KR101086105B1 - Sludge treatment apparatus having sludge transfer unit - Google Patents

Abstract

Disclosed is a sludge treatment apparatus including a sludge moving unit for conveying dehydrated sludge while grinding and drying the sludge. The sludge treatment apparatus according to the present invention includes a dewatering unit for dewatering sludge, a sludge moving unit for moving the sludge dehydrated through the dewatering unit while grinding and drying, and a drying unit for drying the sludge moved through the moving unit. The mobile unit includes a mobile body for moving the sludge discharged from the dewatering unit while crushing the sludge to the drying unit, and a blower body installed at least one side by side in the longitudinal direction of the mobile body. According to this configuration, the dewatered sludge can be prevented from being re-liquefied due to the high temperature steam, thereby maintaining a low water content.

Sludge, dehydration, drying, transfer, liquefaction, steam.

Description

Sludge treatment unit equipped with sludge transfer unit {SLUDGE TREATMENT APPARATUS HAVING SLUDGE TRANSFER UNIT}

The present invention relates to a sludge treatment apparatus applied to wastewater treatment facilities, and more particularly, to a sludge treatment apparatus having a sludge moving unit for moving while dewatering sludge is crushed and dried.

In general, sludge, which is a sediment during treatment of wastewater, is generated in wastewater treatment facilities such as sewage treatment plants or wastewater treatment plants. This sludge is treated through a dehydration process that separates it from moisture. At this time, the dewatering process of the sludge may be a pressurization method by a filter such as a filter cloth or an electroinfiltration method using electrophoresis / electroosmotic pressure. The sludge dehydrated by any one of these various dehydration methods is transferred for the next step, for example, the next round dehydration or drying step.

By the way, the dewatered sludge is moved to a state containing a high temperature steam during the dehydration process. As a result, the dehydrated sludge is liquefied during movement, thereby causing a problem in that the moisture content of the water is increased. As the water content increase due to the sludge reliquefaction causes sludge treatment efficiency, research / development is required to improve the sludge.

The present invention has been made in view of the above problems, an object of the present invention is to provide a sludge treatment apparatus having a sludge moving unit that can prevent the dewatered sludge is re-liquefied by the high temperature steam.

Another object of the present invention is to provide a sludge treatment apparatus having a sludge moving unit which can lower the moisture content of the dewatered sludge to be moved.

The sludge treatment apparatus according to the present invention for achieving the above object includes a dewatering unit, a sludge moving unit and a drying unit.

The dewatering unit dewaters the sludge. The dewatering unit may include a first rotatable body, a second rotatable body rotating along at least a part of an outer circumferential surface of the first rotatable body, and a first rotatable body moving the sludge while being infinitely rotated. And a power applying unit for applying a positive electrode (+) and a negative electrode (−) onto the third rotating body and the first and second rotating bodies. That is, the dewatering unit is to dewater the sludge by electrophoresis and electroosmotic method. For reference, the dehydration unit is preferably provided with a plurality of dewatering the sludge a plurality of times.

The moving unit moves the sludge dehydrated through the dehydration unit while grinding and drying. The mobile unit includes a mobile body for moving the sludge discharged from the dewatering unit while grinding the sludge to the drying unit side, and at least one blower body disposed side by side with respect to the longitudinal direction of the mobile body. In the present embodiment, the movable body includes a screw conveyor, and the blower is illustrated as including a fan, but is not necessarily limited thereto.

The sludge moved through the mobile unit is dried.

According to the present invention having the above-described configuration, first, by crushing and drying the sludge dewatered from the dewatering unit containing a high temperature steam, it is possible to block the re-liquefaction of the dewatered sludge. Accordingly, it is possible to improve the water content increase problem of the dewatered sludge due to the existing liquefaction.

Second, as the dewatered sludge is crushed during movement and the surface area is widened, the drying efficiency can also be increased by the dryers.

Third, it is possible to continuously provide the dryer even during the movement of the dewatered sludge, it is possible to lower the water content of the treated sludge.

Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

Referring to FIG. 1, the sludge treatment apparatus 1 according to the present invention includes a dewatering unit 10, a sludge moving unit 20, and a drying unit 30.

The dewatering unit 10 dewateres the sludge S (see FIGS. 2 and 3). Here, the sludge (S) is a sediment of waste water such as sewage or waste water. Accordingly, the sludge treatment apparatus 1 described in the present invention is employed in a wastewater treatment facility. The dehydration unit 10 dehydrates the sludge S by an electropenetrating method.

Here, the dewatering unit 10 lowers the water content of the sludge (S) by approximately 55 ~ 65wt% by the electric osmosis method. As shown in FIG. 2, the dehydration unit 10 has the first and second rotating bodies 11 rotated to face a predetermined area while the positive and negative electrodes are applied due to the power supply unit 14. The sludge S is dewatered by providing the sludge S by the third rotating body 13 between the parts 12. More specifically, the first rotating body 11 is provided as a drum, although not shown in detail, the coolant is introduced into and discharged from the inside. In addition, the second rotating body 12 is a caterpillar that rotates to surround a predetermined area of the first rotating body 11, and the third rotating body 13 is the first and second rotating body 11. It is a filter belt which rotates between (12) in an infinite track. As the positive electrode (+) and the negative electrode (-) are applied to the first and second rotating bodies 11 and 12, respectively, the sludge particles of the sludge S are positive (+) due to their negative (-) properties. ) Is moved toward the first rotating body 11 to which the sludge S is applied and the moisture contained in the sludge S is moved to the second rotating body 12 to which the negative electrode (-) is applied by the positive electrode (+), whereby the sludge Water is dehydrated from (S). At this time, the sludge S is moved to the second rotating body 12 to be dehydrated even by the moisture bound to the sludge S by the electroosmotic phenomenon.

For reference, in the present exemplary embodiment, the dehydration unit 10 is illustrated as being provided as a single unit, but a plurality of dewatering units 10 may be provided to dehydrate the sludge S in a plurality of times. At this time, when the dewatering unit 10 is deformed to dewater the sludge S over a second stage, the sludge S has a water content lowered to about 90 to 98 wt% at the first stage, and then at a second stage. It may be provided to lower the moisture content up to 55 ~ 65wt%. In addition, it is obvious that the dehydration unit 10 may be applied by a pressure method by a filter cloth or by a condensation and dehydration method by a screw movement, rather than an electropenetration method.

The sludge moving unit 20 is moved while grinding and drying the sludge (S) dehydrated through the dehydration unit (10). To this end, the sludge moving unit 20 includes a moving body 21 and a blower 22.

The movable body 21 moves the sludge S discharged from the dewatering unit 10 to the drying unit 30 to be described later. In the present embodiment, as shown in FIG. 3, the sludge S is provided through a screw conveyor having the moving shaft 21 and the blades 24 provided on the rotating shaft 23. It is illustrated by moving. The sludge S introduced in this way is crushed in one direction by the rotation of the movable body 21 and is moved while the surface area is gradually widened. For reference, although not shown in detail, the sludge dewatered from the dewatering unit 10 is introduced into the moving body 21 through a separate guide means. In addition, the sludge S dewatered and discharged from the dehydration unit 10 is in a state containing hot steam by a dehydration process.

The blower 22 is provided at least one side by side in the longitudinal direction of the movable body 21, to remove the high-temperature steam of the dehydrated sludge (S) to lower the water content to 2wt% with the prevention of re-liquefaction. To this end, the blower 22 provides the dryer in the " W " direction shown on the sludge S that is crushed by the moving body 21, whereby the dewatered sludge S is steam of high temperature. To prevent reliquefaction by In this embodiment, as shown in FIG. 3, the blower 22 includes one blower fan corresponding to the longitudinal direction of the movable body 21, that is, the moving direction of the sludge S. do. However, it is natural that the blower 22 may include a modification including a plurality of blower fans facing the moving direction of the sludge S.

The drying unit 30 to dry the sludge (S) moved through the sludge moving unit 20. Here, the drying unit 30 is dried by the sludge moving unit 20 to dry the sludge (S) moved in a state in which the high-temperature steam is removed within a water content of 10wt%. Since the technical configuration of the drying unit 30 can be understood from a known technique, detailed description and illustration are omitted.

The treatment process of the sludge treatment apparatus 1 provided with the sludge moving unit 20 according to the present invention having the above configuration will be described sequentially with reference to FIGS. 1 to 3.

First, the sludge S discharged from the wastewater treatment facility, which is not shown, is provided to the dewatering unit 10 and dewatered as shown in FIG. 1. At this time, the sludge S provided in the dehydration unit 10 is wound between the first and second rotary bodies 11 and 12 to which the positive electrode (+) and the negative electrode (-) are applied as shown in FIG. 2. By rotating together with the third rotary body 13 to be rotated, it is dehydrated by the electropenetration method by electro-interlocking and electroosmotic. At this time, the water content of the sludge (S) is approximately 55 ~ 65wt%.

The dewatered sludge S is discharged in a collected state through a separate guide means (not shown) and flows into the sludge moving unit 20. The sludge moving unit 20 is moved while being crushed toward the drying unit 30 side through the moving body 21 of the screw conveyor method, as shown in FIG. At this time, as the dewatered sludge S is crushed, the surface area gradually increases. In addition, the hot air is removed by the blower body 22 which provides the dryer to the moving path by the moving air dewatered sludge (S). Accordingly, the dewatered sludge S is moved to the drying unit 30 as shown in FIG. 1 in a state in which the moisture content is 2 wt% lower in the state of dehydration without re-liquefying.

The sludge S moved to the drying unit 30 is finally dried to less than 10 wt% of moisture content.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art will be variously modified and changed without departing from the spirit and scope of the invention described in the claims below I can understand that you can.

1 is a configuration diagram schematically showing a sludge treatment apparatus according to the present invention,

2 is a cross-sectional view schematically showing the dewatering unit of FIG.

3 is a cross-sectional view schematically illustrating the mobile unit of FIG. 1.

Description of the Related Art [0002]

1: sludge treatment device 10: dewatering unit

20: sludge mobile unit 21: mobile body

22: blower 30: drying unit

Claims (9)

Dewatering unit for dewatering sludge; A sludge moving unit for moving the sludge dehydrated through the dewatering unit while being crushed and dried; And A drying unit for drying the sludge moved through the mobile unit; Including; The mobile unit, A moving body moving the sludge discharged from the dewatering unit in the longitudinal direction while crushing the sludge to the drying unit; And A blower installed at least one side by side in the longitudinal direction of the movable body; Sludge treatment apparatus comprising a. delete The method of claim 1, Sludge treatment apparatus, characterized in that the moving body comprises a screw conveyor. The method of claim 1, The blower is sludge processing apparatus, characterized in that it comprises a fan. The method according to any one of claims 1, 3 or 4, The dewatering unit, First rotating body; A second rotating body rotating along at least a part of an outer circumferential surface of the first rotating body; A third rotatable body which is wound between the first and second rotatable bodies to move the sludge with infinite rotation; And A power supply unit for applying a positive electrode (+) and a negative electrode (−) onto the first and second rotating bodies; Sludge treatment apparatus comprising a. The method of claim 5, The sludge treatment apparatus is provided with a plurality of dewatering unit, dewatering the sludge a plurality of times. A sludge moving unit of a sludge treatment apparatus for dewatering and treating sludge discharged from a wastewater treatment system at least once, A moving body moving while dewatering the sludge; And A blower to provide a dryer on a moving path of the dewatered sludge by the moving body; Including; The air blower is a sludge moving unit comprising a blower fan installed at least one side by side in the movement path. The method of claim 7, wherein Sludge moving unit, characterized in that the moving body comprises a screw conveyor. delete

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