KR20100059094A - An apparatus and method of dehydrate in concentration sludge - Google Patents

Abstract

PURPOSE: A dehydrating method of concentrated sludge and an apparatus thereof are provided to reduce percentage of the water content of the sludge through steps of the dehydration of the sludge, and to easily establish a dehydrator for concentrated sludge in a small/narrow space through reduction of a generation rate of the sludge. CONSTITUTION: A dehydrating method of concentrated sludge comprises the following steps; a discharging a concentrated sludge in which 2.0~6.0% of a solid material is contained to an outlet in which a polymer coagulant is put into together through a feeding line(20); mixing and coagulating the concentrated sludge and the polymer coagulant; dehydrating the sludge to be 88-90% of water content by a first extractor(30); discharging the sludge of 80~85% of the water content after the sludge exhausted from the first extractor; compressing the sludge; and separating the sludge on an upper and an bottom filter cloth belts.

Description

An Apparatus and Method of Dehydrate in Concentration sludge

The present invention effectively performs dehydration of sewage sludge, food wastewater sludge or sludge in slaughter / manure treatment plant and various industrial sludges containing a large amount of water, thereby lowering the water content and reducing the sludge accordingly, thereby reducing the treatment cost and drying the sludge. The present invention relates to a dewatering sludge dewatering method and apparatus for reducing the amount of dry heat during drying. In particular, a concentrated sludge is introduced into a sludge supply pump which is communicated with a motor, and is discharged into a supply pipe through a discharge port. A coagulant is introduced into the supply pipe together with the concentrated sludge, and a line mixer is installed inside the supply pipe so that the incoming concentrated sludge and the polymer coagulant are mixed and coagulated, and one end of the supply pipe communicates with the dehydrator. Of the stirrer inside the dehydrator And dehydration operation is performed so that the water content of the sludge is about 88-90% by the baffle plate, the drum screen made of the edge bar, etc., and the slant discharged from the dehydrator is inclined by the inclined screen chute at one end of the dehydrator. Dehydration proceeds through the screen network, and the second stage of the dehydrator is communicated to one end of the screen chute while the sludge having a water content of 80 to 85% is installed on the lower side of the secondary dehydrator. The upper filter cloth belt is discharged to the lower filter cloth belt to be conveyed, and the upper filter cloth belt is transferred to the upper side of the lower filter cloth belt to perform the crimping of the sludge introduced into the upper and lower filter cloth belts by a plurality of compression rollers. An upper filter cloth conveying roller is installed on the upper side of the last pressing roller among the pressing rollers. The lower filter cloth belt is provided with a driving roller to transfer the upper and lower filter cloth belts to separate and drive, respectively, and one side of the upper filter cloth conveying roller and the driving roller is provided with scrapers, respectively, to separate the sludge of the upper and lower filter cloth belts. By discharging to the sludge cake with water content of 72-78%, the dewatering of various industrial sludges can be carried out step by step effectively, further lowering the water content of sludge and reducing the sludge accordingly, thereby reducing the treatment cost and drying the sludge. It is possible to reduce the amount of drying heat, as well as to reduce the amount of sludge produced in the condensed sludge dehydrator in a narrow space, and to reduce the cost of sludge drying, while reducing the cost of sludge transportation Saving and exothermicity using the dehydrated sludge Relates to a dehydration method and apparatus of the thickened sludge can be recovered in a high energy.

In general, water treatment wastes that are inevitably generated in the activities and lives of industrial societies are discharged to the ocean, but due to the increased pollution of the oceans caused by the discharge of such water treatment wastes, As a result, ocean dumping of water treatment waste is prohibited.

Therefore, as the only treatment method of sludge having a high water content, incineration or the use of auxiliary fuel is very expensive, the treatment costs are very expensive, and serious problems such as air pollution, there is an ineffective disadvantage.

Although a drying method by heating has been proposed to treat sludge having such a high water content, due to the depleted energy raw material and the surging energy cost, there is a big problem that the water of the sludge cannot be properly removed. It was.

On the other hand, in recent years to improve the above disadvantages, by drying the sludge through a drying apparatus, a method of recycling the dried sludge as a fuel is known, but effective dewatering of the sludge containing a large amount of water, of course, When the sludge is dried, a large amount of fuel is required, and thus, there are many difficulties in adopting it.

The present invention has been made in order to improve the conventional problems as described above, the object is, the concentrated sludge flowing into the sludge supply pump to the motor is discharged to the supply pipe through the discharge port, wherein the polymer flocculant is injected into the discharge port And mixed and agglomerated by a line mixer installed inside the supply pipe, and one end of the supply pipe communicates with the primary dehydrator to perform dehydration so that the water content of the sludge is about 88-90%. An inclined screen chute is speeched at one end of the primary dehydrator to allow dewatering of the sludge discharged from the primary dehydrator, and a second dehydration operation of the sludge that is conveyed by a secondary dehydrator is communicated at one end of the screen chute. Lower filter cloth bell, which is installed at the lower side of the secondary dehydrator and transports sludge with water content of 80 ~ 85% While the upper filter cloth belt is conveyed to the upper side of the lower filter cloth belt, the upper filter cloth belt is conveyed by the plurality of compression rollers to press the sludge introduced into the upper and lower filter cloth belts, and the upper filter cloth feed roller and the driving roller On one side, a scraper is installed to separate the sludge of the upper and lower filter cloth belts so that it is discharged into the sludge cake with a water content of 72-78%, and the dehydration of various industrial sludges is carried out step by step, further lowering the water content of the sludge In this way, the sludge is reduced, thereby reducing the treatment cost and drying heat during sludge drying, and also reducing the amount of sludge to facilitate the installation of a concentrated sludge dehydration device in a narrow space. Reduce the cost of sludge drying and reduce the cost of sludge transportation It is to provide a dewatering method of concentrated sludge which can reduce and recover the calorific value with high energy using the dehydrated and dried sludge.

In addition, the present invention is to provide a concentrated sludge dewatering apparatus that can maximize the dewatering efficiency of the sludge by a relatively simple configuration.

The present invention as a technical means for achieving the above object, in the concentrated sludge dewatering method,

Concentrated sludge containing 2.0 ~ 6.0% of solids is introduced into the sludge supply pump being delivered to the motor and discharged into the supply pipe through the discharge port. At this time, the polymer flocculant is introduced into the discharge port and the concentrated sludge introduced into the supply pipe together with the concentrated sludge. Inflow step;

A line mixer is installed inside the supply pipe, and the concentrated sludge mixing step of allowing the introduced concentrated sludge and the polymer coagulant to be mixed and aggregated;

One end of the supply pipe is communicated with the primary dehydrator, and the dehydration operation is performed such that the water content of the sludge is about 88-90% by the rotation of the agitator inside the primary dehydrator, the baffle plate, and the drum screen made of the edge bar. Sludge primary dewatering step to be performed;

At one end of the primary dehydrator, the inclined screen chute is speeched so that the sludge discharged from the dehydrator is allowed to dehydrate through the screen network by its own weight, and at one end of the screen chute, the second dehydrator is communicated and conveyed to the second of the sludge. A sludge secondary dewatering step of discharging sludge having a water content of 80 to 85% to a lower filter cloth belt that is installed and transported under the secondary dehydrator while the secondary dehydration operation is performed;

The upper filter cloth belt is transported to the upper side of the lower filter cloth belt is carried out for the compression of the sludge introduced into the interior of the upper, lower filter cloth belt by a plurality of compression rollers sludge compression dewatering step to reach a water content of 72-78%; And

An upper filter cloth conveying roller is installed on an upper side of the last pressing roller among the plurality of pressing rollers, and a driving roller for transferring the lower filter cloth belt is installed on one side of the pressing roller to separate and drive the upper and lower filter cloth belts, respectively. One side of the upper filter cloth feed roller and the driving roller is provided with a scraper, the sludge separation step for separating the sludge of the upper and lower filter cloth belt; and by providing a dewatering method of the concentrated sludge.

In addition, the present invention in the dewatering device of the concentrated sludge,

A supply pipe is communicated to the discharge port of the sludge supply pump which is introduced to the motor and the concentrated sludge is introduced, and a line mixer is installed inside the supply pipe so that the concentrated sludge introduced by the polymer flocculant is mixed and aggregated. A primary dehydrator communicates with one end of the supply pipe, and a filtration drum screen is installed inside the primary dehydrator to perform the primary dewatering operation of the sludge, and an inclined screen at one end of the primary dehydrator. The chute is delivered so that the sludge discharged from the primary dehydrator proceeds through the screen net by its own weight, and the second side of the screen chute is installed to carry out the second dehydration operation of the sludge which is conveyed in communication. The lower filter cloth belt is installed at the lower side of the secondary dehydrator so that the lower filter cloth belt can be transferred. The sludge discharged from the lower opening and closing plate of the machine is transferred, and the upper filter cloth belt is installed on the upper side of the lower filter cloth belt so as to be transported. The sludge press for the inside of the roller is carried out, and the upper filter cloth feed roller is installed on the upper side of the last pressing roller of the plurality of pressing rollers, one side of the pressing roller is provided with a driving roller for transferring the lower filter cloth belt, respectively, The lower filter cloth belt is to be separated and driven, respectively, and one side of the upper filter cloth conveying roller and the driving roller is provided with a dewatering device for the concentrated sludge, characterized in that the scraper is installed to be installed to separate the sludge, respectively.

In addition, the present invention is characterized in that the primary dehydrator is installed in the filtration drum screen to be rotated and driven by the drive motor inside the cylindrical case, the sludge discharge port is installed on one side of the cylindrical case.

In addition, the secondary dehydrator, the dehydration transfer scraper which is rotated by the driving motor inside the cylindrical collection frame and the filter drum screen is installed outside, the opening and closing plate to discharge the sludge to the bottom of the cylindrical collection frame It is characterized by being installed.

In addition, a belt tension adjustment cylinder for adjusting the meandering of the upper filter cloth belt is installed on one side of the upper filter cloth conveying roller, to which the upper filter cloth belt is transferred, and a belt for adjusting the meandering of the lower filter cloth belt on one side of the lower filter cloth belt. Characterized in that the tension adjustment cylinder is installed.

According to the method and apparatus for dewatering sludge of the present invention, the dewatering of various industrial sludges or sewage sludges containing a large amount of water can be carried out step by step effectively, further lowering the water content of the sludge and reducing the sludge accordingly to reduce the treatment cost. Saving and drying heat during sludge drying, as well as reducing the amount of sludge produced, it is easy to install a concentrated sludge dehydrator in a narrow space, and reduce the energy cost of the sludge drying While reducing the transport cost of the sludge, it is possible to recover the calorific value with high energy using the dehydrated and dried sludge, there is an excellent effect that can maximize the dewatering efficiency of the sludge by a relatively simple configuration.

While the invention has been shown and described with respect to specific embodiments thereof, it will be appreciated that various changes and modifications can be made in the art without departing from the spirit or scope of the invention as set forth in the following claims. Those of ordinary skill will want to know easily.

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

1 is a schematic configuration diagram of a concentrated sludge dewatering apparatus according to the present invention, Figures 2 and 3 are views showing a primary dehydrator and a secondary dehydrator of the concentrated sludge dewatering apparatus according to the present invention, Figure 4 5 is a schematic configuration diagram of a filter cloth belt for compressing and dewatering the concentrated sludge of the present invention, and FIG. 6 is a plan configuration diagram of the concentrated sludge dewatering device of the present invention. The supply pipe 20 communicates with the discharge port 11 of the sludge supply pump 10 through which the condensed sludge is introduced to the motor 1, and a line mixer 21 is installed inside the supply pipe 20. In order to mix and aggregate the concentrated sludge introduced by the polymer flocculant, the primary dehydrator 30 is communicated with one end of the supply pipe 20, and the filtration drum is provided inside the primary dehydrator 30. Screen (31) A stirrer, and buffle plate is installed and performs the primary task of the dehydrated sludge.

At this time, the primary dehydrator 30 is installed in the cylindrical case 32, the filtration drum screen 31 made of the stirrer and the edge bar to be rotated to drive the drive motor 33, the cylindrical case 32 On one side of the sludge outlet 34 is installed.

In addition, the inclined screen chute 40 is spoken at one end of the primary dehydrator 30 so that the sludge discharged from the primary dehydrator 30 is dehydrated through the screen net 41 by its own weight. At one end of the screen chute 40, the secondary dehydrator 50 is installed to proceed with the secondary dewatering operation of the sludge conveyed in communication.

The secondary dehydrator 50 has a dewatering transfer scraper that is rotated by rotating with the driving motor 52 in the cylindrical water collecting frame 51 and a filter drum screen 53 is installed outside the cylindrical water collecting frame 51. The opening and closing plate 54 is installed to discharge the sludge downward.

Subsequently, a lower filter cloth belt 70 is installed at the lower side of the secondary dehydrator 50 so that the lower filter cloth belt 70 can be transported to transfer sludge discharged from the lower opening / closing plate 54 of the secondary dehydrator 50. The upper filter cloth belt 60 is installed on the upper side of the 70 so that the upper filter cloth belt 60 can be transported, and the upper and lower filter cloth belts 60 and 70 are struck with a plurality of pressing rollers 80 and the upper and lower filter cloth belts 60 Sludge crimping in the interior of the 70), and the upper filter cloth conveying roller 90 is installed on the upper side of the last pressing roller of the plurality of pressing rollers 80, the lower filter cloth belt on one side of the pressing roller Drive rollers 100 to be transported to each other are installed to drive the upper and lower filter cloth belts 60 and 70 separately, and the scraper 110 on one side of the upper filter cloth feed roller 90 and the driving roller 100. Are installed to separate the sludge All.

At this time, one side of the upper filter cloth conveying roller 90 to which the upper filter cloth belt 60 is conveyed, a belt tension control cylinder 120 for adjusting the meandering of the upper filter cloth belt 60 is installed, the lower filter cloth belt 70 One side of the) is made of a configuration that the belt tension adjustment cylinder 130 for adjusting the meandering of the lower filter cloth belt 70 is installed.

When explaining the embodiment of the present invention having such a configuration in detail as follows.

1 to 6, concentrated sludge containing 2.0 to 6.0% of solids is introduced into the sludge supply pump 10 which is communicated with the motor 1 to supply the supply pipe 20 through the discharge port 11. In this case, a polymer flocculant is introduced into the discharge port 11 to flow into the supply pipe 20 together with the concentrated sludge.

In addition, a line mixer 21 is installed inside the supply pipe 20 so that the concentrated sludge and the polymer coagulant introduced therein are mixed and aggregated, and one end of the supply pipe 20 is the primary dehydrator 30. It is communicated with, the dehydration operation is performed so that the water content of the sludge is about 88-90% by the rotation of the stirrer installed in the primary dehydrator 30, the baffle plate, the drum screen produced by the edge bar.

Meanwhile, as shown in FIG. 4, the inclined screen chute 40 is speeched at one end of the primary dehydrator 30 so that sludge discharged from the primary dehydrator 30 is carried out through the screen net 41 by its own weight. The dehydration proceeds, and the secondary dehydrator 50 communicates with one end of the screen chute 40, and the dehydration transfer scraper inside the secondary dehydrator 50 is transferred to the outside through the filter drum screen 53. The secondary dewatering operation of the sludge is to be discharged through the opening and closing plate 54 of the water content of 80 to 85%.

Subsequently, as shown in FIG. 5, the lower filter cloth belt 70 is installed under the secondary dehydrator 50 so that the lower filter cloth belt 70 can be transferred to the lower side of the secondary dehydrator 50. The sludge discharged from the lower opening / closing plate 54 is transferred, and the upper filter cloth belt 60 is transferred to the upper side of the lower filter cloth belt 70, and the upper and lower filter cloth belts ( 60) (70) is carried out by pressing the sludge introduced into the sludge to remove the water in the sludge to remove the sludge in the cake state of the water content of 72-78% of the upper and lower filter cloth belt (60) (70) Stick to it.

In addition, the upper filter cloth feed roller 90 is installed on the upper side of the last pressing roller 80 of the plurality of pressing rollers 80, the lower filter cloth belt 70 is transferred to one side of the pressing roller 80, respectively The driving roller 100 is installed to drive the upper and lower filter cloth belts 60 and 70 separately, and the scraper 110 is provided at one side of the upper filter cloth feed roller 90 and the driving roller 100, respectively. Installed, the dewatered sludge of the cake state attached to the upper and lower filter cloth belt (60) 70 is completed automatically, easily and easily to discharge the sludge cake with a water content of 72-78%.

1 is a schematic configuration diagram of a concentrated sludge dewatering apparatus according to the present invention.

Figure 2 is a schematic perspective view of the primary dehydrator of the concentrated sludge dewatering device according to the present invention.

Figure 3 is a schematic perspective view of the secondary dehydrator of the concentrated sludge dewatering device according to the present invention.

4 is a schematic configuration diagram of a screen chute addressed to a primary dehydrator of the present invention.

5 is a schematic configuration diagram of a filter cloth belt for compressing and dehydrating the concentrated sludge of the present invention.

Figure 6 is a plan view of the present invention concentrated sludge dewatering device.

Explanation of symbols on the main parts of the drawings

1 ... motor 10 ... sludge supply pump

11 Discharge outlet 20 Supply piping

21 ... Line Blender 30 ... Primary Dehydrator

31 filtration drum screen 32 case

33 Drive motor 34 Sludge outlet

40 ... screen chute 41 ... screen net

50 ... Secondary dehydrator 51 ... Catching frame

52 ... drive motor 53 ... filtration drum screen

54.Opening / closing plate 60 ... Top filter cloth belt

70 ... bottom filter cloth belt 80 ... press roller

90 ... Upper filter cloth feed roller 100 ... Drive roller

110 ... scraper 120,130 ... belt tensioning cylinder

Claims (5)

In the concentrated sludge dewatering method, Concentrated sludge containing 2.0 ~ 6.0% of solids is introduced into the sludge supply pump being delivered to the motor and discharged into the supply pipe through the discharge port. At this time, the polymer flocculant is introduced into the discharge port and the concentrated sludge introduced into the supply pipe together with the concentrated sludge. Inflow step; A line mixer is installed inside the supply pipe, and the concentrated sludge mixing step of allowing the introduced concentrated sludge and the polymer coagulant to be mixed and aggregated; One end of the supply pipe is in communication with the primary dehydrator, and the dehydration operation is performed so that the water content of the sludge is about 88-90% by the rotation of the agitator inside the primary dehydrator, the baffle plate, and the drum screen made of the edge bar. Sludge primary dewatering step to be performed; At one end of the primary dehydrator, the inclined screen chute is speeched so that the sludge discharged from the dehydrator is allowed to dehydrate through the screen network by its own weight, and at one end of the screen chute, the second dehydrator is communicated and conveyed to the second of the sludge. A sludge secondary dewatering step of discharging sludge having a water content of 80 to 85% to a lower filter cloth belt that is installed and transported under the secondary dehydrator while the secondary dehydration operation is performed; The upper filter cloth belt is transported to the upper side of the lower filter cloth belt is carried out for the compression of the sludge introduced into the interior of the upper, lower filter cloth belt by a plurality of compression rollers sludge compression dewatering step to reach a water content of 72-78%; And An upper filter cloth conveying roller is installed on an upper side of the last pressing roller among the plurality of pressing rollers, and a driving roller for transferring the lower filter cloth belt is installed on one side of the pressing roller to separate and drive the upper and lower filter cloth belts, respectively. One side of the upper filter cloth feed roller and the driving roller is provided with a scraper, the sludge separation step of separating the sludge of the upper and lower filter cloth belt; dewatering method of the concentrated sludge. In the dewatering device of the concentrated sludge, The supply pipe 20 communicates with the discharge port 11 of the sludge supply pump 10 through which the condensed sludge is introduced to the motor 1, and a line mixer 21 is installed inside the supply pipe 20. In order to mix and aggregate the concentrated sludge introduced by the polymer flocculant, the primary dehydrator 30 is communicated with one end of the supply pipe 20, and the filtration drum is provided inside the primary dehydrator 30. A screen 31 is installed to perform the first dehydration operation of the sludge, and an inclined screen chute 40 is speeched at one end of the primary dehydrator 30 to be discharged from the primary dehydrator 30. Dewatering the sludge proceeds through the screen net 41 by its own weight, one end of the screen chute 40 is installed to proceed to the secondary dehydration operation of the sludge conveyed by the secondary dehydrator 50 in communication, The lower side of the secondary dehydrator 50 The filter cloth belt 70 is installed to be transported to transport the sludge discharged from the lower opening and closing plate 54 of the secondary dehydrator 50, and the upper filter cloth belt 60 is transferred to the upper side of the lower filter cloth belt 70. It is installed to be possible, the upper and lower filter cloth belt (60) 70 is speeched with a plurality of compression rollers 80 to perform the sludge compression inside the upper, lower filter cloth belt (60, 70), The upper filter cloth conveying roller 90 is installed on the upper side of the last pressing roller among the plurality of pressing rollers 80, and one side of the pressing roller is provided with driving rollers 100 for feeding the lower filter cloth belt, respectively. Each of the filter cloth belts 60 and 70 is to be separated and driven, and one side of the upper filter cloth conveying roller 90 and the driving roller 100 is provided with a scraper 110 installed to separate the sludge. Characterized The axial sludge dewatering apparatus. According to claim 2, wherein the primary dehydrator (30) is installed inside the cylindrical case 32, the filtration drum screen 31 made of a rotation of the stirrer and the baffle plate, the edge bar is struck with the drive motor 33 And, one side of the cylindrical case 32, the sludge dewatering apparatus, characterized in that the sludge discharge port 34 is installed. According to claim 2, The secondary dehydrator 50, the dehydration transfer scraper which is rotated by rotating with the drive motor 52 in the cylindrical water collecting frame 51 and the filter drum screen 53 is installed outside thereof , The dewatering device of the concentrated sludge, characterized in that the opening and closing plate 54 is installed to discharge the sludge to the bottom of the cylindrical collecting frame (51). According to claim 2, One side of the upper filter cloth conveying roller 90, the upper filter cloth belt 60 is conveyed, Belt tension control cylinder 120 for adjusting the meandering of the upper filter cloth belt 60 is installed, the lower end One side of the filter cloth belt (70) is dewatering device of the concentrated sludge, which is provided with a belt tension control cylinder 130 for adjusting the meandering of the lower filter cloth belt (70).

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