KR100964921B1 - Complex dehydration apparatus - Google Patents

Abstract

PURPOSE: A complex dehydration apparatus is provided to automatically improve driving efficiency, and to reduce the amount of medicine input and percentage of the water content while improving sludge processing efficiency. CONSTITUTION: A complex dehydration apparatus comprises a dehydration unit including a centrifugal dehydrator(30) and a controller(50), and a sludge pre-processing unit(10). The centrifugal dehydrator separates sludge into cake and filtrate with centrifuge. The sludge pre-processing unit pre-processes the sludge before supplying the sludge to a dehydration unit. The sludge pre-processing unit includes a limewater feeder(11) or a crusher(15). The centrifugal dehydrator includes a bowl(31), a scroll(33), a driving motor(32), and a sub-motor(38). The dehydration unit further includes a sludge supplier(20A) and a polymer inputting unit.

Description

Complex Dehydration Apparatus

The present invention relates to a complex dehydration apparatus, and more particularly, to a complex dehydration apparatus for efficiently dewatering the sludge accumulated on the floor of a waste water purification facility.

In general, sludge builds up over time at the bottom of facilities that hold water, such as dams, wastewater treatment plants, and water purification plants, and by periodically removing such sludge to prevent contamination of fresh water.

The dehydration apparatus used in the prior art includes a sludge storage tank for injecting and storing raw water to settle the sludge, a chemical supply device for supplying chemicals to the sludge, a belt type dehydrator for dehydrating chemicals and stirred sludge, and a cake treatment after dehydration. Device.

The belt type dehydrator winds the dewatering belt on the outer surface of the pressure roller arranged in multiple stages in a predetermined chamber, compresses the sludge introduced into the dewatering belt rotated by the pressure roller, and dehydrates the water contained in the sludge. And to remove by cake.

By the way, the above conventional dehydration apparatus has the following problems.

First, since the conventional dehydration apparatus does not have a process for pretreating sludge introduced into the belt type dehydrator, for example, if the sludge has many organic substances, there is a problem in that the moisture content of the cake increases and odor occurs.

Second, the conventional dehydration device does not filter out contaminants contained in the sludge, thus supplying raw water into the device. Frequently occurred.

Third, the conventional belt-type dehydrator has to be equipped with a washing water pump, an air compressor, a coagulation tank, a dehydrator, and the like, so that the installation area is large and complicated, and odor or dust is generated.

Fourth, since the conventional dehydration apparatus cannot cope with the change in the sludge concentration, problems such as overloading of the dehydrator, decrease in moisture content, and the use of excess chemicals occur according to the concentration of sludge introduced.

Fifth, the cake having a high moisture content generated due to the problems described above caused odor and leakage due to excessive moisture when stored in the cake processing apparatus.

The present invention has been made in view of the above-described prior art, and an object of the present invention is to provide a complex dehydration apparatus having a high sludge treatment efficiency and capable of various operations according to a change in concentration of influent sludge.

The composite dehydration apparatus according to the present invention for achieving the above object includes a dewatering unit including a centrifugal dehydrator for centrifuging sludge into cake and filtrate, and a sludge pretreatment unit for pretreatment before supplying sludge to the dewatering unit.

In the complex dewatering apparatus according to the present invention, the sludge pretreatment unit includes at least one of a lime water feeder and a crusher.

In the complex dewatering apparatus according to the present invention, the dewatering unit further includes a sludge supply pump, a sludge feeder having a flow meter and a concentration meter, and a polymer input device having a flow meter, wherein the control unit is adapted to meet a predetermined total solid throughput. By detecting the densitometer and the flow meter, the sludge feed pump is controlled based on the detected data to control the sludge feed amount and the polymer feed amount accordingly.

In addition, in the complex dehydration apparatus according to the invention further comprises a control unit for controlling the dewatering unit, the control unit adjusts the sludge supply amount and the polymer supply amount according to the flow rate and concentration change of the sludge flowing into the dewatering unit.

In the complex dehydration apparatus according to the present invention, the centrifugal dehydrator includes a pole, a scroll that rotates relatively within the pole, a driving motor and an auxiliary motor for rotating the pole and the scroll, respectively.

In addition, the complex dehydration apparatus according to the present invention further includes a control unit for controlling the dehydration unit, the control unit senses the torque of the drive motor for driving the Paul and the auxiliary motor for driving the scroll of the centrifugal dehydrator, the torque Drive the auxiliary motor to the drive motor according to the change.

In addition, the composite dewatering device according to the present invention further comprises a post-treatment unit for processing a solid-liquid separated dewatering cake, the post-treatment unit further comprises a powder lime injector.

The complex dehydration device according to the present invention employs a centrifugal dehydrator to quickly separate the sludge from the inside of the Paul rotating at a high speed of 2000 to 3000 rpm, thereby improving work efficiency. It can be operated flexibly according to the concentration or torque of sludge flowing into the dehydrator, so the optimum amount of chemical can be injected, the water content can be significantly lowered, and the central control can be performed for 24 hours continuous automatic operation.

In addition, the composite dehydration apparatus according to the present invention can increase the treatment efficiency by pre-treating the sludge introduced into the centrifugal dehydrator. For example, the lime water feeder improves the organic material in the sludge to improve the reactivity and sedimentation with the coagulant supplied later to reduce the amount of organic chemicals and increase the specific gravity of the sludge, and the crusher finely crushes the foreign matter to prevent equipment failure Can be.

In addition, the composite dehydration device according to the present invention after mixing the dehydrated cake separated from the solid-liquid separated from the centrifugal dehydrator and the quicklime supplied through the powder lime feeder after storage for a period of time to reduce the moisture content of the cake, disinfection, solidification, odor reduction The effect can be obtained.

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

1 is a view schematically showing a complex dehydration apparatus according to an embodiment of the present invention.

Referring to the drawings, the complex dewatering apparatus of this embodiment includes a sludge pretreatment unit 10, a dewatering unit 20, and a post-treatment unit 40.

The sludge pretreatment unit 10 detects the amount of the sludge contained in the raw water supplied to the dewatering unit 20 and the degree of contaminants in advance, so that the lime water feeder 11 can supply the sludge of a certain property to the dewatering unit 20. And a crusher 15.

The lime water feeder 11 is intended to improve the dehydration ability of the sludge by introducing the lime water into the storage tank 1 when the sludge flowing into the sludge storage tank 1 contains a large amount of organic matter. If lime water is added, since the reactivity and sedimentation with the flocculant supplied from the dehydration unit 20 is improved later, the amount of organic chemicals can be reduced and the specific gravity of the sludge can be increased. The lime water feeder 11 includes a lime water storage tank 12 for dissolving and stirring calcined lime at a predetermined ratio with industrial water, and a supply pump 13 for supplying quantitative lime water. The sludge storage tank 1 may further include a stirrer 2 for storing wastewater sludge introduced into the dehydration apparatus of the present invention to equalize the concentration, and mixing the lime water with lime water as necessary.

Shredder 15 is to prevent the failure of the device in the post-process by crushing the contaminants such as vinyl, waste wood, fish and shellfish in the sludge finely. Since the crusher 15 may use a conventional crusher or crusher, detailed description thereof will be omitted.

The dewatering unit 20 is a polymer for supplying a polymer such as a sludge feeder 20A for supplying the sludge introduced through the dehydrator 30, the crusher 15 to the dehydrator 30, and a flocculant for mixing with the sludge. Feeder 24.

The sludge feeder 20A is for sending the sludge deposited in the sludge storage tank 1 to the dehydrator 30 by a predetermined amount. The sludge feeder 20A includes a pump 21 for supplying sludge, a variable device 22, a densitometer 23, and a flow meter 24.

The polymer feeder 20B serves to aggregate and crosslink by supplying an organic chemical (polymer) to the sludge. The polymer feeder 20B includes a dissolution tank 25 including a stirrer for storing a polymer, a pump 26, a variable device 27, a flow meter 28, and the like.

The dehydrator 30 is for separating the sludge mixed with the polymer and separating the sludge into the dehydration cake and the filtrate. In this embodiment, a centrifugal dehydrator using a simple equipment, a small installation area, and easy automatic control is used.

The centrifugal dehydrator 30 of this embodiment is provided with an outer cylinder Paul 31 and a scroll 33 installed inside the Paul 31 as shown in an enlarged view in FIG. Paul (31) receives a rotational driving force through the drive motor 32, one side is provided with a sludge inlet 34, the bottom surface is provided with a cake outlet 35 and the filtrate discharge (36). Paul 31 is rotatably installed on the base platform, the bearing (not shown) and the vibration preventing member is installed.

The scroll 33 is installed on the opposite side of the sludge inlet 34 so as to be relatively rotatable with the Paul 31. The cone-shaped scroll 33 receives rotational force from the auxiliary motor 38 including the gearbox 37. A spiral auger 39 is provided on the outer circumference of the scroll 33, and the cake liquid-separated from the auger 39 is transferred to the cake discharge port 35. The solid-liquid separated filtrate overflows the side wall of the paul 31, and is collected and discharged to the filtrate discharge port 36. In addition, the centrifugal dehydrator 30 includes a bearing temperature sensor, a vibration sensor, and the like as a safety device.

The aftertreatment unit 40 includes a feeder 41 for transferring the sludge cake discharged from the dehydrator 30, a powder lime feeder 42, and a storage passage 43.

The feeder 41 is for transferring the dehydration cake solid-separated from the centrifugal dehydrator 30 to the storage cell 43, and a conventional screw conveyor can be used.

The powder lime feeder 42 adds powder quicklime to the dehydrated cake to cause a chemical reaction, thereby reducing the moisture content of the cake and stabilizing (eliminating toxicity and solidifying) during the post-treatment. As shown, the powder lime feeder 42 may be introduced in the middle of the feeder 41 so that the powder lime feeder 42 may be efficiently stirred with the dewatering cake while moving the feeder 41.

The storage cell 43 is for storing the dehydrated cake for a certain period of time, which can improve efficiency at the time of external discharge, and can reduce water content, disinfect, solidify, and reduce odor by securing a reaction time between quicklime and dehydrated cake. . The finished sludge cake can be used as a soil improver.

The components of the present embodiment as described above may be interlocked and automatically operated through the controller 50. Details will be described later.

Then, the dehydration operation of the composite dehydration device of the present embodiment having the configuration as described above will be described with reference to FIG.

When the raw water is supplied to the sludge storage tank 1 through the inlet pipe, sludge contained in the raw water is settled in the storage tank 1, the water overflowed in the storage tank 1 is discharged to the outside. When the sludge has a large amount of organic matter, the lime water is supplied to the sludge storage tank 1 through the lime water feeder 15 and mixed with the stirrer 2 (S100). The sludge settled on the bottom of the storage tank 1 is supplied to the crusher 15 through a transfer pipe to remove bulky contaminants (S200).

Subsequently, the lime water and the stirred sludge are supplied to the centrifugal dehydrator 30 through the pump 21 of the sludge supply unit 20A, and at the same time, the polymer such as the coagulant is also centrifugal dehydrator through the pump 26 of the polymer supply unit 20B. S30 is supplied to (S300). The sludge is sensed and controlled in the control panel 50 through the densitometer 23 and the flow meter 24, and likewise, the polymer is also sensed and controlled through the flow meter 28.

When the centrifugal dehydrator 30 first starts a high speed rotation at 2000 to 3000 rpm, the sludge and the polymer are supplied into the Paul 31 through the sludge inlet 33. As the flocs become larger and the sedimentation effect is improved by the reaction, the sludge is solid-liquid separated into the dehydrated cake and the filtrate (S400). Increasing the rotational speed of Paul increases the G value in the gravitational field to about 2000-3000, and the sludge rapidly solidifies and attaches the dewatering cake to the outer wall, which is the auger of the screw 32 with Paul and the vehicle speed (39). Is discharged to outside. For example, the dewatering cakes are discharged to the outside through the cake outlet 35 by the auger 39 of the scroll 33, and the filtrate overflows the drain hole near the sludge inlet 33 and then through the filtrate outlet 36. Discharged.

Here, the centrifugal dehydrator 30 is a pump PID operation (proportional integral derivative control) for controlling the sludge supply pump 21 by using the concentration meter 23 and the flow meter 24 of the sludge feeder 20A and the auxiliary motor of the dehydrator. 38) Variable operation may be performed through torque PID operation using torque (S410, S420).

In the pump PID operation, the control unit 50 detects the densitometer 23 and the flow meter 24 so as to meet the predetermined total solids throughput (Kg.DS / hr), and controls the sludge supply pump 21 based on the detected data. It is to control the sludge feed amount and also to control the polymer feed amount accordingly. This operation method is suitable when the inflow concentration change of the sludge is large, and the centrifugal dehydrator 30 operates at a constant speed.

Torque PID operation, the control unit 50 detects the torque of the driving motor 32 of the Paul 31 and the torque of the auxiliary motor 38 of the scroll 33, the auxiliary motor 38 in the centrifugal dehydrator 30 in accordance with the torque change. ) Is to control the torque of the vehicle. This operation method is suitable when the sludge inflow concentration change is small. During operation, a certain amount of sludge and polymer is supplied, and the rotational speed of the scroll 33 is controlled according to the situation in the dehydrator. For example, if the amount of dehydration cake in the dehydrator 30 is large, the speed of the scroll 33 is increased, and if the amount of dehydration cake is small, the speed of the scroll 33 is lowered so that the settling and separation time is long.

The dewatered cake discharged from the centrifugal dehydrator 30 is transferred to the storage cell 43 through the feeder 41, and at this time, by adding powder quicklime to the dehydrated cake through the powder lime feeder 42, a chemical reaction occurs. , Stabilizing the moisture content of the cake and post-treatment (S500).

The dewatering cake of the storage cell 43 is stored for a period of time and reacted with quicklime to reduce moisture content, disinfection, solidification, and odor reduction, and then disposed of through a vehicle (S600).

1 is a view schematically showing a complex dehydration apparatus according to an embodiment of the present invention.

2 is a view schematically showing a centrifugal dehydrator of the complex dehydration apparatus according to an embodiment of the present invention.

3 is a flow chart showing the dehydration operation of the complex dehydration apparatus according to an embodiment of the present invention.

* Brief description of the main references in the drawings *

1 .. sludge storage tank 10 .. sludge pretreatment unit

11..lime water feeder 15.crusher

20. Dewatering unit 20 A. Sludge feeder

20B. Polymer feeder 21. Sludge feed pump

23. Density meter 24. Flow meter

30. Dehydrator 31. Paul

32. Drive motor 33 scroll

38.Secondary motor 39.Auger

40. Aftertreatment unit 42. Powder lime feeder

43 .. Between Storage

Claims (7)

A dewatering unit including a centrifugal dehydrator and a control unit for centrifuging sludge into a cake and a filtrate, and a sludge pretreatment unit for pretreatment before supplying sludge to the dewatering unit, The sludge pretreatment unit includes at least one of a lime water feeder and a crusher, and the centrifugal dehydrator includes a scroll rotating relative to Paul and Paul, a driving motor and an auxiliary motor for rotating the scroll, respectively. The dewatering unit further includes a sludge feed pump, a sludge feeder having a flow meter and a concentration meter, and a polymer feeder having a flow meter, The control unit operates the centrifugal dehydrator at constant speed when the sludge inflow concentration change is large, and detects the concentration meter and the flow meter so as to meet a predetermined total solids throughput, and controls the sludge supply amount by controlling the sludge supply pump based on the detected data. When the sludge inflow concentration change is small, the sludge and polymer are operated to supply a certain amount, while detecting the driving motor torque of Paul and the auxiliary motor torque of the scroll, and controlling the torque of the auxiliary motor in the centrifugal dehydrator according to the torque change. Complex dewatering device characterized in that. delete delete delete delete delete delete

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