JPH10272500A - Sludge desalting device and method therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a sludge dehydrating device capable of controlling the moisture content of dehydrated cake to a specified value or below and discharging the dehydrated cake stabilized in the quality of the moisture content and a method therefor. SOLUTION: This sludge dehydrating device is provided with sludge compression chambers A and B variable in volume between a pressurizing piston 11 in a pressure cylinder 3 and end disks 12, 13 at both ends. Risers 23, 33 connected to apertures 15, 16 formed at these end disks 12, 13 at both ends are respectively provided with dehydrated cake discharge valves 22, 22. Further, the device is provided with a volume sensor 30 for detecting the volume of the sludge compression chambers A and B and is provided with a computer 25 for comparing the moisture content computed from the volume value and the supply rate of the sludge with the liquid threshold value C of the dehydrated cake previously stored therein. The device is provided with an actuator 28 which opens the dehydrated cake discharge valve 22 in accordance with the result of the moisture content of the dehydrated cake compared by this computer 25.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sludge dewatering apparatus and a dewatering method, and more particularly to a positive displacement dewatering apparatus and a dewatering method for sludge generated in the treatment of water containing organic matter.

[0002]

2. Description of the Related Art FIG. 4 shows a conventional positive displacement dewatering apparatus for sludge. The positive displacement dewatering apparatus for sludge shown in FIG. 4 is disclosed in Japanese Patent Application Laid-Open No. 8-57691.

[0003] A dehydrating apparatus 51 shown in FIG. 4 comprises a container 53 for a polymer solution and a mixer 54 for preparing a condensing aid comprising a mixer 54 for forming a mixture from the polymer solution and water.
2, a container 56 for storing a polymer use solution provided with a circulation pump 55, a metering pump 57 for pumping the polymer use solution from the container, a sludge pump 59 for extracting sludge from a raw sludge storage tank 58, A dewatering device 60 for dewatering sludge sent by a sludge pump to produce filter cake intermittently, and a conveyor screw 62 for transporting filter cake sent from the dewatering device to an external container 61 are provided.

[0004] The dehydrator 60 has a pressure responsive device 63,
The pressure responsive device is provided with a pressurizing piston 64, and telescope tubes 65, 65 are provided in both the A side and the B side in the pressurizing piston. A switchable valve 66 is provided between the pressurizing piston 64 and the sludge pump 59 for feeding into any of B. The pressure piston 64 is mounted on a filter candle 67, which is distributed over the cross section of the pressure-sensitive device 63. The filter candle 67 extends through the end disc of the pressure responsive device 63 and opens into the filtrate collecting chamber 69,
The filtrate is continuously withdrawn from the filtrate collecting chamber 69.

A pressure piston 64 movably mounted in the pressure responsive device 63 forms a hermetically sealed partition between variable chamber volumes, which are alternately introduced in both chamber volumes. The raw sludge is dewatered. The filtrate flows through the filter candle 67 to the filtrate collecting chamber 69, while the formed cake is sent from the discharge valves 70, 71 into the conveyor screw 74 via the rising pipes 72, 73. Be sent out.

[0006]

However, the conventional dewatering device 60 has a pressurizing piston that moves raw sludge fed into a fixed volume storage chamber provided on both sides of the pressurizing piston 64 between strokes of a predetermined distance. When the water content of the raw sludge fed into the dewatering device fluctuates, it is dewatered by the pressurized piston 64 and then carried out to the conveyor screw 62. The ratio also fluctuated, and there was a problem that filter cake having a constant moisture content could not be obtained.

An object of the present invention is to provide an apparatus and a method for compressing and dewatering sludge by the movement of a pressurizing piston in a dewatering apparatus at a constant stroke to produce a dewatered cake having a constant moisture content. is there.

[0008]

The object of the present invention is to provide a sludge pump for sucking and discharging sludge from a storage container, and a plurality of filtration units disposed between end disks disposed at both ends. A pressure cylinder having a pressurizing piston that is supported so as to be able to reciprocate between the end disks at the both ends through a tube for measurement, and a sludge supply amount provided between the pressure cylinder and the sludge pump is measured. A flow-through measuring device, a screw conveyor for carrying out a dewatered cake discharged from the pressure cylinder through a riser pipe connected to an opening formed in the pressure cylinder, and a dewatering solution passing through the filtration tube to the outside. A sludge dewatering device comprising a liquid collecting chamber to be discharged into the pressure cylinder, wherein a volume formed between the pressurizing piston reciprocating in the pressure cylinder and an end disc provided at the both ends is variable. Sludge compression chamber A And a volume sensor that detects the position of the pressurizing piston, and opens and closes the opening of the dewatered cake in the pressure cylinder with a rising pipe connected to the opening formed in the end discs at both ends. A dewatering cake discharge valve is provided, connected to the volume sensor, and stored in advance with the water content of a calculation based on the volume value V ₁ detected by the volume sensor and the integrated amount of supplied sludge Q measured by the flow-through measuring device. This problem can be solved by providing a computer that compares the liquid property limit value C of the dewatered cake with the liquid, and providing an operating device that opens and closes the dewatered cake discharge valve based on the result of the water content compared by the computer. .

In the dewatering apparatus having the above structure, the water content of the calculation result based on the volume of the sludge compression chamber which is variable in the pressure cylinder and the supplied amount of the supplied sludge is compared with the liquid property limit value of the dewatered cake. Therefore, the dewatering cake discharge valve was opened only when the water content was smaller than the liquid limit value,
A dehydrated cake having a water content of a certain value or less can be easily produced.

[0010] Another object of the present invention is to provide a sludge pump that sucks sludge from a storage container and sends the sludge to a pressure cylinder. The screw is compressed through a plurality of filtration tubes provided in the pressure cylinder, solid-liquid separated, and the dewatered sludge is screwed through a riser pipe connected to an opening of an end disk provided at an end of the pressure cylinder. In the method for dewatering sludge, wherein the sludge is discharged to a conveyor and the dewatered cake is carried out to the outside by the screw conveyor, the sludge variable in the pressure cylinder by a volume sensor for detecting the position of a pressure piston reciprocating in the pressure cylinder. Calculate the volume of the compression chamber, the water content calculated based on the calculated volume of the sludge compression chamber and the integrated amount of feed sludge measured by the once-through measuring device and the water content A liquid limit value C of the dewatered cake stored in advance in a computer connected to the product sensor is compared with the liquid limit value. When the water content is smaller than the liquid limit value, the riser pipe connected to the pressure cylinder is compared. This problem can be solved by opening the dewatering cake discharge valve of (1) and discharging the dewatered cake compressed in the pressure cylinder to the outside via the screw conveyor.

In the dewatering method having the above structure, the water content of the sludge compressed in the pressure cylinder is calculated, and the calculated value based on the calculation is compared with the liquid limit value of the dewatered cake to obtain the calculated value. Since the dewatered cake discharge valve is opened only when the water content is smaller than the liquid limit value, a dewatered cake having a water content of a certain value or less can be easily produced.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of a sludge dewatering apparatus and method according to the present invention will be described in detail with reference to FIGS. FIG. 1 is a schematic view showing a sludge dewatering apparatus of the present invention, FIG. 2 is a flowchart showing a main part of the method of the present invention, and FIG. 3 is a diagram showing a relationship between a piston position and a volume in a pressure cylinder.

As shown in FIG. 1, the dehydrating apparatus 1 of the present embodiment has a mud feed pump 2 that sucks sludge from a storage container 27 and supplies the sludge to a pressure cylinder, and has a movable piston inside. Pressure cylinder 3 for compressing sludge
And a screw conveyor 4 for automatically carrying out the sludge cake dewatered by the pressure cylinder to a dewatered cake hopper 5 provided outside. The mud pump 2 and the pressure cylinder 3 are connected by a supply pipe 7 which is branched into two at an intermediate switching filling valve 6. A metering detector 8 for the condensing aid and a flow rate measuring device 9 are provided between the switching filling valve 6 and the mud feed pump 2, and pressure pickups 10, 10 are provided before and after the flow measuring device. It is arranged.

End discs 12 and 13 are respectively provided at the movement limit positions at both ends of the piston 11 supported reciprocally in the pressure cylinder 3. Sludge compression chambers A and B having variable volumes are provided between both side surfaces. Further, a volume sensor 30 for detecting the position of a pressurizing piston that separates A and B of the sludge compression chamber is provided, and the volume of the sludge compression chamber to which the sludge is supplied is calculated by data obtained from the volume sensor. It is determined. A pressure sensor 29 is provided in each of the sludge compression chambers A and B.

The sludge compression chambers A and B have openings 1 at the end disks 12, 13 connected to the switching filling valve 6, respectively.
Telescopic pipes 19 and 20 are provided in the openings near the side surfaces of the piston 11 and have discharge ports 17 and 18 formed at the ends thereof. Further, a plurality of filtration tubes 14 for supporting the reciprocating movement of the piston 11 are provided between the disks 12 and 13 at both ends. The filtration tube has a function of liquid-solid separation of raw sludge supplied to the pressure cylinder 3. The separated liquid passes through a tube and is further provided in one end disc 13. The liquid is discharged to an external liquid receiver (not shown) through the collecting chamber 21.

Also, the disks 12 at both ends of the pressure cylinder 3,
13 is connected to a rising pipe 23 provided with a dewatering cake discharge valve 22 at an intermediate position. Since the end of the riser is connected to the screw conveyor 4, the dewatered cake is carried out of the dewatering device 1 by the screw conveyor,
The dewatered cake hopper 5 is discarded. The dewatering cake discharge valve 22 is connected to the pressure sensor 29 and a computer to be described later so as to be automatically opened according to the pressure value detected by the pressure sensor 29 provided in A and B of the sludge compression chamber.

The computer 25 is provided with a dewatering cake discharge valve 22.
The liquid limit value C of the dehydrated cake is input in advance to the storage unit of the computer 25. Accordingly, the computer 25 calculates the water content and the liquid limit obtained from the supply amounts of the sludge supplied into the sludge compression chambers A and B and the volume of the sludge compression chamber A or B detected by the volume sensor 30. When the water content of the sludge reaches or falls below the liquidity limit value C, a signal is sent to the operating device 28 of the dewatering cake discharge valve 22 to drive the drive motor in the operating device. To open the dewatering cake discharge valve 22.

The water content can be determined, for example, as follows. Each volume of A and B of the sludge compression chamber is V ₁ , V ₂
Assuming that the position of the piston 11 after the time T of the pressure cylinder 3 is L ₁ and the position after the full stroke movement is L, the mutual relationship can be represented as shown in FIG. The density on the A side can be expressed as follows. V ₁ = V × L ₁ / L── (1) Further, assuming that the injection amount after T time is Q _T , the density on the A side can be expressed by the following equation (2). M _A = a × Q _T / V ₁ (2) The water content on the B side can be expressed as follows. _{V 2 = V-V 1 ──} (3) M B = M × V-V 1 / V = M × (1-V 1 / V) ── (4) Accordingly, in real time if calculated as described above The sludge concentration in the room A and the room B can be displayed.

The dehydrating apparatus 1 according to the present embodiment as described above.
Is controlled by the following operation control method based on the flowchart shown in FIG. Prior to the operation, the liquid limit value C and the supplied sludge solids concentration a are input to the storage unit. Next, when the operation is started and the supply of the sludge is started, the accumulation of the sludge supply amount is started. When the supply of the sludge to the sludge compression chamber ends, the integration of the supply amount ends and the switching filling valve 6 switches the supply direction. At this point, the total sludge concentration M is calculated. When the total sludge concentration M is smaller than the liquid limit value C, an open command is issued to the dewatering cake discharge valve 22 to operate the dewatering cake discharge valve.

When the total sludge concentration M is larger than the liquid limit value C, the supply of the sludge is restarted, and the calculation of the position of the pressurizing piston 11 is started to change the calculation data V. Then, when the total sludge concentration M becomes smaller than the liquid limit value C, the supply of sludge is stopped and an open command is issued to the dewatered cake discharge valve 22. More specifically, the pressurizing piston 11 is provided at the left end of the pressure cylinder 3 and the sludge is supplied from the sludge pump 2 to A of the sludge compression chamber, and at the same time, the measurement of the integrated sludge Q is started. The sludge is telescopic pipe 1 in the sludge compression chamber.
When the sludge is supplied from the vicinity of the pressurizing piston 11 and solid-liquid separated by 9, the solid content is captured on the surface of the filtration tube 14.

Further, as the solid content increases into the A chamber, the pressurizing piston 11 gradually moves to the right. When the pressurizing piston 11 reaches the right end of the pressure cylinder 3, the accumulation of the sludge integrated amount Q ends. At this time, the switching filling valve 6
Is switched, the sludge is supplied to B in the sludge compression chamber, the pressurizing piston 11 gradually moves to the left, and the measurement of the integrated amount of sludge Q is restarted. At this point, the total sludge concentration M in the pressure cylinder 11 can be expressed as follows. M = a × Q / V, where a: solid concentration of supplied sludge (kg / m ³ ), Q: integrated amount of supplied sludge (m ³ ) (measured in advance, input to arithmetic unit, or take in signal from measuring instrument Input), V: pressure cylinder volume (m ³ ).

The storage unit in the computer 25 stores a liquid limit value C (kg / m ³ ) of the dewatered cake in advance and compares it with the calculated total sludge concentration M. If the comparison result is C ≧ M, an open command is issued to the dewatering cake discharge valve 22,
Drain the dehydrated cake. If the comparison result is C <M, the dewatering cake discharge valve 22 is closed and locked, and an open command is issued to the dewatering cake discharge valve 22 from the volume (V ₁ ) at which the total sludge concentration M becomes equal to or less than the liquid limit value C. The piston position can be expressed by the following equation. Since C = Q × a / V ₁ , V ₁ = Q × a / C The piston position can be obtained by P = V ₁ / V = Q × a / C × V. However, Q: integrated amount of supplied sludge (m ³ ),
a: supply sludge solids concentration (kg / m ³ ), V: pressure cylinder volume (m ³ )

The sludge on the left side A of the pressurizing piston 11 receives pressure as the pressurizing piston 11 moves and dehydrates gradually. When the pressurized piston reaches the calculated position,
An open command is issued to the dewatering cake discharge valve 22. When the dewatering cake discharge valve is opened, the sludge compressed and dewatered is discharged through the screw conveyor 4 to the outside of the machine.

As described above, the dehydrating apparatus 1 of the present embodiment
Is provided with variable sludge compression chambers A and B formed between the pressurizing piston 11 reciprocating in the pressure cylinder 3 and the end disks 12 and 13 provided at both ends. A volume sensor 30 for detecting the position of the pressurizing piston 11 is provided, and a dewatered cake in the pressure cylinder 3 is connected to a rising pipe 23 connected to openings 15 and 16 formed in the end disks 12 and 13 at both ends. Is provided with a dewatering cake discharge valve 22 for opening and closing the openings 15 and 16, and is connected to the volume sensor 30, and the volume value V ₁ detected by the volume sensor and the integrated amount of supplied sludge measured by the flow-through measuring device 9. A computer 25 for comparing the water content of the calculation based on Q with the preliminarily stored liquid limit value C of the dewatered cake, and based on the result of the water content compared by the computer, the dewatered cake discharge valve 22 An actuator 28 for opening and closing a is provided.

Therefore, the water content of the sludge compressed in the pressure cylinder is measured and compared with the liquid limit value of the dewatered cake, and the dewatered cake discharge valve is activated only when the water content is smaller than the liquid limit value. Since the openings are opened, a dewatered cake having a water content of a certain value or less can be easily produced.

As described above, the dewatering method according to the present embodiment is characterized in that the volume of the sludge compression chamber is varied in the pressure cylinder by the volume sensor which detects the position of the pressure piston reciprocating in the pressure cylinder. Is calculated in advance, and is previously stored in a computer connected to the volume sensor and the water content calculated based on the calculated volume of the sludge compression chamber and the integrated amount of supplied sludge measured by the once-through measuring device. The dewatered cake is compared with a liquid limit value C, and when the water content is smaller than the liquid limit value, the dewatered cake discharge valve of the riser pipe connected to the pressure cylinder is operated to open, and the pressure is increased. In this method, the dewatered cake compressed in the cylinder is discharged to the outside via the screw conveyor.

Accordingly, the water content of the sludge compressed in the pressure cylinder is calculated, and the calculated value based on the calculation is compared with the liquid limit value of the dewatered cake. Since the dewatered cake discharge valve is opened only when the value is smaller than the value, a dewatered cake having a water content of a certain value or less can be easily produced.

[0028]

As described above, in the sludge dewatering apparatus of the present invention, the sludge compression chambers A and B having variable volumes formed between the pressurizing piston in the pressure cylinder and the end disks at both ends.
And a volume sensor for detecting the position of the pressurizing piston is provided, and a dewatering cake discharge valve is provided on each of the rising pipes connected to the openings formed in the end discs at both ends, and the volume sensor is connected to the volume sensor. And a computer for comparing a result calculated from the volume value V ₁ detected in step ₁ and the integrated amount of supplied sludge Q measured by the flow-through measuring device with a previously stored liquid limit value C of the dehydrated cake. And an actuating device for opening the dewatered cake discharge valve based on the result of the water content compared.

Accordingly, the water content of the sludge compressed in the pressure cylinder is calculated, and the calculation result is compared with the liquid limit value of the dewatered cake. Only when the water content is smaller than the liquid limit value, the dewatered cake discharge is performed. Since the valve is opened, it is possible to easily produce a dewatered cake having a water content of a certain value or less, so that the reliability can be improved by providing a dehydrated cake having stable quality. In addition, since the water content of the dewatered cake during dewatering is displayed on the display unit in real time, the dewatering state can be easily grasped, so that a quick response can be taken.

Further, in the sludge dewatering method of the present invention, the volume of the sludge compression chamber which is variable in the pressure cylinder is detected by a volume sensor for detecting the position of the pressurizing piston in the pressure cylinder, and the detected sludge compression is detected. Comparing the calculated value based on the volume of the chamber and the integrated amount of feed sludge measured by the flow-through measuring device and the liquid limit value C of the dewatered cake stored in advance in a computer connected to the volume sensor, When the calculated value is smaller than the liquidity limit value, the dewatered cake discharge valve provided on the riser is operated to open, and the dewatered cake compressed in the pressure cylinder is externally discharged through the screw conveyor. To discharge.

Therefore, the water content of the sludge compressed in the pressure cylinder is calculated, and the calculated value based on the calculation is compared with the liquid limit value of the dewatered cake. Since the dewatered cake discharge valve is opened only when the value is smaller than the value, a dewatered cake having a water content of a certain value or less can be easily produced, so that a dehydrated cake with stable quality can be provided, thereby Reliability can be improved.

[Brief description of the drawings]

FIG. 1 is a schematic view showing one embodiment of a sludge dewatering apparatus of the present invention.

FIG. 2 is a flowchart showing a main part of the method of the present invention.

FIG. 3 is a diagram illustrating a relationship between a piston position and a volume in a pressure cylinder.

FIG. 4 is a schematic diagram showing a conventional dehydrator.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Dehydrating device 2 Mud feed pump 3 Pressure cylinder 4 Screw conveyor 11 Pressurization piston 12, 13 End disk 14 Filtration tube 15, 16 Opening 22 Dehydration cake discharge valve 23 Ascending pipe 25 Computer 27 Storage vessel 28 Operating device 30 Volume sensor

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Mutsuo Nakajima 11-1 Haneda Asahimachi, Ota-ku, Tokyo Ebara Corporation (72) Inventor Teruaki Kitamura 11-1 Haneda Asahi-cho, Ota-ku, Tokyo EB Hara Factory

Claims (2)

[Claims] 1. A sludge pump (2) for sucking and discharging sludge from a storage container (27), and a plurality of filtration pumps disposed between end discs (12, 13) disposed at both ends. End disks (12, 13) at both ends through a tube (14)
A pressure cylinder (3) having a pressurizing piston (11) supported reciprocally between the pressure cylinder and the sludge feed pump (2) is provided between the pressure cylinder and the sludge pump (2) to measure a sludge supply amount. (9) and a screw conveyor for carrying out the dewatered cake discharged from the pressure cylinder (3) through a riser pipe (23) connected to the openings (15, 16) formed in the pressure cylinder (3). In the sludge dewatering device (1) comprising (4) and a liquid separating chamber (21) for discharging the dewatered liquid passing through the filtration tube (14) to the outside, in the pressure cylinder (3), The pressure piston (11) reciprocatingly moves and the end discs (12, 1) disposed at both ends.
3) Sludge compression chambers A and B having variable volumes formed between them and a volume sensor (30) for detecting the position of the pressurizing piston (11) are provided. 12 and 13), the opening (1)
A dewatering cake discharge valve (22, 22) for opening and closing a dewatering cake outlet in the pressure cylinder (3) is provided in a riser pipe (23, 23) connected to the pressure sensor (30). is, liquid limit value C of the dehydrated cake which is prestored water content by calculation based on the supplied sludge accumulated amount Q measured at volume value detected by said container product sensor V ₁ and the flow meter (9) A computer (25) for comparing the water content of the sludge with the computer, and an operating device (28) for opening and closing the dewatering cake discharge valve (22) based on the result of the water content compared by the computer. Dehydration equipment. 2. A mud feed pump (2) from a storage container (27).
The sludge is sucked out and sent out to the pressure cylinder (3), and the sludge is compressed by the action of the pressurizing piston (11) supported reciprocally in the pressure cylinder and provided in the pressure cylinder (3). The sludge that has been separated into solid and liquid by a filtration tube (14) and dehydrated is subjected to the pressure cylinder (3).
Is discharged to a screw conveyor (4) through a rising pipe (23) connected to an opening (15, 16) of an end disk (12, 13) provided at an end of the screw disk, and the dewatered cake is removed by the screw conveyor. In the method for dewatering sludge carried out, sludge variable in a pressure cylinder (3) by a volume sensor (30) for detecting a position of a pressure piston (11) reciprocating in the pressure cylinder (3). The volume of the compression chamber is calculated, and the water content is calculated based on the calculated volume of the sludge compression chamber and the integrated amount of supplied sludge measured by the flow-through measuring device (9), and is connected to the volume sensor (30). Computer (2
5) Liquidity limit value C of the dehydrated cake stored in advance in
When the calculated value is smaller than the liquid limit value, the dewatering cake discharge valve (22) of the riser pipe (23) connected to the pressure cylinder (3) is operated to open, A method for dewatering sludge, comprising discharging a dewatered cake compressed in a cylinder (3) to the outside via the screw conveyor (4).