, characterized in that consisting of. The method of claim 1, Under the reprocessing unit 180, RPF & RDF distillation type incinerator having a screw rod (300) rotated about an axis portion (310), the outlet (320) having a cover (330) is formed on one side of the screw rod (300) . The method of claim 1, In the combustion unit 150 formed on the body portion 100, RPF & RDF distillation type incinerator, characterized in that the door 170 is installed on one side wall of the combustion unit 150 so as to check the combustion state, and the combustor 175 is provided on the door 170.

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