KR101706013B1 - Cyclone devices and plants for wastewater treatment comprising the same - Google Patents

Abstract

The present invention relates to a cyclone treatment device that can be used in general wastewater treatment processes by addressing problems associated with a case where the specific gravity or density of wastewater exceeds a normal range and a case where the specific gravity or density of the wastewater falls short of the normal range. The cyclone treatment device includes a cyclone treatment device main body, an inflow water line through which inflow water flows in, a treated water line through which treated water is discharged after solid-liquid separation, a sludge line through which sludge is discharged after solid-liquid separation, and a bypass line for connection between the cyclone treatment device main body and the inflow water line. An operation of the cyclone treatment device is controlled in accordance with the concentration (Cp) of the treated water discharged through the treated water line or the concentration (Cc) of the sludge discharged through the sludge line.

Description

[0001] The present invention relates to a cyclone treatment apparatus and a wastewater treatment system including the cyclone treatment apparatus and the wastewater treatment system.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a wastewater treatment field, and more particularly, to a cyclone treatment apparatus having a bypass line and controlled in operation according to concentration, and a wastewater treatment system including the same.

If the wastewater is discharged without treatment, the wastewater can be destroyed or the human health can be damaged. Since the wastewater is separated from the wastewater through the various treatment processes before discharge, the wastewater can be appropriately managed without deteriorating the hygiene of the water system Only treated water that meets water quality standards is discharged to rivers and oceans.

The wastewater treatment process is divided into biological treatment such as screening, floatation, filtration, physical treatment of sedimentation, chemical treatment such as neutralization, oxidation, reduction, flocculation, ion exchange and aerobic treatment or anaerobic treatment .

These unit processes are connected to constitute a whole wastewater treatment process. Fig. 1 shows a general wastewater treatment process.

The wastewater introduced as inflow water flows into the first settling tank 100 after the sand or gravel is removed from the grit chamber (not shown).

In the primary sedimentation tank 100, precipitated solid particles (SS) in the wastewater are precipitated and removed together with the organic material (BOD, biochemical oxygen demand). That is, BOD and SS are removed together.

The separated sludge is transferred separately, and the treated water flows into the bioreactor 200 for biological treatment.

For example, the bioreactor 200 may include an aeration tank, so that organic materials that have not been removed from the primary settling tank 100 are synthesized into energy sources and cells in the metabolic process of microorganisms, ).

The treated water flows into the secondary sedimentation tank 300. In the second settling tank 300, the treated water that meets the appropriate water quality standard can be discharged by precipitating the flocs and performing solid-liquid separation. Here, the sludge that serves as the microorganism supply source among the separated sludge is used separately, and the excess sludge And is taken out to the concentration tank 300 as shown in FIG.

The separated sludge is introduced into the thickening tank 400 for a predetermined period of time (for example, 8 to 20 hours) to be solid-liquid separated by gravity sedimentation. When the supernatant is drained, The concentration becomes high.

The dewatering tank 500 reduces the volume of the sludge by dewatering the improved sludge with a vacuum filter, a filter press, a belt press, or the like. The reflux water produced in the dehydration process is transferred to the top of the process.

The sludge having a higher concentration and reduced in volume through the dewatering tank 500 is finally taken out and treated separately according to the waste treatment method.

In this general wastewater treatment process, any type of apparatus for solid-liquid separation can be employed in the primary settling tank 100, the secondary settling tank 200, or the concentrating tank 400, for example, a cyclone, A method of using a processing apparatus may be considered.

The cyclone treatment apparatus is shown in Fig.

The influent is supplied to the cyclone treatment device by a pump (P) at a pressure of about 3 to 5 bar. The inflow water flowing at high pressure forms a vortex in the cyclone treatment apparatus and rotates at a high speed. Based on the difference in specific gravity and density, solid-liquid separation is carried out by high-speed rotation. That is, the solid particles are mechanically separated.

The separated solid particles are concentrated, settled and discharged separately through the sludge line, and the treated water from which the solid particles have been removed is also discharged separately through the treated water line. The sludge line and the treatment water line are provided with valves Vc and Vp, respectively.

Particularly, when influent water flows into the cyclone treatment device at a high pressure, in effect, when the valve Vp of the treated water line is opened, the treated water of the solid-liquid separated supernatant is rapidly sucked into the treated water line.

However, since the concentration of the wastewater is not uniform and the concentration of the treated water is not guaranteed, the cyclone treatment apparatus is provided only in a relatively small processing facility, and thus it can not be generally used in a general wastewater treatment process.

For example, in general, the water quality of the wastewater to be treated in the cyclone treatment apparatus is SS = 3,000 to 5,000 mg / l. However, when the specific gravity and density of the incoming wastewater are higher than that, The concentration of the treated water does not satisfy the water quality standards that can be discharged to the rivers or the oceans due to the high concentration of the treatment water that has not yet been completely treated and flows into the treatment water line.

Even when the specific gravity or density of the wastewater is lower than this, it may be a problem. When the specific gravity or density of the wastewater is low, the concentration of the sludge to be taken out is lowered, and consequently, the concentration of the sludge concentrated in the concentration tank 400 is lowered, and the load of the dehydrator 500 is increased. Further, since the processing principle of the cyclone treatment apparatus is based on the specific gravity and density difference, if the specific gravity and density difference are lower than the predetermined range, the solid-liquid separation itself is not performed well, .

Various solutions have been proposed to overcome these problems.

Korean Unexamined Patent Publication No. 2000-0056761 combines a microbubble generator capable of supplying air and a surfactant-added water with a cyclone treatment device. When air and the surfactant-added water are supplied to the cyclone treatment apparatus, the efficiency of the solid-liquid separation in the case where the specific gravity and the density are high can be increased, but the problem of low case can not be solved. Also, the environmental pollution of the surfactant-added water itself may be a problem, and the operation cost is considerably increased.

Korean Patent Publication No. 2003-0017000 has added a plurality of screen rotors in order to increase the efficiency of a cyclone treatment apparatus. However, these do not provide a fundamental solution because they increase the efficiency by screening the wastewater flowing into the cyclone treatment apparatus. In addition, a screw is provided in the sludge discharge line of the cyclone treatment apparatus, but this is merely for compressing the discharged sludge, so that the above-mentioned problems are not solved.

Korean Patent Publication No. 2010-0077416 concentrates on the change of the shape of the body itself of the cyclone treatment apparatus. A technique of increasing the efficiency by installing the cyclone swash plate in the tank, or the above-described problems can not be solved.

As described above, various patent documents and papers have been disclosed for improving the separation efficiency by improving the mechanical / physical characteristics of the cyclone treatment device, for example, the height or diameter of the cylindrical portion, the depth or inclination angle of the conical portion, , It is difficult to meet the separation effect only by improvement of the mechanical / physical characteristics in the reality where the concentration of the influent water is varied, and other problems that the initial facility investment cost and operating cost are excessive are also caused.

(Patent Document 1) KR 10-2000-0056761 A

(Patent Document 2) 10-2003-0017000 A

(Patent Document 3) 10-2010-0077416 A

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems.

We propose a cyclone treatment device that can be used for general wastewater treatment process.

Particularly, as in the prior art, not a method of changing the mechanical / physical characteristics of the cyclone processing apparatus but adopting a method of changing the simple facility investment and operation concept in the general cyclone processing apparatus currently used, The cyclone treatment device is not required to be manufactured, and the initial facility investment cost is low and the operating cost is low.

Also, a cyclone treatment apparatus having a low concentration of sludge and a low load on the dehydrator is proposed, in which the concentration of the treated water corresponds to the reference water quality, and the concentration of the sludge is also constant even when the concentration of the inflow water as the wastewater is high or low.

In order to solve the above-mentioned problems, the present invention proposes a new cyclone treatment apparatus and a method of operating the same, that is, operation of the bypass line and operation in terms of treatment water or sludge concentration.

More specifically, a cyclone treatment apparatus main body, in which influent water as a wastewater is introduced at a high pressure to form a vortex and is subjected to solid-liquid separation; An inflow water line through which inflow water flows into the cyclone processing apparatus main body; A treated water line through which the treated water subjected to solid-liquid separation in the cyclone treatment apparatus is discharged; A sludge line from which the sludge solid-liquid separated from the cyclone treatment apparatus main body is taken out; And a bypass line connecting the cyclone treatment device main body and the inflow water line, wherein the concentration Cp of the treated water discharged through the treated water line or the concentration Cc of the sludge carried out through the sludge line, And the operation of the cyclone treatment apparatus is controlled according to the operation of the cyclone treatment apparatus.

The cyclone treatment apparatus further includes a control unit, wherein the treated water line is provided with a treated water concentration sensor (S), the sludge line is provided with a sludge line valve (Vc) The control unit is provided with a line valve Vb and a pump P is provided in the inlet line and in accordance with the concentration Cp of the treated water sensed by the treated water concentration sensor S, It is preferable to control opening and closing of the sludge line valve Vb, controlling the opening degree of the sludge line valve Vc, and controlling the pressure of the pump P.

It is preferable that the control unit estimates the concentration Cin of the influent water flowing in the inflow water line so as to be in proportion to the concentration Cp of the treated water sensed by the treated water concentration sensor S. [

When the concentration Cp of the treated water sensed by the treated water concentration sensor S exceeds the upper limit value of the predetermined concentration range or is lower than the lower limit value, the control unit opens the bypass line valve Vb, It is preferable to raise the pressure of the pump P.

It is preferable to increase the opening degree of the sludge line valve Vc when the concentration Cp of the treated water sensed by the treated water concentration sensor S exceeds the upper limit value of the predetermined concentration range, It is preferable to reduce the degree of opening of the sludge line valve Vc when the concentration Cp of the treated water sensed by the water concentration sensor S is lower than the lower limit value of the predetermined concentration range.

Further, a primary settling tank 100 into which wastewater flows and is subjected to a primary settling treatment; A biological reaction tank (200) in which the wastewater treated in the primary settling tank (100) is subjected to biological treatment; A second settling tank 300 in which the wastewater treated in the bioreactor 200 is subjected to a second settling treatment to discharge treated water; A concentrating tank 400 for concentrating the sludge taken out from at least one of the primary settling tank 100, the bioreactor 200 and the secondary settling tank 300; And a dewatering tank 500 in which the sludge having passed through the thickening tank 400 is dewatered and carried out of the dewatering tank 500. The dewatering tank 500 may be any one of the primary settling tank 100, the secondary settling tank 300, As described above, it is preferable to include one or more cyclone treatment apparatuses described above.

In general, many conventional techniques have proposed an improvement considering only a high concentration of wastewater, but even such improvement has been difficult to be used in a general wastewater treatment.

Also, since there is not much consideration about the concentration of sludge, it has caused frequent deterioration of service life of the dehydrator.

However, according to the present invention, when the concentration of the influent water, which is the wastewater flowing into the cyclone treatment apparatus, is higher than a predetermined concentration, it is possible to obtain an excellent separation effect. In addition, even when the concentration of influent water is low, The concentration of the sludge can be kept constant, so that the treatment water suitable for the water quality standard can be discharged and the load of the dehydrator can be reduced in the entire wastewater treatment process.

In addition, since the cyclone treatment apparatus according to the present invention does not manufacture the cyclone treatment apparatus itself by converting the mechanical / physical characteristics, only the bypass line is provided in the conventional general cyclone treatment apparatus, It can be solved by applying one control method, and there is no economic additional advantage because it is not necessary to add expensive investment facilities.

1 is a conceptual diagram for explaining a conventional wastewater treatment process.
2 is a conceptual diagram for explaining a conventional cyclone treatment apparatus.
3 is a conceptual diagram for explaining a cyclone treatment apparatus according to the present invention.
4 is a conceptual diagram for explaining a cyclone treatment apparatus according to another embodiment of the present invention.
5 is a table for explaining a method of operating the cyclone treatment apparatus according to the present invention.

Description of Cyclone Processor

Unlike the prior art, the cyclone treatment apparatus according to the present invention has a bypass line and operates differently based on the concentration (Cp) of the treated water or the concentration (Cc) of the sludge introduced.

3 and 5, the cyclone treatment apparatus according to the present invention will be described in more detail.

A cyclone treatment apparatus according to the present invention includes: a cyclone treatment apparatus main body in which influent water as a wastewater is introduced at a high pressure to form a vortex and solid-liquid separation is performed; An inflow water line through which inflow water flows into the main body of the cyclone treatment apparatus; A treated water line through which the treated water subjected to solid-liquid separation in the cyclone treatment apparatus is discharged; And includes a sludge line from which the solid-liquid separated sludge is carried out from the main body of the cyclone treatment apparatus, which is the same as that of the conventional general cyclone treatment apparatus.

However, the cyclone treatment apparatus according to the present invention, unlike the conventional cyclone treatment apparatus, further includes a bypass line connecting the main body of the cyclone treatment apparatus and the inflow water line.

The bypass line is provided on the discharge side of the cyclone treatment device toward the treated water line so that the treated wastewater can be bypassed to the inflow water line before the solid-liquid separation is performed or only partially.

Further, unlike the conventional cyclone treatment apparatus, the cyclone treatment apparatus according to the present invention further includes a control unit (not shown) in which the concentration of the treated water to be treated in the treated water concentration sensor S Cp), a sludge line valve Vc located in the sludge line, a bypass line valve Vb located in the bypass line, and a pump P located in the inflow line are controlled.

Here, the sensor S senses the concentration Cp of the treated water, may sense the concentration Cc of the sludge provided in the sludge line, or may determine the concentration Cin of the inflow water provided in the inflow water line, May be directly sensed.

However, in the case of being provided in the inflow water line and in the sludge line, the sensing accuracy can be reduced because the concentration Cin of the inflow water as the wastewater before the treatment and the concentration Cc of the sludge are very high, The concentration (Cp) of the treated water is the most preferable, and this case will be described in detail.

Upon receiving the concentration Cp of the treated water sensed by the treated water concentration sensor S, the control unit (not shown) can estimate the concentration Cin of the influent water flowing in the inflow water line in proportion thereto.

When the concentration (Cp) of the treated water in the treated water concentration sensor (S) is within a predetermined concentration range, otherwise, if the estimated enumerated water concentration Cin is within the predetermined concentration range, Within the range, separate bypass lines are not used and operate normally.

Here, SS can be used as a predetermined concentration range of the concentration (Cin) (i.e., the estimated concentration) of the normally operated influent water.

For example, a normal operating condition is a case where the concentration of inflow (Cin) is SS = 3,000 to 5,000 mg / l which is generally known to be processable in a cyclone treatment apparatus, in which case the bypass line valve (Vb) And the opening of the treated water line valve Vc is opened so that only the treated water line valve Vp and the sludge line valve Vc are open and the ratio of the flow quantities Qp and Qc flowing in the treated water line and the sludge line is about 95: And the pressure of the inflow water provided by the pump P may be 3 to 5 bar.

On the other hand, when the concentration Cp of the treated water sensed in the treated water concentration sensor S is outside the predetermined concentration range, that is, when the estimated concentration Cin of the influent water is outside the preset concentration range, The cyclone treatment apparatus can be operated according to the following procedure in the present invention. Will be described with reference to FIG.

When the concentration (Cin) of the influent water exceeds the upper limit value of the predetermined concentration range

When the concentration Cp of the treated water sensed in the treated water concentration sensor S exceeds the upper limit value of the predetermined concentration range, that is, when the concentration Cin of the influent water estimated through this exceeds the upper limit value of the predetermined concentration range The case will be explained.

In this case, as described above, there is a problem that the concentration (Cp) of the treated water which is a solid-liquid separated supernatant is discharged through the treated water line in a high state.

In order to prevent this, in the cyclone treatment apparatus according to the present invention, a control unit (not shown) raises the pressure of the pump P, opens the bypass line valve Vb, opens the sludge line valve Vc .

By raising the pressure of the pump P, the flow rate of the inflow water entering the cyclone treatment apparatus rises, and the increased flow velocity increases the shear rate in the cyclone treatment apparatus main body, thereby further increasing the solid-liquid separation efficiency.

Since the pump P draws influent water at a higher pressure than the normal operating condition, the flow rate Qin entering the cyclone processing apparatus main body per unit time increases. By opening the bypass line valve Vb, .

Further, as described above, when there is no bypass line or the bypass line is closed, excessive processing water is rapidly sucked into the treated water line and the concentration Cp of the treated water increases. Therefore, the opening of the bypass line valve Vb Can prevent the phenomenon of rapid sucking, thereby helping to control the concentration of treated water.

Further, since the flow rate Qin of the influent water increases and the solid-liquid separation efficiency also increases, it is preferable to increase the opening degree of the sludge line valve Vc so as to increase the flow rate Qc of the sludge to be carried out.

Accordingly, even when the concentration Cin of the influent water is high, the concentration Cp of the treated water discharged into the treated water line does not rise but remains constant. The concentration (Cc) of the sludge discharged to the sludge line will also be kept constant.

When the concentration (Cin) of the influent water is less than the lower limit value of the predetermined concentration range

The case where the concentration Cp of the treated water sensed in the treated water concentration sensor S is lower than the lower limit value of the predetermined concentration range, that is, the concentration Cin of the influent water estimated through the above process is less than the predetermined lower limit value.

In this case, as described above, there is a problem that the concentration (Cc) of the sludge is excessively low, so that the load on the dehydrator is increased or the separation efficiency of the cyclone treatment apparatus is often lowered and the concentration (Cp) of the treated water is rather increased.

In order to prevent this, in the cyclone treatment apparatus according to the present invention, a control unit (not shown) raises the pressure of the pump P, opens the bypass line valve Vb, opens the sludge line valve Vc .

By increasing the pressure of the pump P, the flow velocity of the influent water is increased to increase the shear rate in the main body of the cyclone treatment apparatus and to further increase the solid-liquid separation efficiency. In addition, since the flow rate Qin entering the main body of the cyclone treatment apparatus per unit time is increased, the bypass line valve Vb is opened to recirculate a part thereof, and the treatment water is rapidly sucked and the concentration (Cp) Is the same as preventing the problem.

However, since the concentration Cc of the sludge may be lowered, the degree of opening of the sludge line valve Vc may be reduced to cause the sludge to be more precipitated and concentrated so that the concentration Cc of the sludge is lowered Keep it low.

Accordingly, even when the concentration Cin of the influent water is low, the concentration Cp of the treated water discharged to the treated water line does not rise but remains constant. The concentration (Cc) of the sludge discharged to the sludge line will also be kept constant.

Description of another embodiment

Referring to Fig. 4, a cyclone processing apparatus according to another embodiment of the present invention will be described.

The embodiment of Fig. 4 is a case where a plurality of cyclone processing apparatuses are provided in series.

When one cyclone treatment plant alone is used as the primary settling tank, the secondary settling tank or the concentration tank, it may be difficult to control the solid-liquid separation efficiency and the treatment water concentration. Therefore, when two or more cyclone treatment apparatuses are used, Can be supplemented.

At this time, the valves Vb and Vc controlled in the cyclone treatment apparatus according to the present invention may be valves provided in the primary cyclone treatment apparatus, or the valve Vc2 provided in the secondary cyclone treatment apparatus may be controlled together It is possible.

1, the cyclone treatment apparatus according to the present invention may be provided in at least one of the primary sedimentation tank 100, the secondary sedimentation tank 300, and the concentration tank 400. [

In this case as well, they may be included singly, but each may include a plurality.

While the present invention has been described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims. It will be appreciated that embodiments are possible. Accordingly, the scope of protection of the present invention should be determined by the claims.

100: primary settling tank
200: Bioreactor
300: third settling tank
400: Enrichment tank
500: dehydration tank
P: Pump
Vp, Vp2: Processed water line valve
Vc, Vc2: sludge line valve
Vb: Bypass line valve
S; Treated water concentration sensor

Claims (9)

A cyclone treatment device main body in which influent water as a wastewater is introduced at a high pressure to form a vortex and solid-liquid separation is performed;
An inflow water line through which the inflow water flows into the main body of the cyclone treatment apparatus and is equipped with a pump (P);
A treated water line for discharging treated water subjected to solid-liquid separation in the cyclone treatment apparatus and provided with a treated water concentration sensor (S);
A sludge line in which the sludge separated from the cyclone treatment apparatus main body is discharged, and a sludge line valve (Vc) is provided;
A bypass line connecting the main body of the cyclone apparatus and the inflow water line and having a bypass line valve Vb; And
Controls the opening and closing of the bypass line valve (Vb), controls the opening degree of the sludge line valve (Vc) according to the concentration (Cp) of the treated water sensed by the treated water concentration sensor (S) And a control unit for controlling the pressure of the pump (P)
Cyclone treatment device.
delete The method according to claim 1,
The control unit estimates the concentration Cin of the inflow water flowing in the influent water line so as to be proportional to the concentration Cp of the treated water sensed by the treated water concentration sensor S,
Cyclone treatment device.
The method according to claim 1,
When the concentration Cp of the treated water sensed by the treated water concentration sensor S exceeds the upper limit value of the predetermined concentration range or is lower than the lower limit value,
The control unit opens the bypass line valve (Vb)
Cyclone treatment device.
5. The method of claim 4,
When the concentration Cp of the treated water sensed by the treated water concentration sensor S exceeds the upper limit value of the predetermined concentration range or is lower than the lower limit value,
The control unit may increase the pressure of the pump P,
Cyclone treatment device.
6. The method of claim 5,
When the concentration Cp of the treated water sensed by the treated water concentration sensor S exceeds the upper limit value of the predetermined concentration range,
Increasing the degree of opening of the sludge line valve (Vc)
Cyclone treatment device.
6. The method of claim 5,
When the concentration Cp of the treated water sensed by the treated water concentration sensor S is lower than the lower limit value of the predetermined concentration range,
Reducing the degree of opening of the sludge line valve (Vc)
Cyclone treatment device.
8. A wastewater treatment system comprising a cyclone treatment device according to any one of claims 1 to 7,
A primary settling tank 100 into which wastewater flows and is subjected to a primary settling treatment;
A biological reaction tank (200) in which the wastewater treated in the primary settling tank (100) is subjected to biological treatment;
A second settling tank 300 in which the wastewater treated in the bioreactor 200 is subjected to a second settling treatment to discharge treated water;
A concentrating tank 400 for concentrating the sludge taken out from at least one of the primary settling tank 100, the bioreactor 200 and the secondary settling tank 300; And
And a dewatering tank 500 through which the sludge having passed through the thickener tank 400 is dehydrated and the sludge is discharged,
Wherein at least one of the primary settling tank (100), the secondary settling tank (300), and the thickening tank (400)
Wastewater treatment system.
A wastewater treatment system comprising a plurality of cyclone treatment devices according to any one of claims 1 and 3 to 7,
A primary settling tank 100 into which wastewater flows and is subjected to a primary settling treatment;
A biological reaction tank (200) in which the wastewater treated in the primary settling tank (100) is subjected to biological treatment;
A second settling tank 300 in which the wastewater treated in the bioreactor 200 is subjected to a second settling treatment to discharge treated water;
A concentrating tank 400 for concentrating the sludge taken out from at least one of the primary settling tank 100, the bioreactor 200 and the secondary settling tank 300; And
And a dewatering tank 500 through which the sludge having passed through the thickener tank 400 is dehydrated and the sludge is discharged,
Wherein at least one of the primary settling tank 100, the secondary settling tank 300, and the thickening tank 400 includes a plurality of cyclone treatment devices,
Wastewater treatment system.

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