JP2017176903A - Sewage sludge treatment system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a sewage sludge treatment system capable of adding a coagulant to concentrated sludge with a simple constitution.SOLUTION: A sewage sludge treatment system 10 according to the present invention comprises: a concentrator 20 having a cylindrical screen body 22 and rotating around a horizontal axis to supply sludge from a supply port 24 at one end and to solid-liquid separate the sludge and discharge concentrated sludge 12 from a discharge port 26 at the other end; and a dehydrator 60 for dehydrating the concentrated sludge 12. In the sewage sludge treatment system 10, the concentrator 20 is provided with coagulant adding means 50 on the discharge port 26 side in the screen body 22.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a sewage sludge treatment system for concentrating and dewatering sewage sludge.

Since the sewage sludge generated in the sewage treatment facility has a large amount of water, it is concentrated and dehydrated before being finally incinerated.
The concentration treatment is a step of concentrating sewage sludge to a constant concentration, and is generally performed using a centrifugal concentration device or a rotary drum type concentration device.
The dewatering process is a step of dewatering the concentrated sludge to a certain moisture or less. Generally, after adding a flocculant to the concentrated sludge, vacuum dehydration, a centrifugal dehydrator, a belt press dehydrator or the like is used.

A conventional belt press type dehydrator is equipped with a sludge coagulation tank that mixes and stirs concentrated sludge and a flocculant in the previous stage, sandwiches the concentrated sludge between two upper and lower filter cloths, and presses and dehydrates them with a roller ( For example, it is disclosed in Patent Document 1.
Further, in the sludge dewatering system disclosed in Patent Document 2, after adding a flocculant during the concentration process by the concentration device, the sludge dewatering system is moved in a direction crossing the conveyor conveyance direction by a moving mechanism. As a result, the concentrated sludge and the flocculant can be mixed and consolidated during movement. Then, pressure dehydration is performed by a belt press type dehydrator at the subsequent stage.

JP-A-64-43319 International Publication No. 2014/084322

However, the conventional belt press type dehydrator has to be provided with a sludge flocculation tank for adding a flocculant to the concentrated sludge, and there is a problem that it is difficult to secure an installation space depending on the site.
In addition, a sludge treatment system provided with a moving mechanism for mixing concentrated sludge and a flocculant in a concentrator has a special and complicated apparatus configuration, which requires equipment costs, and may require maintenance.

  An object of the present invention is to provide a sewage sludge treatment system in which a flocculant can be added to concentrated sludge with a simple configuration in view of the above-described problems of the prior art.

As a first means for solving the above-mentioned problem, the present invention has a cylindrical screen body, rotates around a horizontal axis, supplies sludge from one supply port, and separates into solid and liquid to separate the other end. In a sewage sludge treatment system comprising a concentrator for discharging concentrated sludge from a discharge port and a dehydrator for dewatering the concentrated sludge, the concentrator is provided with a flocculant addition means on the discharge port side in the screen body. An object of the present invention is to provide a sewage sludge treatment system characterized by that.
According to the first means, since the flocculant can be added to the concentrated sludge in the concentrator, the sludge flocculation tank for separately mixing the concentrated sludge and the flocculant between the concentrator and the dehydrator, A device with an agent supply function is no longer necessary, saving space for equipment and reducing equipment costs. Further, the flocculant can be added directly to the concentrated sludge, and the supply amount can be easily managed.

As a second means for solving the above-mentioned problems, the present invention is the first means, wherein the flocculant addition means disperses the flocculant in the concentrated sludge that rolls around the horizontal axis in the screen body. It is to provide a sewage sludge treatment system characterized by being added.
According to the second means, the concentrated sludge and the flocculant can be efficiently mixed while stirring in the screen body rotating around the horizontal axis.

As a third means for solving the above-mentioned problem, in the present invention, in the second means, the flocculant adding means includes a plurality of flocculant injection nozzles formed along the rotation axis direction of the screen body. It is providing the sewage sludge processing system characterized by this.
According to the third means, the flocculant can be efficiently supplied to the concentrated sludge extending along the horizontal axis direction of the screen main body and stirred and mixed.

As a fourth means for solving the above-mentioned problem, the present invention provides the sewage sludge treatment system according to the second means, wherein the flocculant addition means includes a spray nozzle for spraying the flocculant. Is to provide.
According to the fourth means, the flocculant can be efficiently supplied to the concentrated sludge extending along the horizontal axis direction of the screen main body and stirred and mixed.

In order to solve the above-mentioned problem, as a fifth means, the present invention provides the method according to any one of the first to fourth means, wherein the concentrator sprays cleaning water from above along the longitudinal direction of the screen body. It is an object of the present invention to provide a sewage sludge treatment system characterized in that the amount of cleaning water on the discharge port side is smaller than that on the supply port side of the screen body.
According to the fifth means, the flocculant is not diluted with the washing water of the concentrator, and an appropriate amount of flocculant without waste can be added to the concentrated sludge.

As a sixth means for solving the above-mentioned problems, in the present invention according to any one of the first to fourth means, the concentrator closes a screen hole on a peripheral surface of the screen body on the outlet side. An object of the present invention is to provide a sewage sludge treatment system characterized by having a blocking portion.
According to the sixth means, the flocculant is not diluted with the washing water of the concentrator, and an appropriate amount of flocculant without waste can be added to the concentrated sludge.

  According to the present invention having the above-described configuration, the flocculant is added to the concentrated sludge with a simple configuration in which the flocculant addition means is attached to the discharge port side in the concentrator, and the concentrated sludge and the flocculant are rotated by rotating the screen body around the horizontal axis Can be mixed and stirred. For this reason, the facility cost can be reduced. It can also be easily attached to existing concentrators.

It is explanatory drawing which shows the structure outline of the sewage sludge processing system of this invention. It is explanatory drawing 1 of a flocculant addition means. It is explanatory drawing 2 of a flocculant addition means. It is a graph which shows the relationship between a dehydration sludge moisture content and a flocculant addition position. It is explanatory drawing of a washing | cleaning means. It is explanatory drawing of a obstruction | occlusion part.

  Embodiments of the sewage sludge treatment system of the present invention will be described below in detail with reference to the accompanying drawings.

[Sewage sludge treatment system 10]
FIG. 1 is an explanatory diagram showing a schematic configuration of a sewage sludge treatment system of the present invention. As shown in the figure, the sewage sludge treatment system 10 of the present invention has a concentrator 20, a flocculant addition means 50, and a dehydrator 60 as a basic configuration.

  The concentrator 20 has a cylindrical screen body 22. The screen body 22 is formed in a cylindrical shape using a metal wedge wire, punching metal, or the like, and is rotated around a horizontal axis by a drive unit (not shown). One end opening of the screen body 22 serves as a sewage sludge supply port 24, and the other end opening serves as a discharge port 26 for the concentrated sludge 12, so that solids and water contained in the sewage sludge moving along the longitudinal direction of the screen body 22 can be removed. Solid-liquid separation.

A sludge supply unit 28 extending toward the discharge port along the horizontal axis direction is attached to the supply port 24 side. The sludge supply unit 28 is a supply pipe for sewage sludge generated from a settling pond of a water treatment facility.
A discharge chute (not shown) is attached to the discharge port 26 side. The discharge chute discharges the concentrated sludge 12 to the subsequent dehydrator 60.

  A sludge transfer spiral 30 is attached to the inner peripheral surface of the screen body 22 along the axial direction. The sludge transfer spiral 30 is formed in a spiral shape opposite to the rotation direction of the screen body 22, and rotates in a direction to push back the sewage sludge moving through the screen body 22, thereby extending the processing time required for concentration. be able to.

  The cleaning means 40 is a cleaning water supply pipe that is attached along the axial direction above the screen main body 22, and has a plurality of cleaning nozzles 42 that spray the cleaning water toward the lower screen main body 22.

  FIG. 2 is an explanatory diagram 1 of the flocculant addition means. The flocculant addition means 50 is a supply pipe for adding the flocculant to the concentrated sludge 12 on the discharge port 26 side in the concentrator 20. As the flocculant of this embodiment, a general inorganic flocculant prepared by adjusting aluminum sulfate, polyaluminum chloride or the like to a liquid having a predetermined concentration is used. The flocculant addition means 50 of this embodiment has a basic configuration of a flocculant storage tank 52, a supply pipe 54, and an injection nozzle 56. One end of the flocculant supply pipe 54 is connected to a flocculant storage tank 52 installed outside the concentrator 20, and the other end extends from the discharge port 26 side of the screen body 22 to the supply port 24 side along the horizontal axis direction. The spray nozzle 56 is provided on the front end side.

  FIG. 4 is a graph showing the relationship between the water content of dewatered sludge and the position of adding the flocculant. The horizontal axis of the graph shows the flocculant addition position (%), the vertical axis shows the water content of dehydrated sludge (%), the square plot is multiple points, in other words, multiple injections along the axial direction of the screen body, rhombus plot Indicates single injection. Here, the flocculant addition position (%) is the position where the nozzle of the flocculant addition means 50 is attached when one end on the supply port side of the screen body 22 is 0% and the other end on the discharge port side is 100%. It is expressed as a percentage. As shown in the graph, the water content of dehydrated sludge is lower in the case of multiple point injection than in the case of single point injection. And the closer to the outlet 26 side of the screen body 22, the lower the concentrated sludge moisture content.

  Therefore, the injection nozzle 56 of the present embodiment is attached so as to inject toward the lower concentrated sludge 12 along the longitudinal direction of the supply pipe 54 at regular intervals (as an example, 5 mm intervals) from the end of the supply pipe 54. . Further, the spray nozzle 56 is attached to the discharge port 26 side of the screen body 22, in other words, from the middle position in the longitudinal direction of the screen body 22 to the discharge port 26 side.

  According to the flocculant addition means 50 having such a configuration, the flocculant can be dispersed and added to the concentrated sludge 12 that rolls around the horizontal axis in the screen body 22 and extends along the horizontal axis direction. The moisture content of the dewatered sludge of the concentrated sludge 12 in the subsequent dehydrator 60 can be reduced.

FIG. 3 is an explanatory diagram 2 of the flocculant addition means. The flocculant addition means 50 shown in the figure includes a spray nozzle 58 for spraying (misting) the flocculant on the other end side of the supply pipe 54.
Also with the flocculant addition means 50 having such a configuration, it is possible to disperse and add the misted flocculant to the concentrated sludge 12 that rolls around the horizontal axis in the screen body 22 and extends along the horizontal axis direction. it can.

  The dehydrator 60 is a device that dehydrates the concentrated sludge 12 to a certain moisture or less, and in this embodiment, a belt press type dehydrator is used as an example. In the dehydrator 60, each of the upper filter cloth 62 and the lower filter cloth 64 is run by a separate roller 66, and a plurality of press rollers 68 that apply pressure to the concentrated sludge 12 are disposed between the upper filter cloth 62 and the lower filter cloth 64. doing. A scraper 69 for removing sludge adhering to the filter cloth is attached to the discharge port side of the upper filter cloth 62 and the lower filter cloth 64.

[Action]
The operation of the sewage sludge treatment system of the present invention having the above configuration will be described below.

  When the sewage sludge generated in the water treatment facility is supplied from the sludge supply unit 28 to the supply port 24 of the screen body 22, the solids and water are solidified when moving toward the discharge port 26 as the screen body 22 rotates. Liquid separation is performed. The solid matter remains on the screen main body 22, and the filtered water is discharged to the outside of the screen main body 22. The sludge transfer spiral 30 attached to the inner peripheral surface of the screen body 22 rotates the sewage sludge moving from the supply port 24 to the discharge port 26 in the direction to push it back to the supply port 24 side, thereby increasing the processing time required for concentration. Yes.

  The flocculant is added to the concentrated sludge 12 in the screen body 22 from the flocculant addition means 50 provided on the outlet 26 side of the concentrator 20. The flocculant rolls around the horizontal axis in the screen main body 22 and is added to the concentrated sludge 12 extending along the horizontal axis direction by being dispersed from the spray nozzle 56 and the spray nozzle 58. For this reason, the flocculant can be supplied efficiently and agitation and mixing can be performed using the rotation of the screen body 22 around the horizontal axis.

Then, the concentrated sludge 12 having a constant concentration is discharged from the discharge port 26 to the subsequent dehydrator 60 through the discharge chute. The concentrated sludge 12 is dehydrated by being pressed by the press roller 68 while being sandwiched between the upper filter cloth 62 and the lower filter cloth 64 moving between the separation rollers 66 of the dehydrator 60. And the sludge below a fixed water | moisture content is discharged | emitted from the discharge port side of the upper filter cloth 62 and the lower filter cloth 64. FIG.
According to such a sewage sludge treatment system of the present invention, the flocculant is added to the concentrated sludge with a simple configuration in which the flocculant addition means is attached to the discharge port side in the concentrator, and the screen body rotates by rotating around the horizontal axis. Concentrated sludge and flocculant can be mixed and stirred.

[Modification 1]
In the sewage sludge treatment system according to the first modification, the amount of cleaning water on the discharge port 26 side is smaller than that on the supply port 24 side of the screen body 22.
The cleaning means 40 shown in FIG. 5 has a smaller cleaning nozzle diameter on the discharge port 26 side than on the supply port 24 side of the screen body 22. The cleaning means 40 on the discharge port 26 side of the screen main body 22 in this embodiment refers to the cleaning means 40 provided between the half of the screen main body 22 in the longitudinal direction and the discharge port 26. Such a cleaning means 40 has a configuration in which only the diameter of the first cleaning nozzle 42 is reduced from the end on the discharge port 26 side toward the supply port 24 side, and also from the supply port 24 side toward the discharge port 26. A configuration in which the hole diameter of the cleaning nozzle 42 is reduced stepwise can be employed.

  Since the amount of water on the discharge port 26 side of the screen body 22 is less than the supply port 24 side of the screen body 22 by such cleaning means 40, the cleaning water sprayed to the discharge port 26 side of the screen body 22 enters the screen body 22. The concentrated sludge 12 and the flocculant are not diluted. For this reason, it is possible to prevent the concentrated sludge concentration from being lowered by the washing water and to discharge the concentrated sludge 12 having a constant concentration. In addition, an appropriate amount of flocculant can be added to the concentrated sludge 12.

[Modification 2]
The sewage sludge treatment system of Modification 2 is provided with a closing portion 70 that closes a part of the screen hole provided in the screen body.
FIG. 6 is an explanatory diagram of the blocking portion. As illustrated, the closing portion 70 is a cover that covers the outer peripheral surface of the screen body 22 on the discharge port side. The blocking part 70 may be any as long as it can block a part of the screen hole provided on the peripheral surface of the screen body 22. The blocking portion 70 is formed between the flocculant adding means 50 and the cleaning means 40.

  Such a blocking portion 70 prevents the cleaning water from the cleaning means 40 provided on the outlet side of the screen main body 22 from entering the screen main body 22 in the concentration process of the concentrator 20, so that the concentrated sludge and The flocculant is not diluted. For this reason, it is possible to prevent the concentrated sludge concentration from being lowered by the washing water and to discharge the concentrated sludge 12 having a constant concentration. In addition, an appropriate amount of flocculant can be added to the concentrated sludge 12.

  The sewage sludge treatment system of the present invention can realize the addition of the flocculant of concentrated sludge at a low cost. Therefore, it becomes useful and effective as a system for treating sewage sludge in various fields such as chemical treatment and water treatment. Therefore, industrial applicability is high.

10 ......... Sewage sludge treatment system, 12 ......... Concentrated sludge, 20 ......... Concentrator, 22 ......... Screen body, 24 ......... Supply port, 26 ......... Discharge port, 28 ......... Sludge supply 30 ......... Sludge transfer spiral, 40 ......... Cleaning means, 42 ......... Cleaning nozzle, 50 ......... Flocculant addition means, 52 ......... Flocculant storage tank, 54 ......... Supply pipe, 56 ......... Injection nozzle, 58 ... Spray nozzle, 60 ...... Dehydrator, 62 ......... Upper filter cloth, 64 ...... Lower filter cloth, 66 ......... Separate roller, 68 ......... Press roller, 69... Scraper, 70.

Claims (6)

A concentrator that has a cylindrical screen body, rotates around a horizontal axis, supplies sludge from one supply port, separates it into solid and liquid, and discharges the concentrated sludge from the other discharge port, and the concentrated sludge In a sewage sludge treatment system equipped with a dehydrator for dehydration,
The sewage sludge treatment system, wherein the concentrator is provided with a flocculant addition means on the discharge port side in the screen body.   The sewage sludge treatment system according to claim 1, wherein the flocculant addition means disperses and adds the flocculant to the concentrated sludge that rolls around the horizontal axis in the screen body.   The sewage sludge treatment system according to claim 2, wherein the flocculant adding means includes a plurality of the flocculant spray nozzles formed along a rotation axis direction of the screen body.   The sewage sludge treatment system according to claim 2, wherein the flocculant adding means includes a spray nozzle for spraying the flocculant. The concentrator comprises a cleaning means for spraying cleaning water from above along the longitudinal direction of the screen body,
The sewage sludge treatment system according to any one of claims 1 to 4, wherein the cleaning means has a smaller amount of cleaning water on the discharge port side than on the supply port side of the screen body.   The sewage sludge treatment system according to any one of claims 1 to 4, wherein the concentrator includes a closing portion that closes a screen hole on a peripheral surface of the screen main body on a discharge port side.