KR20120044598A - Inclined plate type settling basin improving efficiency of liquid and solid separation - Google Patents

Abstract

PURPOSE: A slanted plate setting basin is provided to easily discharge coagulated materials or solid materials to the outside of the setting basin by concentratedly stacking the coagulated materials or the solid materials. CONSTITUTION: A slanted plate setting basin includes a settling section frame(10) and a slanted settling module(20). A feed water inlet(15) is formed at one wall of the settling section frame. A treated water outlet(16) is formed at opposite wall of the settling section frame. The slanted settling module is composed of a plurality of slanted plates and side plates. The slanted plates are installed inside the settling section frame. The side plates are fixed to both sides of the slanted plates. The bottom of the settling section frame is downwardly formed from the feed water inlet to the treated water outlet. A partition(100) is installed between the feed water inlet and the slanted settling module.

Description

Inclined plate settling basin improving efficiency of liquid and solid separation

The present invention relates to an inclined plate sedimentation basin which has improved solid-liquid separation efficiency, and more particularly, to facilitate the discharge of solid matter (sludge) deposited on the inclined plate sedimentation basin, and to increase the residence time of raw water to increase solid-liquid separation efficiency, Eventually, it relates to a gradient plate settler which improved the settling efficiency.

Conventional water treatment apparatus, as shown in Figure 1, after the inflow of raw water is collected, the process of mixing and flocculating the flocculant, and precipitates the aggregate or solid matter (sludge) through a large area settling, sand It consists of a structure that purifies water through filtration.

Here, when the advanced processing is required, as shown in FIG. 2, water purification may be performed through advanced processing such as oxidation (ozone) treatment or activated carbon treatment.

That is, the conventional water treatment apparatus operates by installing a sedimentation basin for depositing the solid matter by storing the treated water for a predetermined time or flowing at a low flow rate in the physical or biochemical treatment process.

In this way, when the sedimentation basin is installed and the sedimentation step is operated, the load on the turbidity in the filter paper in which the filtration step is performed is reduced. That is, no matter how well the mixing and coagulation in the mixing and coagulation step, which is the previous step, overflow without precipitation, adversely affects the filter paper.

The precipitation process is the most widely used technique of solid-liquid separation technology to remove solids in water. It is a process using the principle that particles and suspended solids having a larger specific gravity than water sink to the bottom by their own gravity and are separated.

In the conventional sedimentation process, various structures are installed in the sedimentation basin in order to increase the sedimentation efficiency, thereby shortening the sedimentation distance of the solid material. Thus, a technique for reducing the surface loading rate by reducing the sedimentation time and increasing the effective sedimentation area has been developed and applied.

For example, an inclined plate settling tank for increasing an effective settling area by installing a plurality of inclined plates that are inclined to form a predetermined angle with the bottom of a plate having the same width as the width of the settler in the settler is widely used.

However, the conventional inclined plate sedimentation basin is a problem such as density flow in which all the incoming raw water is not evenly distributed on the inclined plate, the problem of short-circuit flow that does not settle through the entire surface of each inclined plate and flows only in the central part, inflow source water and solids Depending on the flow direction of the query, the efficiency of the inflow of the incoming water is disturbed or the solid material is resuspended.

In the present invention, since the inflow of water is uniformly distributed to all inclined plates, it is possible to increase the treatment efficiency, and it is possible to increase the treatment efficiency by allowing sedimentation to occur through the entire surface of each inclined plate as well as to increase the residence time of the raw water to separate the solid-liquid. The purpose of the present invention is to provide an inclined plate settler with improved efficiency of solid-liquid separation, which further increases the efficiency of and further facilitates the external discharge of the precipitated solid material.

Inclined plate sedimentation basin to improve the solid-liquid separation efficiency according to the present invention for achieving the above object, the sedimentation zone frame is formed with a raw water inlet is formed on one wall, the treated water outlet is formed on the opposite wall; It is installed in a plurality of arrays at predetermined intervals within the settling zone frame, including a plurality of inclined sedimentation module consisting of a plurality of inclined plate is installed at a predetermined interval, and the side plates fixed to both sides of the inclined plate, the bottom surface of the settling zone frame It is formed to be inclined downward from the raw water inlet side to the treated water outlet, between the raw water inlet and the gradient settling module to increase the residence time of the incoming raw water to reduce the flow rate, characterized in that the partition is installed to increase the solid-liquid separation efficiency do.

Here, the partition wall is in close contact with, fixed to any one wall surface of the settling zone frame, the other wall surface spaced apart from a predetermined distance, and the other wall surface of the settling zone frame, fixed, fixed to any one wall surface It is preferable that the barrier ribs spaced apart from each other are formed to cross each other.

In particular, the partitions are preferably spaced apart from the bottom surface of the sedimentation zone frame, it is preferable to be sequentially spaced apart from the partitions at a close distance from the raw water inlet by a long interval with respect to the bottom surface.

In addition, it is preferable that a plurality of through holes are formed in the partition walls, more preferably, the plurality of through holes have the smallest diameter of the through hole located at an upper portion thereof, and the diameter thereof gradually increases toward the bottom of the partition walls.

As described above, according to the inclined plate sedimentation basin which improves the solid-liquid separation efficiency according to the present invention, the bottom surface of the sedimentation zone frame is formed to be inclined downward, so that aggregates or solid materials are concentrated on either side, and the outside thereof It is easy to discharge, and the flow rate of the raw water is reduced by a plurality of partitions between the raw water inlet and the gradient settling module, so that the retention time is increased, thereby improving the solid-liquid separation efficiency.

1 is a process chart showing an example of a conventional water treatment system.
2 is a process chart showing an example of a conventional water treatment system to which an advanced treatment method is applied.
Figure 3 is a perspective view of the swash plate sedimentation basin filed by the applicant of the present invention.
4 is a cross-sectional view in the width direction of FIG. 3.
5 is a longitudinal cross-sectional view of FIG. 3.
6 is a perspective view of the gradient module in FIG.
FIG. 7 is a partially enlarged cross-sectional view of the gradient settling module in FIG. 6; FIG.
8 is a perspective view of the inclined plate settler according to the present invention.
9 is a cross-sectional view of FIG. 8.
10 is a plan view of FIG. 8.
Figure 11 is a front view showing the configuration of the partitions applied to the inclined plate settler according to the present invention.

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

First, prior to describing an embodiment of the present invention, the 'slope plate settled paper' (Patent Application No. 2008-0107010) filed by the applicant of the present invention will be described with reference to FIGS.

The 'slope plate settler', which is filed by the applicant of the present invention, can increase the treatment efficiency since the inflow of water is uniformly distributed to all the inclined plates, and it is possible to increase the treatment efficiency by allowing precipitation to occur through the entire surface of each inclined plate. It comprises a settling zone frame 10 and a plurality of inclined settling module 20 is disposed and spaced apart in the settling zone frame 10.

The sedimentation zone frame 10 is formed in a box shape in which an upper surface is opened into a space in which precipitation occurs, and the bottom surface 12 and the wall surface 14 are preferably waterproofed to prevent leakage.

In addition, as shown in Figure 5, one (front side) wall surface 14 of the sedimentation zone frame 10 is provided with a raw water inlet 15 through which the raw water, which has undergone the mixing and flocculation processes, is introduced. (Rear side) The wall surface 14 is provided with a treated water outlet 16 through which the treated water from which the solid matter has been precipitated is discharged to a later process.

And, although not shown, the sludge discharge means for collecting and discharging the solid matter (sludge) (2) is settled on the bottom surface 12 of the sedimentation zone frame 10. The sludge discharge means can be carried out by applying a variety of known configurations used in conventional sedimentation basin.

4 and 5, the gradient settling module 20 is installed at intervals from the bottom surface 12 of the precipitation zone frame 10.

The horizontal support 80 for supporting the inclined sedimentation module 20 across the wall 14 facing each other of the precipitation zone frame 10 is installed at regular intervals.

Thus, the discharge of the solid matter (sludge) 2 which is precipitated by installing the inclined sedimentation module 20 at intervals from the bottom surface 12 is effectively performed toward the bottom surface 12.

5 and 7, the gradient settling module 20 has a wall surface 14 (or a wall surface 14 on which the treated water discharge water 16 is installed) on which the raw water inlet 15 of the precipitation zone frame 10 is installed. The width of the cross section parallel to and divided by a predetermined interval, a plurality of are arranged and arranged. For example, the inclined sedimentation module 20 is installed 2 to 10 in the width direction of the precipitation zone frame 10 is arranged at a predetermined interval.

The inclined sedimentation module 20 is formed to extend in a direction perpendicular to the wall surface 14 (or wall surface 14 on which the treated water outlet 16 is installed) on which the raw water inlet 15 of the precipitation zone frame 10 is installed. Is installed. For example, the inclined sedimentation module 20 is installed to be formed long to a length corresponding to the length of the precipitation zone frame (10).

6 and 7, the inclined sedimentation module 20 has a plurality of inclined plates 22 arranged and installed at regular intervals, and a pair of closing and closing both side surfaces of the inclined plates 22. It consists of a side plate 24.

Here, the inclined plate 22 is installed in an inclined state with respect to the water surface, and the upper end thereof is inclined in a direction away from the raw water inlet 15.

At this time, the inclined plate 22 is preferably inclined at an inclination angle of 45 to 75 degrees with the water, and more preferably inclined at an inclination angle of the water and 60 degrees.

In other words, when the angle formed by the inclined plate 22 is too small, the settling area in contact with the raw water is increased while the discharge of solid material (sludge) is not smoothly performed. When the angle formed by the water surface is too large, the solid The discharge of the material (sludge) is smooth, but because there is a problem that the sedimentation area in contact with the raw water is reduced, it is preferable to be inclined at an inclination angle of about 60 degrees with the water surface.

The inclined plate 22 is arranged to be arranged in parallel with each other at a predetermined interval (30 ~ 80mm).

On the other hand, the pair of side plates 24 together with the inclined plate positioned in the foremost and the rearmost inclined plate 22 of the inclined plate 22 forms the edge of the inclined sedimentation module 20.

Here, the inclined plate 22 is supported by both edges are fixed to the side plate 24, the upper and lower surfaces corresponding to the gap between the inclined plate 22 and the inclined plate 22 is formed in an open state so that raw water and treated water It is configured to flow freely.

Therefore, both side surfaces corresponding to the gap between the inclined plate 22 and the inclined plate 22 are configured to be closed by the side plate 24.

The lower end of the side plate 24 is formed with a plurality of inlet holes 25 for introducing raw water at intervals corresponding to the interval of the inclined plate 22, this inlet hole 25 is a variety of circular, oval, square, etc. It is possible to be formed in a shape, it is also possible to be formed in a slit shape.

Thus, when the inflow hole 25 is formed in the lower end part of the side plate 24, raw water does not flow only into the lower surface of each inclination plate 22, but also flows in from the side surface, and a density flow, a short circuit flow, etc. It is possible to be minimized, and equal distribution of raw water is achieved.

On the other hand, reference numeral 30 denotes a diffusion protrusion for applying the water-flow friction resistance so that the treated water that is upflow is evenly distributed over the entire width of the inclined plate 22, and 28 denotes that the raw water flows upward over the inclined plate 22. In order to prevent that the side plate 24 and front and rear inclined plate 22 is connected to the upper portion of the anti-overflow border is installed, 50 shows a treated water collector for collecting the treated water.

Referring to the operation relationship of the inclined plate sedimentation basin consisting of the above configuration as follows. For reference, in FIG. 7, the solid arrow indicates the flow direction of raw or treated water, and the dotted arrow indicates the flow direction of the solid material (sludge).

First, since raw water is introduced through the raw water inlet 15 and the treated water is discharged through the treated water outlet 16, the overall flow is formed from the raw water inlet 15 toward the treated water outlet 16, and each inclined plate 22. ) Forms an upflow.

The raw water introduced through the raw water inlet 15 is introduced into the inclined sedimentation module 20 through the inlet hole 25 formed in the open bottom and the side plate 24 of the inclined sedimentation module 20, and each Flow is formed upward along the inclined plate 22.

As such, the solid material (sludge) included in the raw water forming a flow upward along the inclined plate 22 is precipitated on the front surface of the inclined plate 22 while descending by its own weight, and again descends along the inclined plate 22 to the bottom. Stacked on face 12.

Then, the treated water from which the solid matter (sludge) is precipitated and removed is discharged to a later process through the treated water outlet 16.

However, in the case of the inclined plate sedimentation basin made of the above configuration, the bottom surface 12 of the sedimentation zone frame 10 consists of a horizontal plane, and collects solid materials accumulated on the bottom surface of the precipitation zone frame 10 to the outside. There was a problem that is difficult to discharge.

In addition, since there is no structure between the raw water inlet 15 and the gradient settling module 20, raw water passing through the raw water inlet 15 is immediately processed along the inclined plate 22 of the gradient settling module 20. Discharge into the water outlet 16, there is also a problem that the sedimentation efficiency is not good, such as insufficient solid-liquid separation.

Accordingly, the present invention is formed to be inclined by a predetermined angle to the bottom surface 12 of the precipitation zone frame 10 to solve the above problems, downward toward the treated water outlet 16 from the raw water inlet 15 side. It is formed to be inclined so that the solid material (sludge) separated from the solid-liquid is collected on one side, thereby facilitating the external discharge of the solid material.

In addition, between the raw water inlet 15 and the gradient settling module 20 to reduce the flow rate of the raw water, and to install the partition walls 100 to increase the residence time to increase the solid-liquid separation efficiency.

8 is a perspective view schematically showing the configuration of the inclined plate sedimentation basin according to the present invention, FIG. 9 is a cross-sectional view of FIG. 8, and FIG. 10 is a plan view of FIG. 8.

In addition, Figure 11 is a front view showing the configuration of the partition wall applied to the inclined plate settler according to the present invention.

First, as shown in Figures 8 to 10, the inclined plate sedimentation basin to improve the solid-liquid separation efficiency according to the present invention, the raw water inlet 15 is formed on one wall 14, the treated water on the opposite wall 14 And a settling zone frame 10 in which the outlet 16 is formed.

Here, the bottom surface 12 of the sedimentation zone frame 10 is formed to be inclined in one direction, and in particular, is formed to be inclined downward from the raw water inlet 15 toward the treated water outlet 16.

In addition, the present invention is to be installed in a plurality of arrays at regular intervals within the settling zone frame 10, a plurality of inclined plate 22 is installed at a predetermined interval, and the side plate 24 fixed to both sides of the inclined plate 22 It comprises a gradient settling module 20 configured as.

Between the raw water inlet 15 and the inclined sedimentation module 20, the partition wall 100 is installed to increase the residence time of the incoming raw water to reduce the flow rate and increase the solid-liquid separation efficiency, the partition 100 Silver, closely adhered to one wall surface of the precipitation zone frame 10, the partition walls (100a, 100c) spaced at a predetermined distance from the other wall surface, and close to the other wall surface of the precipitation zone frame 10, The barrier ribs 100b and 100d that are fixed and spaced apart from each other by a predetermined interval are formed to cross each other.

These barrier ribs 100 are installed at a predetermined distance from the bottom surface 12 of the precipitation zone frame 10, and the bottom surface 12 from the barrier rib 100a which is close to the raw water inlet 15. It is installed spaced sequentially by a long interval.

On the other hand, the partitions 100 are formed with a plurality of through holes 102, the plurality of through holes 102 are the smallest diameter of the through hole located in the upper portion, the diameter is gradually larger toward the bottom Is formed.

Referring to the operation relationship of the gradient plate settler improved the solid-liquid separation efficiency consisting of the above configuration as follows.

First, the raw water introduced through the raw water inlet 15, while hitting the partition wall 100a closest to the raw water inlet 15, among the partitions 100 installed between the raw water inlet 15 and the gradient settling module 20. The flow rate will be reduced.

At this time, the larger the diameter of the aggregate or solid material does not pass through the small size of the hole formed in the upper side of the partition wall (100a) will fall down. That is, the partition wall (100a) is formed through the through hole is gradually larger in diameter, the larger the diameter of the aggregate or solid material is passed through only the through hole size that can pass through gradually falling down, the partition wall (100a) Agglomerates or solids that do not pass through large-sized through holes formed in the lower portion of the partition wall (100a) will pass through.

Therefore, the aggregate or solid substance is subjected to resistance by the partition wall 100a closest to the raw water inlet 15, whereby the flow rate of the raw water is lowered as a whole, and the storage time is increased.

As such, when passing through the partition wall 100a at the position closest to the raw water inlet 15, as shown in FIG. 10, the second, third, and fourth partition walls 100b, 100c, and 100d formed in a zigzag pattern are shown. They will pass through them sequentially, again slowing the flow rate of the raw water and also increase the retention time.

Here, the second, third, third partitions (100b, 100c, 100d) also through the hole 102 that is gradually larger in diameter from the top, similar to the partition wall (100a) that is closest to the raw water inlet 15 As it is formed, the flocculant or solid substance falls down while being subjected to frictional resistance.

In addition, the partition walls 100b, 100c, and 100d gradually moving away from the partition wall 100a at a close distance from the raw water inlet 15 are gradually formed to have a length toward the bottom surface 12, whereby the partition walls 100 are formed. Falling aggregates or solids (2) is naturally guided to the bottom surface (12) before being guided to the inclined plate 22 of the gradient settling module 20 is stacked.

In particular, the bottom surface 12 is formed to be inclined downward from the raw water inlet 15 toward the treated water outlet 16, the bottom surface close to the treated water outlet 16 to maintain the lowest position, the treated water The most aggregates or solids (2) is accumulated on the bottom surface in a vertical line close to the outlet 16 to facilitate the discharge of the precipitate to the outside.

Therefore, less aggregates or solid materials are induced and flow into the inclined plate 22 of the inclined sedimentation module 20, so that the settling load of the inclined plate 22 is reduced and the overall solid-liquid separation efficiency is improved. Will be increased.

Technical ideas described in the embodiments of the present invention as described above may be implemented independently, or may be implemented in combination with each other. In addition, the present invention has been described through the embodiments described in the drawings and the detailed description of the invention, which is merely exemplary, and those skilled in the art to which the present invention pertains have various modifications and equivalent other embodiments. It is possible. Accordingly, the technical scope of the present invention should be determined by the appended claims.

10: slope settled frame 12: the bottom surface
15: raw water inlet 16: treated water outlet
20: gradient settling module 100 (100a, 100b, 100c, 100d): partition wall
102: through

Claims (5)

A sedimentation zone frame having a raw water inlet on one wall and a treated water outlet on the opposite wall;
It is installed in a plurality of arrays at predetermined intervals within the settling zone frame, and includes a slope settled module consisting of a plurality of inclined plate installed at a predetermined interval, and side plates fixed to both sides of the inclined plate,
The bottom surface of the precipitation zone frame is formed to be inclined downward from the raw water inlet side toward the treated water outlet,
Inclined plate settling plate for improving the solid-liquid separation efficiency, characterized in that the partition between the raw water inlet and the gradient settling module to increase the residence time of the incoming raw water to reduce the flow rate, increase the solid-liquid separation efficiency.
The method of claim 1,
Wherein,
Partition walls closely adhered to and fixed to one wall of the precipitation zone frame and spaced apart from the other wall by a predetermined interval;
The inclined plate settling paper for improving the solid-liquid separation efficiency, characterized in that the partition wall is fixed, fixed to the other wall surface of the settling zone frame, spaced apart from each other by a predetermined interval.
The method of claim 2,
The partitions are installed at a predetermined interval from the bottom surface of the sedimentation zone frame, and the solid-liquid separation efficiency characterized in that they are sequentially spaced apart from the partitions at a close distance from the raw water inlet by a long interval with respect to the bottom surface. Inclined Plate Sedimentation to improve.
The method according to any one of claims 1 to 3,
Slope plate settler for improving the solid-liquid separation efficiency, characterized in that a plurality of through holes formed in the partitions.
The method of claim 4, wherein
The plurality of through holes are inclined plate settling plate for improving the solid-liquid separation efficiency, characterized in that the diameter of the hole is located at the top is the smallest, gradually down the diameter.

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