KR100418412B1 - Apparatus to iacinerate sewage sludge - Google Patents

Abstract

The present invention relates to a sewage sludge incineration treatment apparatus.

In the present invention, in the sewage sludge incineration treatment apparatus, an input hopper 12 for supplying sludge pulverized through a conventional cake grinder 20 is installed on one side of the upper surface of the main body 10, and the main body 10 side surface. The incinerator discharges to one side of the outlet pipe 14 and the bottom of the ordinary burner 30, which are coaxially coupled to the heat treatment unit 40, the suction motor 41, and the dioxin removal filter F, for co-connecting with the inside. Discharge port 13 is provided for the installation space portion 11 of the main body 10 is connected to one end is connected to the chain 80 by the drive of the drive motor 81 is installed on the bottom of both sides of the main body 10 Sludge is rolled out at one side of the guide cover 50 by the pressure feeding of the transfer screw 50 so that a plurality of the transfer screw 50 is rolled at equal intervals and accommodated inside the guide cover 60. ) To be guided down and moved downwards) Sludge transfer supply conveyor 70 is installed between the cover 50 and the one-side guide cover 50 to supply the sludge discharged through the bottom guide cover 60 to the inside of the guide cover 60 located at the top of one side again. It is structured to be made.

The present invention is configured by repeating the multi-stage reciprocating sludge moving means inside the incineration treatment device to expand the contact opportunity of the burner heating heat to completely burn the moisture of the supplied sludge and dry the dioxins generated during incineration separately It can be easily discharged to the outside of the incineration treatment apparatus in the state of complete decomposition using the heat treatment machine of the can eliminate the concern of air pollution.

Description

Sewage Sludge Incinerator {Apparatus to iacinerate sewage sludge}

The present invention relates to a sewage sludge incineration treatment apparatus.

In particular, the present invention improves the incineration efficiency by expanding the thermal contact area of the sewage sludge introduced into the incinerator with a compact and simple structure, while effectively decomposing dust and dioxins generated during incineration to the outside of the incinerator. It is to be discharged.

As is known, the recent environmental benefits of the pollution caused by the realization of various pollution prevention measures have been proposed.

Among them, the new sewage treatment plant and factory wastewater treatment plant have been shown to reduce water pollution somewhat in order to prevent water pollution, but the amount of sludge contained in sewage during sewage treatment is rapidly increased. Increasingly, the treatment for this is becoming another problem.

Therefore, the sludge is collected and landfilled as it is in the ground, or it is acting as a main cause of secondary environmental pollution leading to land and groundwater pollution by securing landfill sites or leachate.

On the other hand, in order to reduce sludge reduction and stable treatment, most of the sludge generated from the sewage treatment plant is treated with an incineration treatment unit.

The sludge is treated by dehydrating the sludge moisture content (25%) of about 75% of water removed through the dehydration process of the sewage treatment plant and dehydrating the water content to 10-20% through the dehydration process in a dehydrator and then transporting it to a dryer. Conventionally, the incineration treatment apparatus is large in size compared to the incineration efficiency, and simply injects sludge into the incineration treatment apparatus to be discharged immediately after being heated by a bottom burner for a predetermined time, thereby incinerating sludge. In addition, the drying condition is poor, and due to the lack of its own internal transport means, structurally very unreasonable problems are exposed in the supply and discharge of sludge.

In addition, since the sludge of the sewage treatment plant contains a large amount of polymer flocculant, the conventional dehydration drying method can not significantly reduce the sludge, and even during incineration treatment, the incineration method has an excessive cost of equipment and operating costs.

In particular, during incineration of sludge, due to incomplete combustion of volatile components contained in sludge, dust of dioxin or sludge, which is one of the factors of air pollution, is discharged directly to the outside of the incineration plant without filtration, resulting in secondary environmental pollution. It is urgent to prepare countermeasures.

In particular, the present invention improves the incineration efficiency by increasing the thermal contact area of sewage sludge introduced into the incinerator with a compact and simple structure, while effectively completely decomposing dust and dioxins generated during incineration, to the outside of the incinerator. It is intended to be able to discharge.

The present invention for achieving the above object is installed on the upper side of the main body of the hopper for supplying the sludge crushed through a conventional cake mill.

In addition, the outlet of the incineration ash is provided on one side of the drawer tube and the bottom of the common burner, which is connected to the inside of the main body and is connected to the inside of the dioxin removing heat treatment machine, the suction motor, and the dioxin removing filter.

In addition, one end of the installation space of the main body is connected to the chain by the drive of the drive motors installed on the bottom of both sides of the main body to be rolled out a plurality of transfer screws at equal intervals so that it can be accommodated inside the guide cover The sludge is sequentially guided downward through one discharge hole of the guide cover by the feeding screw, and a sludge conveying supply conveyor is installed between the guide cover and the one side guide cover and the bottom guide cover. By providing the sludge moving means for supplying the discharged sludge to the inside of the guide cover located at the upper side of the one side, the contact opportunity of the heating heater can be expanded to improve the incineration and drying effect of the sludge, and also occurs during incineration. Effectively disassembles dust and dioxins, which are easily removed from the incinerator To provide a series of related components that allow you astute emissions.

1 is a schematic front configuration diagram of the present invention.

Figure 2 is a partial cross-sectional front view of the present invention.

Figure 3 is a partially cutaway side cross-sectional view of the present invention. Figure 4 is a plan view of another embodiment of the guide cover of the present invention. Figure 5 is a side cross-sectional view of another embodiment of the guide cover of the present invention.

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

10: main body 11: installation space

12: input hopper 13: outlet

14: withdrawal pipe 20: cake grinding machine

30: burner 40: heat treatment

41: suction motor 50: transfer screw

60: guide cover 61,61 ': discharge hole 62,62': cutout 70: supply conveyor 80: chain 81: drive motor F: filter

In the present invention, in the sewage sludge incineration treatment apparatus, an input hopper 12 for supplying sludge pulverized through a conventional cake grinder 20 is installed on one side of the upper surface of the main body 10, and the main body 10 side surface. The incinerator discharges to one side of the outlet pipe 14 and the bottom of the ordinary burner 30, which are coaxially coupled to the heat treatment unit 40, the suction motor 41, and the dioxin removal filter F, for co-connecting with the inside. Discharge port 13 is provided for the installation space portion 11 of the main body 10 is connected to one end is connected to the chain 80 by the drive of the drive motor 81 is installed on the bottom of both sides of the main body 10 Sludge is rolled out at one side of the guide cover 60 by the pressure feeding of the transfer screw 50 so that a plurality of the transfer screw 50 is rolled at equal intervals and accommodated inside the guide cover 60. ) To be guided down and moved downwards) Sludge transfer supply conveyor 70 is installed between the cover 60 and the one-side guide cover 60 to supply the sludge discharged through the bottom guide cover 60 to the inside of the guide cover 60 located at the top of one side again. On the other hand, the present invention is another embodiment of the guide cover 60, the guide cover 60 is configured in the form of a closed upper tube, but the cutout portion 62 on one upper surface and the other bottom surface ) 62 '), and a plurality of discharge holes 61' are formed on the upper surface at equal intervals, thereby providing a guide cover 60 having a structure configured to allow the smell and water vapor of the sludge to be discharged. Reference numeral 100 in the drawing denotes a dehydrator. Hereinafter, the operation of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic front sectional view of the present invention, FIG. 2 is a partially cutaway front sectional view of the present invention, FIG. 3 is a partially cutaway side sectional view of the present invention, and FIG. 4 is a present invention. Is a plan view of another embodiment of a guide cover of Figure 5 is a side cross-sectional view of another embodiment of a guide cover of the present invention.

In the present invention, the sludge generated after the sewage purification in the sewage treatment plant is removed using the conventional hydraulic dehydrator 100 to about 90 ± 5% of the water content, and then supplied to the cake grinder through the conveyor 101. The dehydration process of the dehydrator 100 may be omitted in some cases and may be immediately transferred to the incineration treatment unit body 10.

For reference, as the fuel used in the incineration treatment apparatus of the present invention, city gas, diesel oil, kerosene, bunker C oil, and waste vinyl may be used. In addition, industrial waste for incineration may be used as pretreatment.

At this time, in the case of using waste vinyl (melt press) or industrial waste, a heat treatment machine 40 is installed on one side of the main body 10 that connects with the internal installation space 11 of the incineration treatment apparatus to exhaust the exhaust gas at about 800. By re-combustion at or above ° C to discharge the exhaust gas to be discharged by filtration through the filter (F) installed on the coaxial of the outlet pipe 14 in a state in which the volatile components or dioxins generated during incineration are completely decomposed. do.

On the other hand, the sludge supplied into the hopper 12 of the main body 10 through the cake crusher 20 is supplied to the inside of the guide cover 60, the drive of the one side drive motor 81 of the main body 10 By the conveying screw 50 is connected to each of the chains 80 to continuously feed the sludge supplied to the opposite side.

The sludge thus conveyed is naturally supplied into the lower guide cover 60 through one side discharge hole 61 of the guide cover 60 and continuously transferred through the discharge hole 61 of the guide cover 60 formed on the opposite side. A series of the above-described process of supplying the sludge supplied into the inner side of the guide cover 61 installed at the lowermost end to the inner side of the upper guide cover 60 by the transfer of the supply conveyor 70 several times Going through.

Therefore, the supplied sludge is extended by the contact opportunity of the internal heating heat by the bottom burner 30 in the continuous feeding process by the conveying screw 50, so that the sludge can be completely incinerated and dried, as well as the perfect volatile components. On the other hand, the present invention is another embodiment of the guide cover 60, the guide cover 60 is configured in the form of a closed upper tube to make the transport of the sludge more stable and on one side and the other bottom surface The cutouts 62 and 62 'are respectively formed to facilitate the inflow or discharge of the sludge supplied from the top. In addition, a plurality of discharge holes 61 formed at equal intervals on the upper surface of the tubular guide cover 60. ') The smell and water vapor of the sludge is rapidly discharged during the feeding, and the sludge that continuously passes through the inside of the tubular guide cover 60 is self-heating of the guide cover 60. The burning time and by also be shortened effectively.

In particular, the incinerator main body 10 of the present invention adopts a heat treatment unit 40 on one side of the main body 10 as an auxiliary heating means for further improving the decomposition effect in the decomposition of dust or dioxins generated during incineration. By separately re-burning the exhaust gas generated in the incineration treatment apparatus through the heat treatment unit 40 is discharged in a completely filtered state through the filter (F) of the outlet pipe (14).

On the other hand, the number of the transfer screw 50 of the present invention can vary depending on the size of the incineration treatment apparatus, but it is suitable to configure about 12-15 stages, and the number of the transfer screw disposed sideways is about 2-4 rows desirable.

The incineration residue treated by the present invention is transferred to a retractable conveyor for reference, separated by specific gravity method, and then separated by 3 m height with an appropriate amount of wind, and then a partition of 1 m height is installed at a height of 1 m at a height of falling inorganic matter. Installed horizontally in the advancing direction of the particle size of the inorganic particles will be used to suit the purpose.

Incidentally, incineration residues are generally about 30 tons when processed to 100 tons, and the incineration residues are easily recycled for brick or sidewalk blocks, or used for the treatment of water treatment adsorbents, inorganic fertilizers and soil improvers. It can be applied to a wide range of fields, such as being recycled and can be used to expect import substitution effects in this area.

As a result, the present invention can not only improve the incineration efficiency by expanding the thermal contact area of the sewage sludge introduced into the incineration treatment apparatus with a compact and simple structure, but also effectively completely decomposes the dust and dioxin generated during incineration. By making it easy to discharge to the outside, it is possible to eliminate the concern about air pollution caused by the emission of dioxin or dust that is not completely decomposed.

As described above, the present invention has been illustrated and described with reference to certain preferred embodiments, but the present invention is not limited to the above-described embodiments, and the present invention is not limited to the spirit of the present invention. Various changes and modifications may be made by a person having the same authority.

The present invention is configured by repeating the multi-stage reciprocating sludge moving means inside the incineration treatment device to expand the contact opportunity of the burner heating heat to completely burn the moisture of the supplied sludge and to dry the dioxin generated during incineration Easily discharged to the outside of the incineration treatment apparatus in a completely decomposed state by using a heat treatment device on one side, it is possible to eliminate the concern of air pollution.

Claims (2)

In constructing the sewage sludge incineration treatment apparatus, an injection hopper 12 for supplying sludge pulverized through a conventional cake grinder 20 is installed on one side of the upper surface of the main body 10, The discharge port for incineration ash discharged on one side of the outlet pipe 14 and the bottom of the conventional burner 30, which is coaxially coupled to the heat treatment unit 40, the suction motor 41, and the dioxin removal filter F, for coaxial coupling. 13 is provided and a plurality of transfers are connected to the installation space 11 of the main body 10 by one end is connected to the chain 80 by the drive of the drive motor 81 installed on the bottom of both sides of the main body 10 The sludge is rolled out at equal intervals so that it can be accommodated inside the guide cover 60 so that sludge is pushed by the conveying screw 50 through one side discharge hole 61 of the guide cover 60. While configured to be guided downward to be moved sequentially, the guide cover 60 and The sludge transporting supply conveyor 70 is installed between the one side guide cover 60 to supply the sludge discharged through the bottom guide cover 60 to the inside of the guide cover 60 located at the top of one side again. Sewage sludge incineration treatment apparatus characterized in that. According to claim 1, wherein the guide cover 60 is configured in the form of a closed upper tube, the cutouts 62, 62 'are formed on one side of the upper surface and the other bottom, respectively, while the discharge hole (top) Sewage sludge incineration treatment apparatus characterized in that formed to be equally spaced to the 61 ') to be discharged through the smell and water vapor of the sludge.