KR101740264B1 - Slow mixing precipitation tank for wastewater treatment system - Google Patents

Abstract

The present invention provides a slow stirring settling tank for a wastewater treatment system. In the slow stirring sedimentation tank for the wastewater treatment system according to the present invention, when the wastewater is introduced, the flow of the wastewater is maintained at a predetermined level or more regardless of the inflow rate of the wastewater, So that the settling rate of the precipitated sludge of the high concentration phosphorus and suspended matters contained in the wastewater is increased.

Description

[0001] The present invention relates to a slow mixing precipitation tank for a wastewater treatment system,

The present invention relates to a slow stirring settling tank for a wastewater treatment system, and more particularly, to a wastewater treatment system capable of controlling the flow rate of wastewater regardless of the flow rate of the wastewater, And the sedimentation rate of the precipitated sludge of the high concentration phosphorus and suspended solids contained in the wastewater is increased, and more particularly, to a slow stirring sedimentation tank for the wastewater treatment system.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a diagram showing a conventional wastewater treatment system containing phosphorus at a high concentration. Referring to Fig. 1, a treatment system for wastewater containing phosphorus at a high concentration includes a storage tank 1, a rapid stirring tank 2, a slow stirring tank 3, and a settling tank 4.

The storage tank (1) collects and receives wastewater containing high-concentration mixed waste liquid and high-concentration phosphorus and suspended substances from the sludge concentration filtrate and sludge dehydration filtrate corresponding to influent water. On the other hand, the storage tank 1 may be subjected to a pretreatment process for passing the wastewater containing high concentration phosphorus, which corresponds to the influent water, through the silt or screen.

The rapid stirring tank 2 and the slow stirring tank 3 respectively agitate the wastewater containing the high-purity phosphorus stored in the storage tank 1 using a coagulant at a rapid rate and a slow rate, respectively, to agglomerate the high concentration phosphorus, (4) flocculate and other materials on the floor.

Thus, the treated water with the treated wastewater can be taken out to the outside.

The system for treating wastewater containing phosphorus at a high concentration according to the prior art has a problem that the rapid stirring tank 2 takes up a large volume and the space required for mixing the chemicals is excessive.

In addition, when operating with the slow stirring tank 3 and the settling tank 4, there is a disadvantage that a large space is required for each operation.

Due to the above-mentioned problems, the applicant of the present invention has filed a patent application No. 10-2013-0128612 entitled " Integrated Hybrid System for Agitation, Precipitation and Filtration for Treatment of Wastewater Containing High Concentration of Phosphorus and Suspended Substance, A system has been proposed in which stirring, sedimentation and filtration for treating wastewater containing high concentrations of phosphorus and suspended solids, which occur in sewage, sewage and wastewater treatment plants or construction sites, are performed in a smaller space than in the prior art .

When the flow rate is increased in order to increase the flow rate of the influent water flowing into the slow stirring sedimentation tank, there is a problem that it is difficult to secure a high sedimentation rate of the high concentration phosphorus and suspended substances contained in the wastewater.

Korean Registered Patent No. 10-0999369 'Integrated water treatment apparatus for treating wastewater and ozone / Korean Registered Patent No. 10-1161801 " Advanced Treatment System of O / Wastewater with Large Fluctuation of Pollutant Load and Advanced Treatment Method & Korean Patent Laid-Open Publication No. 10-2008-0010909 'Water treatment apparatus and water treatment method in which an immersion membrane module is integrated into a fiber filter' Korean Patent Application No. 10-2013-0128612 'Integrated Hybrid System for Agitation, Precipitation and Filtration for Wastewater Treatment Having High Concentration of Phosphorus and Suspended Substance, and Wastewater Treatment Method Using the Same'

Accordingly, it is an object of the present invention to solve the problems of the prior art, and to provide a method and apparatus for recovering wastewater from a wastewater storage tank, And a sedimentation rate of the sedimented sludge of the high concentration phosphorus and suspended solids contained in the wastewater is increased, and a new type of slow stirring sedimentation tank for the wastewater treatment system.

According to an aspect of the present invention for achieving the above object, the present invention provides an infusion pump comprising an inflow port (32a) through which wastewater flows, an outflow port (32b) for discharging any one selected from non-precipitated fine particles and immature cohesive flocs, A discharge port 32c connected to the dewatering tank 40 for discharging the precipitated sludge and an air outlet 32d formed on the upper side and flowing into the slow stirring settling tank 30 to discharge the circulated air to the outside, An outer cylinder 32 on the outer cylinder 32; An air injection blower 34 installed at the inlet port 32a of the outer cylinder 32 to inject air into the outer cylinder 32; An inner cylinder (36) located inside the outer cylinder (32) and formed in a cylindrical shape; A plurality of neighboring guards 33 are spirally installed so as to have a slope set between the outer cylinder 32 and the inner cylinder 36 so that air introduced together with the wastewater through the inlet 3a of the outer cylinder 32 The flow rate of the wastewater is maintained at a predetermined level or more regardless of the inflow rate of the wastewater by the air introduced into the wastewater, The sedimentation rate of the precipitated sludge of the high concentration phosphorus and the suspended solids contained in the wastewater is increased while preventing the retention time from becoming short, thereby providing a slow stirring sedimentation tank for the wastewater treatment system.

In the slow stirring sedimentation tank for a wastewater treatment system according to the present invention, the prevention plate 38 may be installed in a plurality of rows in the vertical direction above the inlet port 32a between the outer cylinder 32 and the inner cylinder 36.

The guards 33 of the prevention plate 38 in the slow stirring sedimentation tank for the wastewater treatment system according to the present invention have a planar shape in which one side corresponds to the outer peripheral surface of the inner cylinder 36 and the other side corresponds to the inner peripheral surface of the outer cylinder 32 ≪ / RTI >

In the slow stirring sedimentation tank for a wastewater treatment system according to the present invention, the prevention plate 38 is formed such that a plurality of neighboring guards 33 are inclined in a range of 10 ° to 20 ° between the outer cylinder 32 and the inner cylinder 36 And a plurality of neighboring guards 33 are provided so as to be spaced apart from each other by a height difference of 10 mm to 20 mm while being overlapped with each other by a predetermined area so that the air introduced together with the wastewater can be prevented from being discharged vertically While allowing a portion of the wastewater and floating material that has grown to a flock size above the set size to flow down.

In the slow stirring sedimentation tank for a wastewater treatment system according to the present invention, the anti-blocking plate 38 provided at the lowermost part of the plurality of anti-parallel blocking plates 38 may be installed behind the anti- have.

According to the slow stirring sedimentation tank for the wastewater treatment system according to the present invention, when the wastewater is introduced, air is introduced into the wastewater treatment system, thereby maintaining the flow rate of the wastewater at a predetermined level regardless of the inflow rate of the wastewater. And the sedimentation rate of the precipitated sludge can be increased because the suspended solids are separated and separated from the wastewater.

1 shows a system for treating wastewater containing phosphorus at a high concentration according to the prior art;
2 is a view for explaining a slow stirring sedimentation tank for a wastewater treatment system according to an embodiment of the present invention;
FIG. 3 and FIG. 4 illustrate how the influent and the influent of the wastewater inflow into the slow stirring sedimentation tank for the wastewater treatment system according to the embodiment of the present invention and flow together;
FIG. 5 is a plan view of a stop plate in a slow stirring settling tank for a wastewater treatment system according to an embodiment of the present invention; FIG.
FIGS. 6 and 7 are diagrams showing floating matters separated and discharged to the outside by the air in the slow stirring sedimentation tank for the wastewater treatment system according to the embodiment of the present invention; FIGS.
8 is a view for explaining the constituent elements and operation concept of a high concentration phosphorus and suspended solids-containing waste water / wastewater treatment system according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to FIGS. 2 to 8, and the same reference numerals are used for the components that perform the same functions in FIG. 2 to FIG. In the drawings and the detailed description, detailed description of specific elements and functions of elements not directly related to the technical features of the present invention will be omitted. .

The slow stirring settling tank 30 for the wastewater treatment system according to the embodiment of the present invention simultaneously performs the functions of slow mixing and precipitation on a smaller scale than the conventional technique. That is, the slow stirring settling tank 30 performs the slow mixing reaction and the sludge settling in a single batch in the coagulation reaction process. The slow stirring settling tank 30 is formed in a small capacity in place of the conventional operation mode using the slow stirring vessel 3 (see FIG. 1) and the settling tank 4 (see FIG. 1), and is connected to the fiber filter 50 .

In other words, the slow stirring settling tank 30 compensates for the disadvantage that a large space is required when the conventional slow stirring tank 3 and the settling tank 4 are operated separately. Thus, an in-line mixer 20 to reduce the residence time of the wastewater, thereby providing a function of forming a cohesive floc in a smaller space.

When the wastewater is introduced, the circulating flow is maintained, and the high concentration phosphorus and suspended matters contained in the wastewater are separated from the wastewater by centrifugal force and gravity to be precipitated and discharged.

That is, the slow stirring settling tank 30 keeps the flow rate of the wastewater at a certain level regardless of the inflow rate of the wastewater by allowing the wastewater to flow along with the air when the wastewater flows in, and prevents the wastewater from staying inside . In this process, the high concentration phosphorus and suspended matters contained in the wastewater are separated from the wastewater and precipitated and discharged.

As described above, when the wastewater is introduced into the slow stirring settling tank 30 together with the air, the retention time of the wastewater can be secured, and the effect of stirring and precipitation can be enhanced to more effectively separate the high concentration phosphorus and suspended matters contained in the wastewater There is an effect that can be done.

2, the outer cylinder 32, the air injection blower 34, the inner cylinder 36, and the stopper plate 38 are provided as shown in FIG. 2, .

The outer tube 32 has a cylindrical shape and is connected to the in-line mixer 20 and has an inlet port 32a through which the wastewater flows. The outer tube 32 is connected to the fiber filter 50 to discharge fine particles or immature cohesive flocs And an outlet 32c for discharging the precipitated sludge by being connected to the dewatering tank 40 at the lower part. An air outlet 32d is formed on the upper side so that the air introduced through the air introducing blower 34 to be described later turns along the prevention plate 38 and is discharged to the outside.

The air blowing blower 34 is provided at the inlet port 32a side of the outer cylinder 32 as shown in FIGS. 2 and 3 so as to supply the air to the inside of the outer cylinder 32 together with the wastewater introduced from the in- And the inner cylinder 36 is located inside the outer cylinder 32 and is formed in a cylindrical shape.

The air is injected together with the wastewater by installing the air blowing blower 34 in the slow stirring settling tank 30. The air is an independent fluid occupying a space of a predetermined size as shown in FIG. So that the air itself flows in parallel with the wastewater inflow water and flows in the slow stirring settling tank 30 together with the wastewater inflow water. Accordingly, it is possible to prevent the time for the wastewater to stay in the slow stirring settling tank 30 from being shortened, thereby ensuring a high sedimentation rate of the high concentration phosphorus and suspended substances finally contained in the wastewater.

The prevention plate 38 is provided between the outer cylinder 32 and the inner cylinder 36 and is disposed above the inlet port 32a of the outer cylinder 32. The prevention plate 38 is disposed on the upper side of the inlet 32a of the outer cylinder 32, Maintain the swirling flow to prevent the precipitation rate of the high concentration phosphorus and suspended matters contained in the wastewater from decreasing and to prevent the air introduced with the wastewater from being discharged vertically.

The guard plate 38 is composed of a plurality of guards 33 whose one surface corresponds to the outer circumferential surface of the inner cylinder 36 and whose other surface corresponds to the inner circumferential surface of the outer cylinder 32 and a plurality of adjacent guards 33 And is provided spirally so as to have a predetermined inclination between the outer cylinder 32 and the inner cylinder 36. Here, it is preferable that the adjacent guards 33 are composed of eight, and the inner tube 36 is turned one turn, and the inclination is preferably set between 10 and 20 degrees.

The wastewater flowing through the inlet port 3a of the outer cylinder 32 is maintained in a swirling flow by the prevention plate 38 by providing the prevention plate 38 with a predetermined inclination, Thereby preventing the air flowing in together from being discharged vertically. Thus, the flow rate of the wastewater can be maintained at a certain level regardless of the inflow rate of the wastewater, and the time during which the wastewater stays in the inside can be prevented from being shortened.

The guard 33 guides the flow of the wastewater and is installed so as to overlap with the wastewater flowing in through the inlet 32a of the outer barrel 32 to prevent the air from being directly discharged vertically. The guard 33 is rotated by 90 degrees in order to induce the flow of the wastewater, and the gap between the guard 33 and the guard 33 is set as shown in FIG. 5 The guards 33, which are provided so as to overlap with each other by rotating the guards 33 by 45 degrees, are spaced apart from each other by a height difference of 10 mm to 20 mm.

As described above, a plurality of guards 33 formed of flat plates are adjacent to each other. The guard 33 adjacent to the guards 33 is installed in a plurality of rows in the vertical direction, .

In the present invention, the protection plates 38 are provided in two rows, and the height of the first row and the second row are set to be different from each other by 30 mm to 40 mm. However, this is merely an example of the prevention plate 38, It will be understood by those of ordinary skill in the art that various changes and modifications may be made.

On the other hand, the anti-blocking plate 38 provided at the lowermost part of the anti-blocking plate 38 provided at a plurality of rows is installed behind the anti-blocking plate 38 provided immediately above by a predetermined angle. Here, it is preferable that the predetermined angle is 45 degrees, because the guards 33 are arranged so as to overlap each other by the degree of overlapping, that is, by 45 degrees, so that they correspond to the overlap.

As shown in FIG. 5, the 'start point of one row' is installed at the rear side (45 ° difference) when viewed from a plane than the 'start point of the two rows', and is provided with the wastewater flowing through the inflow port 32a of the outer barrel 32 Can be prevented from being directly discharged vertically.

By providing the prevention plate 38 between the outer cylinder 32 and the inner cylinder 36 as described above, the wastewater flowing through the inlet 32a of the outer cylinder 32 maintains the swirling flow along the prevention plate 38, The sedimentation rate of the sedimented sludge can be prevented from being reduced while preventing the decrease of the retention time of the wastewater in the slow stirring settling tank 30. [

Such a slow stirring settling tank 30 forms a coagulated floc up to about 50 탆 and not only discharges immature coagulated floc to the fiber filter 50 but also precipitates the sludge, And the sludge is discharged to the dewatering tank (40).

6, the air flowing into the slow stirring settling tank 30 together with the wastewater inflow water flows in the upper side of the wastewater inflow water (the air is lower in density than the wastewater inflow water and flows on the upper side of the wastewater inflow water) The floatation of the suspended material located on the surface is additionally performed. That is, in addition to the process in which the concentrated phosphorus and suspended solids are slowly agitated by the coagulant and separated and precipitated from the wastewater, the process of floating the suspended matter from the surface of the wastewater by the air proceeds together.

As shown in FIG. 7, the floating material on the surface of the inflow water of the wastewater which is floated by the air is discharged to the outside together with the air through the air outlet 32d formed on the upper side of the slow stirring settling tank 30 as shown in FIG. Accordingly, the separation efficiency of the phosphorus and suspended solids can be increased.

8, the high-concentration phosphorus and suspended-substance-containing wastewater treatment system according to the embodiment of the present invention to which the slow stirring settling tank 30 constructed as described above is applied comprises a storage tank 10, an in- line mixer 20, the slow stirring settling tank 30, the dewatering tank 40, the fiber filter 50 and the aeration tank 60, thereby achieving excellent phosphorus removal performance in a smaller space.

The storage tank 10 is formed at the front end of the in-line mixer 20 in order to mitigate the fluctuation of the flow rate and the phosphorus concentration at the time of inflow into the high-concentration phosphorus and suspended- do.

That is, the storage tank 10 functions to store the lowered wastewater that has been introduced for a predetermined time in order to mitigate the influence of agitation, sedimentation, and deterioration of the efficiency of the filtration process due to fluctuation of the load due to the incoming wastewater. do.

The in-line mixer 20 is formed in the in-line type in the passage between the storage tank 10 and the slow stirring settling tank 30 so as to achieve high-speed mixing of the flocculant without requiring a site. That is, the in-line mixer 20 is connected to the conventional rapid stirring tank 2 (see FIG. 1 (a)) at the rear end of the storage tank 10 in order to apply the same to inflow water, ), It is possible to reduce the space required for mixing the drug using the coagulant.

The dewatering tank 40 receives and stores the sludge generated by the precipitation from the slow stirring settling tank 30.

The fiber filter 50 is formed at the rear end of the slow stirring settling tank 30 to filter the immature flocculated floc in the slow stirring settling tank 30 and the immature flocculated floc is separated from the filtered bottom wastewater To the aeration tank (60). That is, the fiber filter 50 is formed at the rear end of the slow stirring settling tank 30, so that the coagulated floc formed in the slow stirring settling tank 30 is removed. More specifically, the fiber filter 50 has the effect of allowing complete immersion of fine agglomerated particles in the slow stirring settling tank 30 even if the agglomerated microaggregated particles do not settle out, and at the same time, the capacity of the slow stirring settling tank 30 is reduced And the like.

The fiber filter 50 has the function of being able to filter the immature cohesive flocs so that the wastewater containing high phosphorus and suspended matters is introduced into the in-line mixer 20 before being introduced into the in- Thereby reducing the amount of medicine used, thereby providing a medicine cost saving effect.

The fiber filter 50 allows the treated wastewater to flow into the aeration tank 60, thereby reducing the influent load factor of the aeration tank 60 in the entire wastewater treatment process, unlike the case of the conventional wastewater treatment plant Provides an effect. Particularly, in the case of the reflux water, since the reflux water pretreated with the air is introduced into the aeration tank 60, the influent load factor of the phosphorus and the suspended solids in the entire waste water treatment process can be greatly reduced.

Since the fiber filter 50 can be removed at a high efficiency of 90% or more even if it is only about 50 탆 based on the particle size, the slow stirring settling tank 30 can prevent the size of the coagulated floc 50 (diameter) Or less, and the capacity can be greatly reduced.

In addition, the effect of the sedimentation tank, as well as the effect of slow stirring on the slow stirring settling tank 30, together with the effect of the sedimentation tank reduces the load of the solid material flowing into the fiber filter 50, In order to further reduce the capacity of the battery.

With this configuration, when treating waste water and wastewater containing high concentrations of phosphorus and suspended matter generated in the sewage and wastewater treatment plants using a high-concentration phosphorus and wastewater treatment system, it is possible to reduce the phosphorus concentration in the effluent of the wastewater treatment plant It can be expected that the size of the in-line mixer 20, the slow stirring settling tank 30 and the fiber filter 50 can be reduced, Wastewater treatment is possible.

Although the slow stirring sedimentation tank for the wastewater treatment system according to the embodiment of the present invention as described above has been described with reference to the above description and drawings, it is to be understood that the present invention is not limited to the described embodiment and various changes and modifications within the scope of the present invention. It will be understood by those skilled in the art that changes and modifications may be made.

1: Storage tank
2: Rapid stirring tank
3: Slow stirring vessel
4: Settling basin
10: Storage tank
20: In-line mixer
30: Slow stirring sedimentation tank
32: outer tube
32a: inlet
32b: outlet
32c:
32d: air outlet
33: Guard
34: Blower for air injection
36: My heart
38: Prevention board
40: dehydration tank
50: fiber filter
60: aeration tank

Claims (5)

An outlet 32b through which the wastewater flows in, an outlet 32b for discharging any one selected from the non-precipitated fine particles and the immature cohesive flocs, an outlet (not shown) connected to the dehydrating tank 40 and discharging the precipitated sludge A cylindrical outer cylinder 32 formed on the upper side and formed with an air outlet 32d for introducing the circulated air to the outside and flowing into the slow stirring settling tank 30;
An air injection blower 34 installed at the inlet port 32a of the outer cylinder 32 to inject air into the outer cylinder 32;
An inner cylinder (36) located inside the outer cylinder (32) and formed in a cylindrical shape;
A plurality of neighboring guards 33 are spirally installed so as to have a slope set between the outer cylinder 32 and the inner cylinder 36 so that air introduced together with the wastewater through the inlet 3a of the outer cylinder 32 And a prevention plate (38) for preventing vertical discharge,
The flow rate of the wastewater is maintained at a predetermined level or more regardless of the flow rate of the wastewater flowing through the wastewater along with the flow rate of the wastewater, So that the sedimentation rate of the sludge is increased. The method according to claim 1,
Wherein the prevention plate (38) is installed in a plurality of rows in the vertical direction above the inlet (32a) between the outer cylinder (32) and the inner cylinder (36). The method according to claim 1,
Wherein the guard (33) of the prevention plate (38) has a flat surface shape in which one surface corresponds to the outer peripheral surface of the inner cylinder (36) and the other surface corresponds to the inner peripheral surface of the outer cylinder (32). The method according to claim 1,
The prevention plate (38)
A plurality of neighboring guards 33 are spirally installed between the outer cylinder 32 and the inner cylinder 36 so as to have a slope in the range of 10 ° to 20 °, So that it is possible to prevent the air introduced together with the wastewater from being discharged vertically, and to prevent a part of the wastewater and the floating material, which has grown by the floc larger than the predetermined size, from flowing downward Wherein the mixed sedimentation tank is a continuous stirred tank for a wastewater treatment system. 3. The method of claim 2,
Wherein the blocking plate (38) provided at the lowermost part of the blocking plate (38) installed in a plurality of rows is installed at a predetermined angle behind the blocking plate (38) provided immediately above the blocking plate (38).

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