KR101398693B1 - Concentrating and dewatering device for sludge - Google Patents

Abstract

The present invention relates to a device to concentrate and centrifugally dehydrate sludge. The device can obtain an optimal dehydration effect for the status of the sludge by considering the status of the sludge and controlling the size of the cross sectional area of a compressed path. The device comprises: a cylindrical bowl which rotates toward one direction; and a screw conveyor formed in order to wind a spiral blade on the outer circumference of a rotating copper which coaxially rotates in the bowl toward the same direction as the bowl at different rotating speeds from the bowl. The rotating copper of the screw conveyor comprises: a linear unit disposed on a top flow part having an outer circumference surface which has a uniform diameter; and a tilted unit disposed on a bottom flow part having an outer circumference surface which has a diameter gradually enlarging toward the end thereof, wherein the tilting angle of the tilted unit with respect to the central axis of the rotating copper is 31-45°. The device further comprises: a sludge and a coagulant supply pipe having an end part inside the linear unit of the rotating copper supplying sludge inside and a coagulant outside; a sludge and a coagulant supply chamber disposed on the end part of the sludge and coagulant supplying pipe in order to form a spatial part to first mix the sludge and the coagulant; a reversely tilted unit formed on the end of the bottom flow part of the bowl and has a reversely tilted surface having an inner circumference which gradually decreases; a ring-shaped pressurizing and supporting unit formed on the end of a bottom flow part of the rotating copper so as to form a tilted surface horizontal with respect to the reversely tilted surface on the outer circumference thereof; a drive means which operates the bowl and screw conveyor; a pressure detecting means equipped on the reversely tilted surface of the reversely tilted unit; and a control unit which controls the rotating speed of the drive means according to a pressure that is detected by means of the pressure detecting means.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sludge-

The present invention relates to a sludge thickened centrifugal dewatering apparatus capable of recovering solid matter and a separated liquid by solid-liquid separation of sludge generated in sewage treatment, industrial wastewater treatment or the like by centrifugal force.

In order to treat sludge containing a large amount of water in the past, a centrifugal dehydration apparatus using concentrated sludge has been frequently used in order to carry out solid-liquid separation by centrifugal force.

The decant type centrifugal dehydrator is a type of apparatus for classifying, filtering, dewatering, precipitating, and concentrating using centrifugal force. The sludge is supplied from a part of the inner cylinder, which is a rotating screw conveyor, And the solid matter in the sludge is accumulated on the inner wall of the outer cylinder by the centrifugal force and is collected in a certain direction by the screw on the inner cylinder surface and moved along the inner wall of the conical part of the outer cylinder to be further compressed and dehydrated and discharged continuously in the discharge hole Is used. Decant type sludge thickening centrifugal dehydrator is mainly used for massive continuous treatment of sludge with many solids.

An example of the decanter type sludge thickening centrifugal dewatering device is disclosed in Japanese Patent No. 4153138. Such prior art techniques are not suitable for operation without consideration of sludge condition, insufficient mixing of sludge and flocculant, It is difficult to obtain a cake in which optimum dehydration is actually performed due to the adoption of a constant-sized squeeze passage which does not change despite frequent changes in water content.

Japanese Patent No. 4153138

The present invention provides a sludge-concentrated centrifugal dewatering device capable of obtaining an optimal dewatering effect depending on a sludge state by adjusting a size of a cross-sectional area of a squeezing passage in consideration of the state of sludge The purpose is to do.

It is another object of the present invention to provide a sludge-concentrated centrifugal dewatering device capable of increasing the dewatering effect as well as miniaturization of the device by providing a structure capable of sufficiently mixing the sludge and the flocculant.

As a means for solving the above problems, the sludge thickening centrifugal dewatering apparatus of the present invention comprises:

A cylindrical bowl rotating in one direction and

And a screw conveyor in which a spiral blade is recommended on the outer periphery of a rotating shaft rotating in the same direction with a rotational speed difference coaxial with the bowl in the bowl;

The rotating copper of the screw conveyor,

A linear portion which is disposed on the upstream side and whose outer peripheral surface has a uniform diameter,

And the outer circumferential surface thereof is formed as an inclined portion whose diameter gradually increases toward the end,

The inclination angle of the inclined portion with respect to the rotational center axis is 31 to 45 degrees;

A sludge and an aggregating agent supply pipe for supplying sludge to the inside and supplying a flocculating agent to the outside,

A sludge and coagulant supply chamber located at an end of the sludge and coagulant supply pipe to form a space for primarily mixing the sludge and the coagulant,

An opposite-diametrically-facing portion formed at the downstream-side end of the bowl and having a reverse slope whose inner circumferential surface gradually decreases,

A ring-shaped pressing support portion formed at an end on the downstream side of the rotary motion and having an inclined surface portion on the outer periphery thereof in parallel with the reverse-

Driving means for driving the bowl and the screw conveyor,

A pressure detecting means provided on a reverse slope surface of the reverse-

And a control unit for controlling the rotational speed of the driving unit in accordance with the pressure detected by the pressure detecting unit.

Further, according to the present invention,

A cylindrical bowl rotating in one direction and

And a screw conveyor in which a spiral blade is recommended on the outer periphery of a rotating shaft rotating in the same direction with a rotational speed difference coaxial with the bowl in the bowl;

The rotating copper of the screw conveyor,

A linear portion which is disposed on the upstream side and whose outer peripheral surface has a uniform diameter,

And the outer circumferential surface thereof is formed as an inclined portion whose diameter gradually increases toward the end,

The inclination angle of the inclined portion with respect to the rotational center axis is 31 to 45 degrees;

A sludge and an aggregating agent supply pipe for supplying sludge to the inside and supplying a flocculating agent to the outside,

A sludge and coagulant supply chamber located at an end of the sludge and coagulant supply pipe to form a space for primarily mixing the sludge and the coagulant,

An opposite-diametrically-facing portion formed at the downstream-side end of the bowl and having a reverse slope whose inner circumferential surface gradually decreases,

A ring-shaped pressing support portion formed at an end on the downstream side of the rotary motion and having an inclined surface portion on the outer periphery thereof in parallel with the reverse-

Two or more plungers coupled to the rear surface of the inclined surface portion of the pressing support portion,

Two or more cylinders in which the plunger is accommodated, and

A hydraulic pressure supply means for supplying hydraulic pressure to the cylinder;

A pressure detecting means provided on a reverse slope surface of the reverse-

And a control unit for controlling the hydraulic pressure supply unit in accordance with the pressure detected by the pressure detection unit.

The ratio (L1 / L2) of the axial length (L1) of the linear portion from the rotation motive sludge supply port to the inclined portion starting point and the axial length (L2) of the rotary motion inclined portion is in the range of 1.2 to 5.0 .

Further, an inorganic coagulant supply path is provided for supplying an inorganic coagulant to the inner peripheral face of the straight portion of the rotation coin,

And the linear portion is provided with an orifice for adding an inorganic coagulant through the rotating copper and a nozzle for adding an inorganic coagulant to protrude into the annular space of the bowl.

Further, a stepped portion is formed in the middle of the inclined portion.

In addition, a circular plate having a plurality of through holes is further provided in an end portion of the hollow cylindrical sludge and coagulant mixer on the inner circumferential surface downstream side,

And the plurality of through holes are different in diameter along the radial direction.

The outer wall of the sludge and coagulant supply chamber may further include a plurality of sludge supply openings communicating with the annular space between the bowl and the rotary shaft,

The sludge supply port is provided with a rotation stirring means,

The rotation and stirring means of the sludge supply port,

A fixed shaft connecting the inner peripheral surface of the sludge supply port in the radial direction,

And a rotating body coupled to the fixed shaft and rotated only in one direction and having a plurality of blades.

In addition, a plurality of orifices and nozzles are provided in the rotary part of the linear part from the downstream side of the sludge and coagulant supply chamber to the inclined part,

And the orifice and the nozzle are formed to be inclined toward the downstream side.

Further, the spiral blade formed on the inclined portion of the rotational motion gradually increases in thickness toward the downstream side.

In addition, a casing in which the bowl is mounted,

A transparent window formed on the bowl where the inclined portion is located,

A light source provided outside the transparent window,

A light sensor installed in the transparent window for sensing light reflected from the inside of the bowl,

And a control unit for checking the sludge processing state by comparing the inputted reference sludge color value with the inputted sludge color value, and controlling the driving unit.

According to the present invention, the sludge concentration centrifugal dewatering apparatus of the present invention can obtain an optimum dewatering effect depending on the sludge state by adjusting the size of the cross-sectional area of the sludge in consideration of the state of the sludge, It is possible to increase the dehydrating effect as well as make it possible to miniaturize the device.

1 is a front sectional view of a sludge-concentrated centrifugal dewatering apparatus according to the present invention.
2 is an enlarged schematic cross-sectional view of the sludge-concentrated centrifugal dewatering device according to the present invention.
3 is an enlarged schematic cross-sectional view of the sludge-concentrated centrifugal dewatering device according to the present invention.
FIG. 4 is a block diagram schematically showing the coupling relationship of the control unit of the sludge-concentrated centrifugal dewatering apparatus according to the present invention.
5 is an enlarged schematic cross-sectional view of the sludge-concentrated centrifugal dewatering device according to the present invention.
6 is a cross-sectional view taken along the line XX in Fig.
7 is a sectional view taken along the line YY in Fig.
8 is a ZZ cross-sectional view in Fig.
9 is a view showing a sludge and a flocculant mixer of a sludge-concentrated centrifugal dewatering apparatus according to the present invention.
10 is a sectional view of the UU in Fig.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of a sludge-concentrated centrifugal dewatering device according to the present invention will be described in detail with reference to the drawings.

Fig. 1 shows a sludge thickened centrifugal dewatering device according to the present embodiment, and Fig. 2 is an enlarged schematic view of the recess. The sludge-thickening centrifugal dewatering device 1 of the present embodiment comprises a cylindrical bowl 2 and a screw conveyor 3 disposed in the bowl 2 and having a relative speed difference and rotating in the same direction, An intermediate shaft 4 protruding from both ends of the conveyor 3, a cake discharge chamber 5 provided at a downstream end of the screw conveyor 3, and a separation liquid discharge chamber 6 provided at an upstream end do. A bowl 2, a screw conveyor 3 mounted in the bowl 2, a cake discharge chamber 5, and a separation liquid discharge chamber 6 are accommodated in the casing 7.

The bowl (2) has a cylindrical shape, a cake discharge chamber wall (10) at a downstream end thereof, and an upstream end wall (9) of a bowl having a separation liquid discharge port (8) at an upstream end thereof. The separation liquid discharge port 8 has a configuration in which a plurality of small holes are concentrically provided on the upper end wall 9 of the bowl.

An intermediate shaft 4 on the upstream side protruding outward from a central portion of the bowl upstream end wall 9 is rotatably supported on a bearing B formed in the base frame 11, The intermediate shaft 4 on the downstream side protruding outward from the central portion of the shaft is also rotatably supported by the bearing B. A driven pulley 12 is provided on the outer periphery of the upstream intermediate shaft 4, and the bowl 2 is rotationally driven by being driven by a motor, which is a driving means (not shown). The end of the downstream intermediate shaft 4 is connected to the transmission 13 and the screw conveyor drive shaft 14 rotatably installed through the inside of the downstream intermediate shaft 4 is also connected to the transmission 13 And the rotational force of the intermediate shaft 4 is transmitted to the screw conveyor drive shaft 14 through the transmission 13 so that the transmission 13 is rotated by the screw conveyor 3, (2) in the same direction as that of the first motor (2).

The double sludge type sludge and the flocculant supply pipe 15 are provided to supply the sludge and the flocculant through the center of the intermediate shaft 4 on the upstream side to the inside of the rotary shaft 16 of the screw conveyor 3, The sludge is supplied and the flocculant is supplied to the outside.

The screw conveyor 3 provided in the bowl 2 is recommended to be a spiral blade 17 on the outer periphery of the rotary shaft 16 hollow inside and has a constant speed difference from the bowl 2 And is rotated in the same direction. As shown in Figs. 1 and 2, the rotary shaft 16 is composed of a cylindrical straight portion 18 and an inclined portion 19 on the outer circumferential surface.

2, the linear portion 18 extends from the upstream end of the rotary shaft 16 to the position of the distance L1 from the sludge supply port 21 to the start of the inclined portion 19 The inclined portion 19 is inclined toward the inner peripheral wall of the bowl 2 at a predetermined inclination angle? To the entrance of the cake discharge chamber wall 10 at the downstream end of the rotary shaft 16, L2).

The inclined portion 19 has an inclined structure in which the diameter of the rotating body 16 of the conventional linear structure is gradually increased toward the cake discharge chamber 5 so that the pressing force is increased as the sludge is fed in the cake discharge direction, So that the water content of the discharged cake is lowered.

In the present invention, the angle of inclination of the inclined portion 19 is set to 31 to 45 degrees to positively lower the moisture content of the discharge cake and prevent the conveyance failure of the dewatering cake.

Further, as shown in FIG. 3, by forming the inclined portion 19 in multiple stages, the effect of separating the sludge and moisture through the plurality of stepped portions S can be enhanced. In order to optimize the dewatering effect, the ratio of the distance L1 to the distance L2 from the sludge supply port 21 to the straight line portion of the rotary shaft 16 is L1 / L2 = 1.2 to 5 And more preferably L1 / L2 = 1.2 to 1.5.

An inclined surface portion 26 inclined from the above position toward the inside is formed at the downstream side end portion of the inclined portion 19 and between the opposite inclined surface portion 24 of the opposite side inclined portion 29 of the bowl 2 side Thereby forming a compression passage (25) serving as a discharge path of the cake. In the present invention, the pressing support portion 27 forming the inclined face portion 26 is formed by a ring-shaped member which is separate from the rotating copper 16.

4, a pressure detecting means PS is provided on the reverse slope surface 24 of the reverse reciprocating section 29 for detecting a pressure like a piezoelectric element, The rotational speed of the motor, which is not shown, is controlled according to the pressure detected by the pressure sensor.

Specifically, when the detected pressure is equal to or higher than the allowable value, the rotating speed of the motor as the driving means is lowered to prevent a problem from occurring in the apparatus due to excessive dewatering. When the detected pressure is below the allowable value, The rotational speed of the motor is increased so that sufficient condensation dewatering is performed.

5, two or more plungers 28 are provided on the rear surface of the inclined surface portion 26 of the pressing support portion 27, and the screw conveyor 3 is provided with two plungers 28 And moreover, the cylinder is provided with a hydraulic pressure supply means (OP) for supplying hydraulic pressure, and is controlled through a separate control unit. Accordingly, the desired optimum operating condition is maintained according to the sludge state by controlling the size of the squeezing passage 25 by moving the squeezing support portion 27 according to the sludge state (sludge type, viscosity, water content).

In the main feature of the present invention, a pressure detecting means (PS) capable of detecting a pressure like a piezoelectric element is embedded in the reverse slope surface (24) of the reverse reciprocating section (29) And controls the hydraulic pressure supply means OP in accordance with the pressure detected by the pressure detection means PS.

More specifically, when the pressure acting on the reverse slope surface 24 is equal to or larger than the allowable value, not only the rotational speed of the motor as the driving means is controlled but also the pressing support portion 27 is retracted from the reverse slope surface 24, When the pressure acting on the reverse slope surface 24 is lower than the permissible value and the sufficient dewatering can not be achieved, the compression support portion 27 is advanced so that the interval of the compression passage 25 So that the dehydration is sufficiently performed.

On the other hand, on the downstream side end of the inner peripheral surface of the bowl 2, an inverted oblique portion 29 on the side of the bowl 2 opposite to the inclined surface 26 on the side of the rotary 16 is mounted.

Although the reverse reciprocation portion 29 is formed separately from the bowl 2 in the embodiment of the present invention, it may be integrally formed with the bowl 2. A circular compression passage (25) is formed by the pressing support portion (27) and the reverse scanning portion (29).

Hereinafter, means for adding a flocculant in the present invention will be described.

A sludge and coagulant supply chamber 31 is provided in the linear portion 18 of the rotary shaft 16 and an outer circumferential wall thereof is connected to the annular space portion 32 between the bowl 2 and the rotary shaft 16 A plurality of sludge supply openings 21 are provided and the sludge and the flocculant supply pipe 15 inserted in the intermediate shaft 4 of the bowl 2 are installed to open into the sludge and flocculant supply chamber 31.

As shown in FIG. 6, the sludge supply port 21 is provided with a rotating agitating means 33, which rotates the sludge supply port 21 in a radial direction And a rotating body 35 coupled to the fixed shaft 34 and rotated only in one direction and having a plurality of blades. The stirring and mixing of the sludge and the polymer flocculant can be promoted through the sludge rotating and stirring means (33). In addition, stirring and mixing of the sludge and the polymer flocculant can be further accelerated by forcibly rotating the rotating body 35 through driving means such as a motor provided separately.

As described above, the double sludge and the flocculating agent supply pipe 15 have a YY cross section in Fig. 1 and a ZZ cross section, respectively, as shown in Figs. 7 and 8. The inner pipe 36 is a sludge passage, The outer pipe 37 surrounding the outer side of the pipe 36 is divided into three supply passages, namely a polymer flocculant supply path, an inorganic flocculant supply path and a cleansing water supply path. A supply port 38 is formed.

The polymer flocculant supply path extends directly along the inner pipe 36 and is opened in the sludge and flocculant supply chamber 31 and supplied into the sludge and flocculant supply chamber 31 from the periphery of the sludge to be stirred and mixed with the sludge.

As shown in FIGS. 1, 2 and 9, the sludge and coagulant supply chamber 31 are provided with a hollow cylindrical sludge and a coagulant mixer 39 having spiral grooves in opposite directions on the inner circumferential surface and the outer circumferential surface.

The sludge supplied from the inner pipe (36) of the sludge and coagulant feed pipe (15) passes through the spiral groove formed on the inner peripheral surface of the sludge and coagulant mixer (39) As the polymer flocculant passes through the spiral groove formed on the outer circumferential surface, a rotating vortex is generated in a direction opposite to the sludge, thereby promoting agitation and mixing of the sludge and the polymer flocculant, thereby enhancing the effect of the flocculant.

In addition, a circular plate 41 provided with a plurality of through holes is provided at the downstream side of the inner peripheral surface of the sludge and coagulant mixer 39 so as to function as a resistor of sludge and polymer flocculant supplied to promote vortex generation, .

For better effect, it is preferable that the plurality of through holes formed in the circular plate 41 are configured to have different diameters along the radial direction. This is to add a change in the velocity of the sludge and the polymer flocculant passing through the through-hole.

On the other hand, as shown in FIG. 2, on the upstream side where the sludge and coagulant supply pipe (15) is connected to the sludge and coagulant supply chamber (31), the inorganic coagulant supply path is divided and formed along the inner peripheral surface of the rotating copper And an inorganic flocculant is added to the surface and inside of the sludge to be centrifugally dewatered in the bowl 2, which is opened in the radial flow path 43 communicating with the inorganic flocculant supply path 42.

As described above, the sludge and flocculant supply chamber 31 is partitioned in the vicinity of the upstream side of the rotating copper 16, and the inner section of the straight line portion 18 on the downstream side thereof serves as an inorganic flocculant supply portion.

In the present invention, the inorganic coagulant is efficiently mixed with the sludge, and the flocculation effect is effectively increased, thereby contributing to the improvement of the dewatering rate. In addition, even if the dewatering rate is high, .

As shown in FIG. 10, the wall of the rotating copper 16 of the linear portion 18 from the downstream side of the sludge and coagulant supply chamber 31 to the inclined portion 19 is connected to the inorganic coagulant feed path 42 A plurality of orifices 44 and nozzles 45 protruding from the bowl 2 are provided.

The orifice 44 and the nozzle 45 are formed to be inclined toward the downstream side so that the sludge and the flocculant are additionally rotated in the annular space to promote the reaction between the sludge and the flocculant.

In the present invention, since the thickness of the helical blade 17 formed on the inclined portion 19 of the rotary shaft 16 is gradually increased toward the downstream side, the relatively high consolidation force acts on the downstream blade So that the spiral blade 17 can be protected.

1, a light control unit 46 is configured in the present invention. Specifically, the light control unit 46 includes a transparent window (not shown) And a light sensor for detecting the light reflected from the inside of the ball 2 is provided on the outside of the transparent window 47. A signal detected from the optical sensor is inputted through the control part, The sludge color value is compared with the input sludge color value to confirm the sludge processing state and controls the motor as the driving means.

Specifically, when the water content of the same sludge is high and the water content is high, the number of revolutions of the motor as the driving means is controlled to be high and the water content of the sludge is low, The apparatus is operated at a high speed to obtain an optimum operation effect, and when the water content is low, the apparatus is operated at a low speed to reduce the occurrence of overload and energy consumption.

In the present invention, the sludge enters the sludge and flocculant supply chamber 31 from the sludge and flocculant supply pipe 15, is supplied from the sludge supply port 21 into the annular space part 32, and the bowl 2 and the screw conveyor Liquid separation by the rotating centrifugal force of the spiral blade 3 and is conveyed toward the downstream side by the spiral blade 17. [ The separated liquid separated from the sludge is discharged to the outside from the separated liquid discharge port (8) on the upstream side.

In the present invention, since the outer circumferential surface of the screw conveyor 3 is structured to be inclined toward the downstream side, the sludge is gradually moved to a region receiving a high centrifugal force and is discharged to the dehydrated cake.

The sludge-concentrated centrifugal dewatering device (1) of the present invention as described above can be used for sewage treatment, industrial wastewater treatment, dehydration treatment of all products for chemical and food industry.

1: Sludge concentration centrifugal dehydrator 2: Bowl
3: screw conveyor 4: intermediate shaft
5: cake discharge chamber 6: separation liquid discharge chamber
7: Casing 8: Separate liquid outlet
9: Upper end wall of bowl 10: Cake discharge chamber wall
11: base frame 12: driven pulley
13: Transmission device 14: Screw conveyor drive shaft
15: Sludge and flocculant supply pipe 16:
17: helical blade 18: straight portion
19:
21: sludge supply port
24: reverse slope
25: Crimp passage 26:
27: pressed support 28: plunger
29: Adversarial Buddhism
31: sludge and coagulant supply chamber 32: annular space
33: rotation stirring means 34:
35: rotating body 36: inner tube
37: outer tube 38: supply port
39: Sludge and flocculant mixer
41: Circular plate 42: Inorganic coagulant feed path
43: Radial flow path 44: Orifice
45: Nozzle 46: Light control unit
47: Transparent window
B: Bearing S: Stepped portion
PS: pressure detection means OL: hydraulic pressure supply means

Claims (3)

A cylindrical bowl rotating in one direction and
And a screw conveyor in which a spiral blade is recommended on the outer periphery of a rotating shaft rotating in the same direction with a rotational speed difference coaxial with the bowl in the bowl;
The rotating copper of the screw conveyor,
A linear portion which is disposed on the upstream side and whose outer peripheral surface has a uniform diameter,
And the outer circumferential surface thereof is formed as an inclined portion whose diameter gradually increases toward the end,
The inclination angle of the inclined portion with respect to the rotational center axis is 31 to 45 degrees;
A sludge and an aggregating agent supply pipe for supplying sludge to the inside and supplying a flocculating agent to the outside,
A sludge and coagulant supply chamber located at an end of the sludge and coagulant supply pipe to form a space for primarily mixing the sludge and the coagulant,
An opposite-diametrically-facing portion formed at the downstream-side end of the bowl and having a reverse slope whose inner circumferential surface gradually decreases,
A ring-shaped pressing support formed on an outer circumferential edge of the rotary shaft at a downstream side of the rotary shaft and having an inclined surface parallel to the reverse-
Driving means for driving the bowl and the screw conveyor,
A pressure detecting means provided on a reverse slope surface of the reverse-
Two plungers coupled to the rear surface of the inclined surface portion of the pressing support portion,
Two cylinders in which the plunger is accommodated,
Hydraulic pressure supply means for supplying hydraulic pressure to the cylinder,
And a control unit for controlling the rotational speed of the driving unit and the hydraulic pressure supply unit in accordance with the pressure detected by the pressure detecting unit;
Wherein a ratio (L1 / L2) of an axial length (L1) of a linear portion from the rotational motion sludge supply port to an inclined portion starting point and an axial length (L2) of the rotational motion slope portion is in a range of 1.2 to 5.0;
Wherein the linear portion is provided with an orifice for adding an inorganic coagulant through the rotating copper and a nozzle for adding an inorganic coagulant to protrude into the annular space of the bowl;
A stepped portion is formed in the middle of the inclined portion;
The sludge and flocculant supply chambers are further provided with a plurality of sludge supply ports communicating with an annular space between the bowl and the rotating shaft,
The sludge supply port is provided with a rotation stirring means,
The rotation and stirring means of the sludge supply port,
A fixed shaft connecting the inner peripheral surface of the sludge supply port in the radial direction,
And a rotating body coupled to the fixed shaft and rotated only in one direction and having a plurality of blades.
Sludge concentration centrifugal dehydrator
The method according to claim 1,
Characterized in that the orifice and the nozzle are formed to be inclined toward the downstream side
Sludge concentration centrifugal dehydrator
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