KR100744813B1 - Burner apparatus for harmful substance of waste carbonize system - Google Patents

Abstract

An apparatus for burning harmful substances of a waste carbonizing system, which can increase the combustion ratio of harmful gases generated from the drying furnace and the carbonizing furnace by filtering condensation water generated from a drying furnace and dust powder generated from a carbonizing furnace, is provided. In a harmful substance burning apparatus for supplying the heat source of a burner of which a heat source is supplied to a first burner(3) through a second burner(4) to a drying furnace(1) via a carbonizing furnace(2) through a hot blast pipeline(6), and recycling a heat source flown into the drying furnace to the first burner via a heat exchanger(5) through the hot blast pipeline, an apparatus(50) for burning harmful substances of a waste carbonizing system comprises: a condenser(10) which is connected to a first discharge pipe connected to the drying furnace, and which has an odorous gas moving pipeline(12) and a condensation water discharge port(11) formed on one side thereof; a dust filtering unit(20) which is connected to a second discharge pipe connected to the carbonizing furnace, and which has a VOC(volatile organic compound) moving pipeline(22) and a dust discharge port(21) formed on one side thereof; a chamber(30) which is connected to the odorous gas moving pipeline and the VOC moving pipeline, and which has an inverter fan(31) and a pollutant moving pipeline(32) formed on one side thereof; and a chamber hot blast pipeline(40) which connects the chamber to the hot blast pipeline connected to the heat exchanger, and which is connected to the first burner.

Description

BURNER APPARATUS FOR HARMFUL SUBSTANCE OF WASTE CARBONIZE SYSTEM}

1 is a block diagram showing a conventional waste carbonization processor.

Figure 2 is a block diagram showing a hazardous substance treatment state of a conventional waste carbonization processor.

3 is a block diagram showing an apparatus for burning a hazardous material of a waste carbonization processor according to the present invention.

* Description of the major symbols for the main parts of the drawings *

1: drying furnace 1a: first discharge pipe

2: carbonization furnace 2a: second discharge pipe

3: primary combustor 4: secondary combustor

5: heat exchanger 6: hot air duct

10 condenser 11 condensate outlet

12: Odor gas flow pipe 20: Dust filtration device

21: Dust outlet 22: VOC moving line

30: chamber 31: inverter fan

32: contaminant moving pipe

50: device for combusting hazardous materials of waste carbonization

The present invention relates to a waste carbonization processor for incineration of household waste or food waste, and more particularly, by filtering the condensate generated in the drying furnace and the dust powder generated in the carbonization furnace, to remove harmful gas generated in the drying furnace and the carbonization furnace. The present invention relates to a toxic material combustion device of a waste carbonization processor capable of increasing a combustion rate.

In general, combustible wastes such as organic matters and wastes are generated from the kind frequently generated in the vicinity such as food or household garbage or waste vinyl, and with the environmental pollution and odors such as livestock discharge from livestock farms.

      The treatment of flammable wastes is always accompanied by environmental problems, and even if incinerated, it is accompanied by odors from wastewater and hazardous substances such as dioxins, which requires the operation of incinerators to be stopped or improved. to be.

      In addition, even when the flammable waste is embedded, various problems such as soil contamination and water quality are contaminated due to landfill.

      In order to solve the above problems, the incinerator is composed of a primary and a secondary combustion chamber so that it can be reburned. A combustible waste combusting process is carried out so that the waste water of the combustible waste is carbonized with a dryer and a carbonizer. Processing apparatus has been developed.

      However, the combustion treatment is not only a configuration that can be burned at an appropriate temperature, but also exposed the problem that the exhaust gas from the combustor is emitted to the outside as it is a lot of heat loss.

In order to solve this problem, Patent Registration No. 10-517485 (published date: September 27, 2005) has been proposed.

1 is a block diagram showing a conventional waste carbonization processor, Figure 2 is a block diagram showing a hazardous substance treatment state of a conventional waste carbonization processor.

1 to 2, the conventional configuration is described first, the drying furnace 110, the internal temperature is maintained at 300 ~ 400 ℃ and the carbonization furnace 120 and the internal temperature is maintained at 800 ℃ internal temperature is 1800 The heat source of the combustor maintained at 2000 ° C. but supplied to the primary combustor 130 through the secondary combustor 140 and the heat source being moved to the primary combustor 130 through the secondary combustor 140. It consists of a hot air pipe 160 for supplying the carbonization furnace 120 and the drying furnace 110 and a heat exchanger 150 for recycling the heat source introduced from the drying furnace 110 to the primary combustor 130.

In addition, the agent for transferring toxic substances such as odor gas, condensed water, dust, VOC (volatile organic compound) gas generated in the drying furnace 110 and carbonization furnace 120 to the first and second combustor (130, 140). It consists of 1 and 2 discharge pipes 111 and 121, and prevents heat loss emitted to the outside, and can be burned immediately without releasing harmful substances to the outside.

However, if the odor gas and condensate, which are harmful substances generated in the drying furnace 110, are transferred to the primary combustor 130 as it is, only a large amount of fuel must be put in the primary combustor 130 to combust a large amount of condensate. It is possible, and also because of the above reasons there was a problem that the thermal efficiency is lowered.

In addition, when the dust or VOC gas, which is a harmful substance generated in the carbonization furnace 120, is sent to the secondary combustor without any filtration, the second discharge pipe 121 is blocked by dust, or even by the dust. Even though, the VOC gas which has fallen in temperature is changed to coal tar, and the problem that the second discharge pipe 121 is blocked is exposed.

In order to solve the above problems, the toxic material combustion apparatus of the waste carbonization processor of the present invention can save the fuel consumed in the primary combustor by discharging water vapor generated in the drying furnace using a condenser without sending it to the primary combustor. In addition, there is a purpose to provide a device for the combustion of hazardous materials of the waste carbonization treatment to increase the thermal efficiency accordingly.

Another object of the present invention is to filter the dust generated during the carbonization of household waste such as waste vinyl in the carbonization furnace using a dust filtration device, thereby preventing the clogging phenomenon of the VOC moving pipe that moves some dust and VOC gas. To provide a toxic burner for waste carbonization.

Another object of the present invention is to prevent the deformation of dust that is converted to coal tar at low temperatures by supplying a heat source that is recycled in the heat exchanger to the chamber for storing the odor gas transported from the condenser and the VOC gas transported from the dust filtration device and At the same time, it provides a toxic material combustion device of a waste carbonization processor that can increase the combustion rate of filtered odor gas and VOC gas.

Looking at the configuration of the present invention for achieving the above object is as follows.

The heat source of the combustor in which the heat source is supplied to the primary combustor through the secondary combustor is supplied to the drying furnace through the carbonization furnace through the hot air duct, and the heat source introduced into the drying furnace is recycled to the primary combustor through the heat exchanger through the hot air duct. In the combustion apparatus for hazardous substances, connected to the first discharge pipe connected to the drying furnace, and connected to the second discharge pipe connected to the carbonization furnace and the condenser formed with a odor gas flow passage and condensate discharge port on one side, VOC moving pipe to one side And a dust filtration device that forms a dust outlet, and is connected to the odor gas flow passage and the VOC flow passage, and a chamber that forms an inverter fan and a contaminant movement passage on one side, and a chamber that connects the chamber to the hot air passage connected to the heat exchanger. Is connected to the primary combustor.

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

3 is a block diagram showing an apparatus for burning a hazardous material of a waste carbonization processor according to the present invention.

As shown in the drawing, the condenser 10 connected to the first discharge pipe 1a connected to the drying furnace 1 has a high temperature harmful substance generated in the drying furnace 1 and water vapor in the steam at low temperature. Liquefied and discharged through a separate condensate outlet 11, and some of the steam and odor gas not condensed by the condensation action is to be transferred to the chamber 30 through the odor gas moving pipe (12).

Although not shown in the figure, the condensate outlet 11 is configured to discharge contaminated water through a separate purification facility.

In addition, the dust filtration device 20 connected to the second discharge pipe (2a) of the carbonization furnace (2) operates to filter the dust in the dust and VOC gas of the high temperature harmful substances generated in the carbonization furnace (2), The filtered dust is discharged to the outside through the dust discharge port 21 formed in the dust filter device 20, in the case of some dust and VOC gas that is not filtered by the dust filter device 20, the dust filter device It is possible to move to the chamber through the VOC movement line 22 connected to (20).

In addition, the chamber 30 connected to the odor gas movement line 12 and the VOC movement line 22 has a part of condensate water, odor gas and part transferred from the condenser 10 and the dust filtration device 20 to one side. Is composed of an inverter fan 31 and a contaminant moving conduit 32 for forcibly transferring condensate and VOC gas to the primary combustor 3.

In addition, the hot air duct (6) connected to recycle the heat source from the heat exchanger (5) to the primary combustor (3) comprises a chamber hot duct (40) to supply some of the recycled heat source to the chamber (30). It is.

The chamber hot air passage 40 supplies heat to the outside of the chamber 30 in which some water vapor, odor gas, and some dust and VOC gas are transported and collected, so that some of the dust that is not filtered is coal tar at a low temperature. It is configured to prevent the phenomenon, the dust can be smoothly transported to the primary combustor (3) to be burned.

Looking at the preferred embodiment of the hazardous material combustion apparatus of the waste carbonization processor of the present invention having the configuration as described above are as follows.

First, in order to carbonize organic matter and wastes, the first and second combustors 3 and 4 of the waste carbonization processor 200 are operated to raise the temperature to a constant temperature.

Here, the heat generated in the primary and secondary combustors is about 1800 to 2000 ° C., and the heat source generated in the primary and secondary combustors 3 and 4 passes through the carbonization furnace 2 and the drying furnace 1. The heat exchanger (5) is to be recycled back to the primary combustor (3).

At this time, the temperature of the carbonization furnace (2) is maintained at about 800 ℃, the drying furnace is set to be maintained at 300 ~ 400 ℃.

In such a state, the dried food or household waste is inserted into the drying furnace 1 using a sorting crusher (not shown) and a transfer conveyor (not shown).

The waste inserted in the above is connected by the drying furnace 1 and the first discharge pipe 1a to connect harmful substances such as odor gas and condensate generated in the process of drying at a temperature of 300 to 400 ° C. in the drying furnace 1. The condenser 10 is moved.

Then, the condenser 10 liquefies by condensing water vapor from harmful substances, and discharges the contaminated water liquefied through the condensate outlet 11, and the contaminated water extracted in the condensation process is separated. It is released to the outside through a purification plant (not shown).

In addition, after the condensation process, some of the water vapor and the odor gas which are not condensed in the water vapor remaining in the condenser 10 are moved to the chamber 30 through the odor gas flow passage 12.

Then, the waste in the drying furnace (1) is moved to the carbonization furnace (2), the waste is carbonized by the heat of about 800 ℃ in the carbonization furnace (2).

Here, the hazardous substances such as dust or VOC gas generated when the waste is carbonized are transferred to the dust filtration device 20 through the second discharge pipe 2a.

The dust of the transported harmful substance is discharged to the outside through the dust outlet 21 formed in the dust filtering device 20, while being filtered by the dust filtering device (20).

Here, some of the dust that is not completely filtered by the dust filtering device 20 is transferred to the chamber 30 through the VOC moving pipe 22 together with the VOC gas.

Some of the water vapor and odor gas and some harmful substances such as dust or VOC gas transferred by the condenser 10 and the dust filtration device 20 are formed by the inverter fan 31 formed on one side of the chamber 30. It is forcibly conveyed to the primary combustor 3 via the contaminant moving pipe 32.

At this time, some of the dust introduced into the chamber 30 is not completely filtered in the above, and the waste is carbonized by the carbonization furnace 2 to form a charcoal shape. When the temperature is lowered while moving to 32, and as the temperature is lowered as described above, some of the dust is converted into coal tar-like form as the particles are aggregated. When transported to the combustor 3, the contaminant moving pipe 32 is blocked by some dust converting into coal tar.

In order to prevent such a phenomenon, one side is connected to the chamber 3 and the other side is connected to the heat exchanger 5 by the chamber hot air passage 40 connected to the hot air duct 6 formed to recycle the heat source of the heat exchanger 5. At the same time, a part of the heat source recycled to the primary combustor 3 is supplied to the chamber 30 and at the same time, a forced movement of the inverter fan 31 formed in the chamber 30 causes a contaminant moving pipe ( 32, when moving to the primary combustor (3) to remove the clogging phenomenon of the contaminant moving pipe 32, it is possible to burn harmful substances.

In addition, by applying heat to the chamber 30, some of the water vapor introduced from the condenser 10 is vaporized once again and introduced into the primary combustor 3.

Here, some of the water vapor remaining after passing through the condenser 10 is very small and, as described above, moves to the primary combustor 3 in the state of being once again vaporized by the chamber 30. However, even if the small amount of vaporized water vapor is combusted in the primary combustor 3, there is no significant effect on the amount of fuel or the thermal efficiency of the combustor.

Although the above-described embodiments have been described with respect to the most preferred examples of the present invention, it is not limited to the above embodiments, and various modifications are possible within the scope without departing from the technical spirit of the present invention. It is evident to those who have knowledge of.

As described above, the toxic material combustion device of the waste carbonization processor of the present invention not only sends water vapor generated in the drying furnace to the primary combustor but also discharges it using a condenser, thereby saving fuel consumed in the primary combustor. Therefore, the thermal efficiency can be improved accordingly.

In addition, by filtering the dust generated during the carbonization of household waste such as waste vinyl in the carbonization furnace using a dust filtration device, it is possible to prevent the clogging phenomenon of the VOC moving pipe to move some dust and VOC gas.

In addition, by supplying the heat source recycled in the heat exchanger to the chamber for storing the malodorous gas conveyed from the condenser and the VOC gas conveyed from the dust filtration device, to prevent dust deformation to change to coal tar at low temperatures, It is a useful invention that can increase the combustion rate of VOC gas.

Claims (1)

The heat source of the combustor in which the heat source is supplied to the primary combustor through the secondary combustor is supplied to the drying furnace through the carbonization furnace through the hot air duct, and the heat source introduced into the drying furnace is recycled to the primary combustor through the heat exchanger through the hot air duct. In the combustion apparatus for hazardous substances, A condenser connected to the first discharge pipe connected to the drying furnace, and having a odor gas moving pipe and a condensate discharge port formed at one side thereof; A dust filtration device connected to the second discharge pipe connected to the carbonization furnace, and having a VOC moving pipe and a dust discharge port formed at one side thereof; A chamber connected to the odor gas movement line and the VOC movement line, and having an inverter fan and a pollutant movement line on one side; Hazardous material combustion apparatus of the waste carbonization processor, characterized in that the hot air pipe connected to the heat exchanger and the chamber hot air pipe connecting the chamber is connected to the primary combustor.

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