KR20050089502A - Sludge incinerating system using rpf as a support fuel - Google Patents

Abstract

The present invention relates to a sludge incineration treatment system having RPF (Refuse Plastic Fuel) as an auxiliary fuel. It includes an incinerator for incineration of incineration objects introduced from the outside; A sludge feeder for injecting sludge to be incinerated into the incinerator; It characterized in that it comprises an RPF supply unit for injecting the RPF as auxiliary fuel for incineration of sludge in the incinerator.

In the present invention as described above, by replacing the oil, gas, or coal, which is an auxiliary fuel used for incineration of sludge, with RPF, it is particularly economical since the consumption of the fuel for a long time is extremely low, and the amount of RPF is injected. Can be easily controlled to maintain the best combustion conditions by optimizing the ratio of sludge and RPF according to the operating conditions.

Description

Sludge incinerating system using RPF as a support fuel}

The present invention relates to a sludge incineration treatment system having a refueling plastic fuel (RPF) as an auxiliary fuel.

Sludge, which is usually generated in sewage treatment plants, contains a large amount of water, so it is difficult to incinerate itself and has been treated by landfilling or dumping at sea. In recent years, however, environmental problems caused by sludge have been seriously recognized, and regulations have been established to incinerate sludge and landfill, and various incinerators or incineration methods have been developed.

The general process for incineration of sludge includes a dehydration process of removing water to some extent by mechanical dehydration, a drying process of making the sludge dehydrated through the dehydration process into a cake state, and then drying it in a drying apparatus; After the drying is finished, the dried sludge is added to an incinerator to incinerate. Although a separate drying apparatus is required for the drying process, the drying of the sludge may be incinerated and incinerated at once according to the type of treatment apparatus. As the sludge incinerator, rotary kiln type incinerators, stocker type incinerators or in particular fluidized bed incinerators are used.

The fluidized bed incinerator keeps the fluid in a fluid state by injecting an inert fluid medium such as sand into the fluid medium and supplying combustion air into the fluid medium from the bottom of the fluid medium. Is a device for incineration of incineration targets.

The fluidized bed incinerator uses sand having a large heat capacity as the fluid medium, and since the sand is always in a fluid state, the contact frequency between the fluid medium and the waste is high, and the heat transfer coefficient is large, so that the drying rate and the combustion rate are high. It is known to be good.

On the other hand, to incinerate sludge in an incinerator, fuels such as oil, gas, or coal are used as auxiliary to provide a more reliable combustion atmosphere in the incinerator, thereby improving the combustion efficiency of the sludge.

However, the incineration system of the conventional incinerator has a problem in that the fuel costs are enormously consumed and the efficiency is very low in terms of economic efficiency since the auxiliary fuel such as oil, gas or coal is continuously consumed during continuous operation of the incinerator. In addition, especially when coal is used as auxiliary fuel, since a lot of harmful exhaust gas is emitted from the coal, a high performance pollution prevention device is necessary.

The present invention has been created to solve the above problems, and by replacing the oil, gas or coal, such as auxiliary fuel used for the incineration of sludge with RPF, in particular, it is economical because the cost of the long operation is extremely low, Furthermore, it is an object of the present invention to provide a sludge incineration treatment system having an RPF as an auxiliary fuel that can easily control the input amount of the RPF and optimize the ratio of the sludge and the RPF according to the operating conditions to maintain the best combustion conditions.

In order to achieve the above object, the present invention, the incinerator for incinerating the incineration object injected from the outside; A sludge feeder for injecting sludge to be incinerated into the incinerator; It characterized in that it comprises an RPF supply unit for injecting the RPF as auxiliary fuel for incineration of the sludge in the incinerator.

In addition, the sludge feeder is characterized in that it has a spreader (spreader) that is sprinkled in the incinerator by breaking the sludge of the cake (cake) supplied from the outside.

In addition, the incinerator is characterized in that the fluidized bed incinerator having a fluid medium therein for heating and flowing by the heated air supplied from the outside to incinerate the introduced sludge.

The sludge incineration treatment system may further include a heat exchanger configured to heat the supply air by passing the exhaust gas generated from the fluidized bed incinerator and exchanging heat of the exhaust gas with air supplied into the fluidized bed incinerator.

The sludge incineration treatment system further includes an exhaust gas treatment unit connected to the heat exchanger and cooling and purifying the exhaust gas passing through the heat exchanger, wherein the exhaust gas treatment unit cools the exhaust gas and is caustic to the exhaust gas. It is characterized in that it comprises an absorption tower to neutralize the acidity of the exhaust gas by adding a.

The exhaust gas treatment unit may further include a dust collector for removing particulates in the exhaust gas that has passed through the absorption tower and removing heavy metals and dioxins by inputting slaked lime and activated carbon.

The exhaust gas treatment unit may further include a scrubber for removing residual acid gas and contaminants in the exhaust gas that has passed through the dust collector.

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

Basically, various types of incinerators may be applied to the slush incineration treatment system of the present invention. In the present embodiment, a fluidized bed incinerator will be described as an example.

1 is a view illustrating a sludge incineration treatment system having an RPF as an auxiliary fuel according to an embodiment of the present invention. The RPF used in the present invention means a known solid waste fuel (Refused Plastic Fuel) that is hardly processed by compression after sorting combustible waste generated from various wastes or industrial wastes by type.

Referring to the drawings, the sludge incineration treatment system having the RPF as an auxiliary fuel according to the present embodiment, the sludge for temporarily storing the fluidized bed incinerator 27 having a fluid medium 31 and the cake sludge temporarily A sludge feeder 15 and a sludge feeder 15 receiving sludge stored in the sludge storage tank 11 through a screw feeder 13 and feeding the sludge into the incinerator 29 of the fluidized bed incinerator 27, and the incinerator ( 29, which supplies an RPF which is an auxiliary fuel that is injected into the sludge and burns the sludge, the RPF storage tank 17 for temporarily storing the RPF and the RPF to be used from the RPF storage tank 17, for example, a belt conveyor 19 2RPF feeder 21 is supplied through the screw feeder 25 into the fluidized bed incinerator 27 and the high-temperature exhaust gas from the fluidized bed incinerator 27 is introduced into the fluidized bed incinerator 27. Outside It is configured to include a heat exchanger 43 for heat exchange into contact with the air, the exhaust gas processing unit 61 for removing harmful substances to treat the exhaust gas having passed through the heat exchanger.

The fluidized bed incinerator 27 is known and has various types, but usually has a configuration as shown in the drawings. As shown, the fluidized bed incinerator 27 has an incinerator 29 for receiving the fluid medium 31 to be incinerated therein, and a fluid medium 31 at an inner lower portion of the incinerator 29. Air dispersing plate (37) having a passage through which it is installed to support but is opened to the lower portion of the incinerator (29) at the center to discharge the fluid medium (31) and ash (ash), and installed in the lower portion of the incinerator (29) And a screw feeder 39 for moving the discharged fluid medium 31 and the ash to the vibrating screen 41. The vibrating screen 41 separates the fluid medium and the ash so that the fluid medium returns to the incinerator 29 again.

In addition, a plurality of air spray nozzles 35 are provided on the air dispersion plate 37. Each air spray nozzle 35 is connected to an air chamber 33 which is a lower space of the air dispersion plate 37. Therefore, the air supplied from the first fan 55 into the air chamber 33 through the heat exchanger 43 is injected through the air injection nozzle 35 to heat and flow the fluid medium 31.

On the other hand, the sludge feeder 15 has a sludge spreader 15a for feeding the caked sludge received from the sludge storage tank 11 into the incinerator 29 in smaller pieces. The sludge spreader 15a is finely divided into sludge in the cake state delivered through the screw feeder 13 and sprinkled in the incinerator 29 so that the sludge is evenly mixed with the fluid medium 31 from the beginning.

The RPF reservoir 17 temporarily stores RPF, which is an auxiliary fuel used for incineration of sludge, and is connected to the second RPF reservoir 23 through a belt conveyor 19. The second RRP reservoir 23 is a device for quantitatively supplying the RPF received through the belt conveyor 19 to the inside of the incinerator 27 through the screw feeder 25.

The combustion process of the sludge through the fluidized bed incinerator 27 is described in more detail as follows. In order to burn the sludge, first, the fluid medium 31 is heated, and the RPF supply 21 is operated in such a state that a predetermined amount of RPF is introduced into the incinerator 29 so that the temperature of the air jet plate 37 is 700. It is set to about ℃ to 800 ℃.

The sludge spreader 15a is caused to inject a predetermined amount of sludge into the incinerator 29 while the temperature of the air jet plate 37 is maintained at the temperature and the fluid medium 31 is flowing. As described above, the cake sludge having a certain water content and the high calorific value RPF are mixed at a predetermined ratio in the incinerator 29 to remove moisture of the sludge and to burn at the same time.

Meanwhile, as described above, the high temperature exhaust gas generated in the fluidized bed incinerator 27 reaches the heat exchanger 43 through the exhaust gas line 45, passes through the heat exchanger 43, and then the exhaust gas treatment unit 61. To the side.

The heat exchanger 43 heats the air of about 40 ° C., which is newly supplied into the incinerator 29 by the first fan 55, and the high-temperature exhaust gas (about 800 ° C.), so that the newly supplied air is about 400 ° C. Have a heat of about ℃. By recycling the heat of the exhaust gas in this way it is possible to reduce the energy required to heat the air supplied into the incinerator.

The exhaust gas treatment unit 61 connected to the heat exchanger 43 includes an absorption tower 49, a dust collector 51, and a scrubber 53. The absorption tower 49, the dust collector 51, and the scrubber 53 itself are well-known elements, and in this embodiment, they are sequentially connected through the exhaust gas line 45 to purify the exhaust gas step by step.

The absorption tower 49 once cools the exhaust gas to about 180 ° C. and adds caustic soda to neutralize the acidity of the exhaust gas, thereby increasing the treatment efficiency of the dust collector 51 and the scrubber 53. Let's do it.

The dust collector 51 connected to the absorption tower 49 serves to remove the fine particles in the exhaust gas passing through the absorption tower 49 and to remove heavy metals and dioxins in the exhaust gas by inputting slaked lime and activated carbon.

In addition, the scrubber 53 has a moisture absorbing layer and a filling layer therein and removes residual acid gas and pollutants in the exhaust gas passing through the dust collector.

The exhaust gas purified through the exhaust gas treatment part 61 is sent to the chimney 59 through the second fan 57 and discharged to the atmosphere. The second fan 57 maintains the internal pressure of the exhaust gas line 45 at a pressure of about -5 mmH 2 O to -10 mmH 2 O so that the combustion inside the fluidized bed incinerator 27 proceeds more actively.

As mentioned above, although this invention was demonstrated in detail through the specific Example, this invention is not limited to the said Example, A various deformation | transformation is possible for a person with ordinary knowledge within the scope of the technical idea of this invention.

In particular, in the present embodiment, the fluidized bed incinerator has been described as an incinerator, for example, but other types of incinerators including rotary kiln type incinerators and stocker type incinerators, which constitute most of the urban waste incinerators, may be applied.

In the sludge incineration treatment system having the RPF of the present invention as an auxiliary fuel made as described above, it is possible to replace oil, gas, or coal, which is an auxiliary fuel used for incineration of sludge, with RPF, in particular, a cost for long-term operation. It is very economical because it consumes very little, and it is possible to easily control the input amount of RPF to maintain the best combustion condition by optimizing the ratio of sludge and RPF according to the operating conditions.

1 is a view illustrating a sludge incineration treatment system having an RPF as an auxiliary fuel according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

11: Sludge storage tank 13, 25: screw feeder

15: sludge feeder 15a: sludge spreader

17: RPF storage 19: belt conveyor

21: RPF feeder 23: second RPF reservoir

27: fluidized bed incinerator 29: incinerator

31: fluid medium 33: air chamber

35: Air injection nozzle 37: Air dispersion plate

39: screw feeder 41: vibration screen

43: heat exchanger 45: exhaust gas line

49: absorption tower 51: dust collector

53: scrubber 55: first fan

57: second fan 59: chimney

61: exhaust gas treatment unit

Claims (7)

An incinerator for incineration of incineration objects introduced from the outside; A sludge feeder for injecting sludge to be incinerated into the incinerator; A sludge incineration treatment system having an RPF as an auxiliary fuel, comprising: an RPF supply unit for injecting an RPF as an auxiliary fuel for incineration of the sludge into the incinerator. The method of claim 1, The sludge feeder is a sludge incineration treatment system having an RPF as an auxiliary fuel, characterized in that it has a spreader (spreader) for splitting the cake sludge supplied from the outside and sprayed in the incinerator. The method according to claim 1 or 2, The incinerator is a sludge incineration treatment system having RPF as an auxiliary fuel, characterized in that the fluidized bed incinerator having a fluidized medium therein for heating and flowing by heated air supplied from the outside to incinerate the introduced sludge. The method of claim 3, wherein The sludge incineration treatment system further includes a heat exchanger for passing the exhaust gas generated from the fluidized bed incinerator and heat-exchanging heat of the exhaust gas with the air supplied into the fluidized bed incinerator to heat the supply air. Sludge incineration system with fuel. The method of claim 4, wherein The sludge incineration treatment system further includes an exhaust gas treatment unit connected to the heat exchanger and cooling and purifying exhaust gas passing through the heat exchanger. And the exhaust gas treatment unit includes an absorption tower for cooling the exhaust gas and adding caustic soda to the exhaust gas to neutralize the acidity of the exhaust gas. The method of claim 5, The exhaust gas treatment unit further includes a dust collector for removing heavy metals and dioxins by removing fine particles in exhaust gas that has passed through the absorption tower, and adding slaked lime and activated carbon to the sludge incineration treatment system having RPF as an auxiliary fuel. . The method of claim 6, The exhaust gas treatment unit further comprises a scrubber for removing residual acid gas and contaminants in the exhaust gas that has passed through the dust collector.