KR101188740B1 - Dewatering press screw for sludge and dewatering apparatus using the same - Google Patents

Abstract

PURPOSE: A sludge dehydrating screw device and a sludge dehydrating apparatus using the same are provided to easily remove moisture from sludge by compressively destroying the cell membrane of the sludge. CONSTITUTION: A sludge dehydrating screw device(20) includes a shaft, spiral screws, and a plurality of shearing members. The shaft is connected to a driving motor to be rotated. The spiral screws are spirally attached to the outer circumference of the shaft. The spiral screws transfers sludge to one direction and compress the sludge when the shaft rotates. The shearing members are combined with the outer circumference of the shaft. The shearing members induce the generation of shearing force to the sludge by rotating with the shaft such that the cell membrane of the sludge is destroyed. A shearing panel with porous holes is arranged at the shaft between the spiral screws.

Description

Dewatering screw for sludge and dewatering apparatus using same {Dewatering press screw for sludge and dewatering apparatus using the same}

The present invention relates to a sludge dewatering screw device and a sludge dewatering device using the same, and more particularly, a shearing rod that can increase the dewatering efficiency by destroying the cell membrane forming the sludge by generating shear force in the sludge dewatered in addition to the screw device. The present invention relates to a sludge dewatering device in which a shear panel or shear screw is additionally installed.

Typically, sewage and wastewater containing sludge is generated in a sewage treatment plant or a wastewater treatment plant, and a sludge dehydration apparatus is used to remove water from the sludge.

Conventional sludge dewatering apparatus is used such as belt press, filter press, centrifugal dehydrator, multiple disc dehydrator, these are the way to separate the sludge and water by compressing the sludge.

Conventional sludge dewatered in this manner is somewhat different depending on the properties and ingredients, but the water content is dehydrated to about 75 ~ 85% is discharged in the form of sludge cake (sludge cake).

However, since 2012, according to the London Convention to prevent marine pollution caused by ocean dumping of waste, dumping of sludge, which is a waste by-product of sewage and wastewater treatment plants, has been banned.

As a result, it is necessary to treat sludge on land, and in this case, the cost is increased and it is necessary to reduce the weight of sludge or increase the efficiency of dewatering.

On the other hand, the sludge is composed of a large amount of cells because most of the organic components such as microorganisms are precipitated, and contains a large amount of water inside these cells. Therefore, it is difficult to dehydrate sludge easily without destroying the cell membrane of the cells constituting the sludge.

However, the conventional method of dewatering sludge by simple compression has a limit in lowering the water content of the sludge. This is because the sludge-forming cells are very weak in shearing forces, but strong in vertical compression.

Therefore, it is necessary to develop a sludge dewatering device capable of lowering the water content during dehydration by destroying the cell membrane of the sludge forming cells.

In order to solve the above problems, the present invention is to provide a sludge dewatering device that can significantly reduce the moisture content of the dehydrated sludge by deforming the cell membrane of the cell by generating a shear force on the sludge to be dehydrated. By using the sludge dewatering apparatus of the present invention it is possible to significantly lower the water content of the sludge cake to 55 ~ 70%.

According to an aspect of the invention, the shaft is connected to the drive motor is provided to rotate; A spiral screw fixed to the outer periphery of the shaft to transfer sludge in one direction when the shaft rotates; And a plurality of shear rods coupled to the outer circumference of the shaft in a radial direction to rotate together with the shaft in rotation to induce shear force generation of the sludge to destroy cell membranes.

Instead of a shear rod providing shear force to the sludge conveyed by the spiral screw, an additional shear panel or shear screw may be installed between the spiral screws, and the shear screw is made by forming a screw blade in a wave shape or by forming a hole. .

In addition, the shear force member composed of the shear bar may be provided as a rod member of a rectangular cross section or a triangular cross section.

According to another aspect of the invention, the case is provided with an inlet through which the sludge is introduced at one end, the outlet provided with a discharge port for the sludge dehydrated at the other end; A plurality of shear rods that are rotatably provided by a drive motor in the case, a spiral screw coupled to an outer periphery of the shaft, and a plurality of shear rods that are radially coupled to the shaft to induce shear force in the sludge A shear force member composed of a shear panel or a shear screw; And a sludge dewatering device comprising a screen for filtering and discharge the dewatering liquid discharged from the sludge provided on one side of the case may be provided.

The shear force member may be made of a rod member having a rectangular cross section or a triangular cross section, or a shear screw having a hole formed therein, or a shear screw having a wave shape or a hole formed therein.

The present invention is configured to efficiently promote dewatering of sludge with high moisture content, and easily dehydrates water of sludge by using a shear panel or shear screw having a rod-like shear force member or a corrugated hole formed between a spiral screw formed of a conventional spiral. It is to let. Ordinary sludge is caused by microbial cells grown under anaerobic conditions, and the water inside the cells is not easily dehydrated, so dehydration is not easy.

However, if the dehydration apparatus provided with the shear rod or shear panel of the present invention, the shear force member consisting of a shear screw can be easily compressed and destroyed the membrane of the sludge can be easily removed the water of the sludge.

When the organic membrane constituting the sludge is destroyed to remove water from the sludge, the water content of the sludge cake can be reduced to 55 to 70%, which is difficult to achieve by the conventional sludge dehydration method.

1 is a longitudinal cross-sectional view showing the internal configuration of the sludge dewatering apparatus according to an embodiment of the present invention.
2 is a partially enlarged view of a screw device in which a shear bar is formed.
3 is a partially enlarged view of a screw device in which a shear panel having a hole is installed.
4 is a partially enlarged view of a screw device composed of a shear screw having a hole formed therein.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. Like parts are designated by like reference numerals throughout the specification.

1 is a longitudinal cross-sectional view showing the internal configuration of the sludge dewatering apparatus according to an embodiment of the present invention, Figure 2 is a partial enlarged view of a screw device formed with a shear bar of the configuration of Figure 1, Figure 3 is a shear panel formed with holes 4 is a partially enlarged view of a screw device made of a screw, and FIG.

Referring to Figure 1, the sludge dewatering apparatus according to an embodiment of the present invention is a screw screw for transporting and dehydrating the case 10, the sludge (sludge) is provided in the case 10 and introduced into the case 10, compressed (22) and a screen (30) for filtering and draining the dehydration liquid dewatered from the sludge.

An inlet 11 through which sludge flows is provided at one end of the case 10, and an outlet 12 at which the dewatered sludge is discharged is provided at the other end.

The inlet 11 may be provided at the upper portion of the case 10 so that the introduced sludge naturally descends into the case 10 by gravity.

Here, the sludge may be raw sludge or sewage or wastewater containing organic matter in which microorganisms such as domestic sewage and livestock wastewater are precipitated.

The sludge introduced into the inlet 11 of the dewatering device goes down to the dewatering area where dehydration is made by the screw device 20, and the sludge which has been dewatered by the screw device 20 is in a cake state and is discharged to the outlet 12. To be discharged.

The outlet of the dewatering device 12 may be configured to narrow the diameter toward the outlet side so that the sludge discharged can be compressed once again in the discharge step.

In addition, although not shown in the figure, a pressure control door may be installed in the outlet 12 to adjust the discharge pressure of the sludge. When the pressure control door closes the outlet 12 with a constant force by, for example, the spring's elastic force, and the pressure inside the case 10 rises to the extent that the spring's elastic force is overcome by the rotation of the screw device 20. The pressure control door is installed in such a way that the sludge cake is discharged in a batch manner.

On the other hand, the dehydration liquid discharged from the sludge is filtered and collected through the screen 30 is discharged through the dehydration liquid outlet 13 provided in the lower portion of the case (10).

The screen 30 is provided in a cylindrical shape surrounding the screw device 20 to filter the dehydration liquid discharged from the sludge by the operation of the screw device 20. To this end, the screen 30 is provided with a porous material, and is installed to be detachable for maintenance.

In the present embodiment, the screen 30 is installed over the entire area of the dewatering area in which the screw device 20 is installed. However, in some embodiments, the dewatering area in which the sludge is discharged is provided. It may be installed only in the rear end region. The sludge dewatering is concentrated by compression of the screen 30 in the rear end region.

As described above, the conventional sludge dewatering is performed by the transfer of the sludge introduced into the case 10 and the rotational driving of the screw device 20.

However, the screw device 20 according to the present invention is provided with a shear force member 23 to generate a strong shear force to the sludge unlike the prior art can destroy the cell wall of the cells forming the sludge to discharge the water inside the cell.

Hereinafter, a dewatering device including a screw device 20 according to an embodiment of the present invention will be described in detail.

1 to 2, the screw device 20 according to an embodiment of the present invention is connected to the drive motor 40, the shaft 21 is provided to rotate and the outer periphery of the shaft 21 It includes a spiral screw 22 coupled to the shear force member 23 composed of a shear rod or shear panel coupled radially to the outer periphery of the shaft 21 to generate a shear force in the sludge. The shear rods or shear panels are attached to a plurality of spiral screws at regular intervals or shapes.

One end of the shaft 21 is connected to the drive motor 40, and the portion penetrating the case 10 is supported by the bearings 21a and 21b to be rotatable. The bearing is provided with a thrust bearing capable of firmly supporting axial forces.

On the outer periphery of the shaft 21, the blade of the spiral screw 22 is coupled by welding or the like in a spiral form. As the shaft 21 rotates, the spiral screw 22 rotates and simultaneously compresses the sludge in the direction of the outlet 12.

The spiral screw 22 may be provided in a smooth form or a curved wave form (not shown), as shown in FIG. 2, or may be provided in a double spiral form in which a spiral screw 22 blade and a wave shaped shear screw blade alternate. have.

3 is a partially enlarged view of a screw device in which a shear panel having a hole formed in a spiral screw of the present invention is fixed in the same direction as a shaft.

As shown in FIG. 3, the shear panel of the present invention is equipped with a shear panel 23a having a hole 50 formed between the spiral screw 22 and the spiral screw 22.

The porous shear panel 23a is mounted between the spiral screw 22 and the spiral screw 22 to increase the shear force applied to the sludge so that the sludge can be easily transported while destroying the cell membranes of the cells constituting the sludge. do. At this time, the sludge is transported by the spiral screw 22 to generate a shear force on the cells of the sludge by the rotational force of the shear panel 23a.

The number of holes 50 formed in the front panel 23a can be adjusted according to the user's needs, and the size of the holes can be adjusted according to the working environment and the water content of the sludge.

4 is a partially enlarged view of a screw device equipped with a shear screw as another embodiment of the present invention.

As shown in FIG. 4, the shear screw of the present invention comprises a shear screw 22a having a plurality of holes formed between the spiral screw 22 and the diagonal screw 22 to constitute a screw device. 22) serves to transport the sludge, the shear screw 22a is to give a shear force to the cells of the sludge by the rotating force to destroy the cell membrane.

The sludge is dehydrated by transferring the sludge by the shear screw 22a formed between the spiral screw 22 and the spiral screw while simultaneously giving shear force to the cells constituting the sludge to remove moisture to the moisture inside the cell. To make it even more efficient.

As described above, the sludge-forming cells have strong compressive force, but weak shear force. In the case of the shear screw 22a as in this embodiment, the shear force can be generated while compressing the sludge.

When dewatering the sludge using the screw device 20 of the present embodiment it can be seen that the water content can be lowered to 35 to 50%.

The lower the water content of the dewatered sludge, the lower the volume and weight of the dewatered sludge, thus reducing the cost of land treatment.

In addition, the cost is reduced to further dry the dewatered sludge, it is possible to reduce the amount of waste generated to prevent environmental pollution, it is also easy to recycle to building materials.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, And falls within the scope of the invention.

10 case 11 inlet
12: outlet 13: dehydration liquid outlet
20: screw device 21: shaft
22: spiral screw 22a: shear screw
23: shear bar 23a: shear panel
30: screen 40: drive motor
50: hole

Claims (5)

In the sludge dewatering screw device,
A shaft connected to the driving motor to rotate;
A spiral screw helically attached to an outer circumference of the shaft and simultaneously compressing the screw while moving the sludge in one direction; And
Sludge is coupled to the outer periphery of the shaft to rotate together with the rotation of the shaft to induce shear force generation in the sludge to destroy the cell membrane, sludge transported by installing a shear panel formed with a hole in the shaft between the spiral screw and the spiral screw Sludge dewatering screw device, characterized in that consisting of a plurality of shear force members to give a shear force to.
The method of claim 1,
The shear force member is a sludge dewatering screw device, characterized in that the rod of the rectangular cross section or triangular cross section is radially attached to give the sludge a shear force.
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