KR810000527B1 - Apparatus for settling suspension - Google Patents

Abstract

a cohesive settlement in the suspension is carried out simultaneously and continuously by the gravitation and contact sedimentation; a plurality of the settlement introducing plates have a paralled position to the flow of the suspension in the sedimentation basin and are composed of a same figure of wave-form; one concave part of mutually adjacent settlement separating flute is set to another convex part of that through the settlement introducing plates; the wide gap and narrow gap of the settlement separating flutes are continual by turns, and the cohesive settlement and the contact settlement are settled by turns and continuously.

Description

Suspension settler

The following figure shows an embodiment of the present invention,

1 is a longitudinal sectional view of a horizontal flow sedimentation device.

2 is a perspective view of the settling guide plate group.

3 is an enlarged longitudinal sectional view of the sedimentation separation groove.

4A and 4B are longitudinal cross-sectional views of a guide plate group constituted by corrugated plates each having a cross section in which semi-hexagonal and semicircular uneven surfaces are continuous;

5 is a perspective view of the inclined guide plate used in the inclined countercurrent sedimentation device.

The present invention relates to a suspension precipitation apparatus characterized by continuously performing gravity precipitation and contact precipitation of agglomerated precipitates in a suspension.

In general, in order to precipitate the suspension and to extract the clarification liquid, a flocculant and a suspension are mixed to form a flocculated precipitate that is easy to settle with a large particle diameter, and clarification and sedimentation are carried out at the sedimentation basin. This sedimentation basin is called flocculation settler.

The sedimentation basins used for flocculation sedimentation are classified into two types, the first of which is a rapidly admixture which rapidly stirs the flocculant and the suspension, and a floc which performs the slow stirring to grow the flocculation sediment. The horizontal flow type sedimentation basin which gravity-sediments the part of the formation site and the subsequent flocculation sediment and separates it with the clean liquid is horizontal represented by the so-called cross-flow sedimentation basin which comprises a series of independent installations. Ryu sedimentation basin. The second is the so-called contact sedimentation basin, which contains the coagulum sediment already present in the sedimentation basin and the newly introduced suspension and flocculant in the same sedimentation basin, which are mainly stirred by a mechanical mechanism, and which promote the growth of precipitates which are easier to settle with a larger particle diameter than the former. Also called sedimentation basin, forced sedimentation, etc.).

In general, when comparing the two, there is a difference in the sedimentation rate of the flocculation sediment, and the former requires 4-8 hours for the precipitation because the flocculation sediment is relatively small particle size and the sedimentation rate is slow, while the latter is the Since it is a larger particle size that is easier to settle than the former, it ends in a short time of 1 to 2 hours to settle, and ultimately, the capacity of the settler becomes very different.

The horizontal flow sedimentation basin is inclined plate in the horizontal flow sedimentation basin because its capacity is large as described above, and thus the maintenance thereof is easier than that of the contact sedimentation basin, although it has the drawback that the equipment cost and facility site become excessive. In order to reduce the capacity and reduce the equipment cost by providing an inclined tube, the efficiency has been attempted.

The present invention relates to an improvement of a precipitation apparatus that continuously performs gravity precipitation and contact precipitation of agglomerated sediment simultaneously. A plurality of sedimentation guide plates of agglomerated precipitate are arranged in parallel in the direction of the flow of the suspension, and the agglomerated precipitate is disposed along the sedimentation guide plate. In the sedimentation apparatus for dropping, first, the sedimentation guide plate is formed into a corrugated plate having the same cross-section in the same shape and a plurality of semicircular or semi-polygonal convex surfaces of the same size in succession. By arranging the rear faces of the plurality of sedimentation guide plates formed together symmetrically, and mutually arranging the sedimentation guide plates vertically, the sedimentation separation of a plurality of uniquely shaped flocculation sediments by each adjacent sedimentation guide plate. Configure your home.

The sedimentation separation groove is formed as a sedimentation separation groove of a plurality of elongated flocculated sediments having the same shape in cross section and of the same size circular or polygonal shape, and at the same time, the sedimentation separation groove adjacent to each other with a sedimentation guide plate therebetween. One circular or polygonal rear face () [or) (part) of the side is configured to be equal to the rear face ([] or () part) of the other sedimentation separation groove. The end portions are interconnected and continuously connected in a chain in the vertical direction to form a plurality of longitudinal passages, and a suspension solution including agglomerated sediments in parallel according to the sedimentation separation grooves configured as described above. And the gravity settling of the flocculation sediment by the wide part of the sedimentation separation groove in each passage and the contact precipitation of the flocculation sediment by the part with the narrow gap alternately and successively It is one wherein the.

Hereinafter, one example of an embodiment of the present invention will be described in detail with reference to the drawings. First, the treatment process in the case of using the sedimentation apparatus of the present invention will be briefly described by way of an example of a horizontal flow sedimentation basin. The raw water is supplied to the raw water collection tank 1 through a channel or a canal, and flows into the sedimentation basin 3 through the hole of the rectifying wall 2.

The suspension containing the flocculated sediment flows into the horizontal flow state (indicated by the solid arrows) in the sedimentation guide plate group 4 installed in the sedimentation basin 3, and the flocculated precipitate is in the sedimentation guide plate group 4. Gravity sedimentation and contact sedimentation cause sedimentation (indicated by the dotted arrows below), and clarification water is treated first in the treatment collection (5) and flows out of the sedimentation basin by pipelines or waterways.

In addition, since the precipitated flocculated sediment precipitates at the bottom inside the sedimentation basin 3, the sediment deposited sediment is properly discharged out of the sedimentation basin 3. Although the treatment process of the precipitation apparatus of this invention is as above, the structure of a precipitation apparatus, especially the structure of the sedimentation guide plate group 4 is demonstrated.

As the precipitation apparatus, the sedimentation guide plate 6 of the flocculated precipitate is formed into a corrugated plate, and a large number of them are arranged in parallel in the direction of the flow of the suspension to form the settling guide plate group 4, but as the precipitation apparatus material, Anything can be used.

In addition, if one example of the settling guide plate 6 is described, the shape of the settling guide plate 6 may be formed into a corrugated plate having the same cross-section of the plate and a plurality of semicircular fins of the same size in succession, as shown in FIG. In addition, as shown in FIG. 4A, the cross section of the plate may be formed into a corrugated plate having a plurality of convex, rectangular shapes having the same shape and the same size in succession. In addition, the cross section of the sedimentation guide plate 6 is not limited to a semicircle, but may be elliptical, in other words, it may be a semi-circular shaped wave shaped plate, and the cross section is not limited to a semi-hexagonal shape, but may also be a semi-octagonal shape. What is necessary is just a wave-shaped board of the semi-polygonal shape.

The plurality of sedimentation guide plates 6 formed in this manner are arranged symmetrically with each other as shown in FIGS. 2 and 4, and adjacent to each other, and arranged vertically in parallel to each other. 6) constitutes a settling separation groove 8 of a plurality of elongated flocculent sediments, and at the same time the cross section of the settling separation groove 8 is of the same shape and of the same size circular or polygonal shape, e. It is shaped like a hexagon, as in Fig. 4a, or it is circular as in Fig. 4b.

Further, the circular or polygonal rear surface of one of the sedimentation separating grooves 8 adjacent to the sedimentation guide plate 6 is configured to be equal to the rear surface of the other sedimentation separating grooves 8, and as described above. The ends of each of the sedimentation separating grooves 8 formed in the shape are connected to each other and continuously connected in a chain in the vertical direction to form a longitudinal passage.

Although the sedimentation guide plate 6 may be molded as one sheet, it is reasonable to manufacture, but it is also possible to form the whole as a combination of small pieces.

The material of the sedimentation guide plate 6 including the support bolt 7 is metal, synthetic resin, their multilayer material, and it is also possible to use them by selecting them.

As shown in FIG. 2, each of the sedimentation guide plates 6 is symmetrical to each other, more closely parallel to the rear surface of each of the sedimentation guide plates 6 by inserting a plurality of support bolts 7 at the upper and lower ends thereof. In addition, the settling guide plate 6 is arranged vertically, and the shape of the settling separation groove 8 described above is also appropriately determined to constitute the settling guide group 4.

In addition, as a method of holding the space | interval of a sedimentation guide plate, the support bolt is one example, In addition, the arbitrary arbitrary methods can be taken, such as fixing by interposing an insert partly between adjacent sedimentation guide plates. Therefore, each of the sedimentation separating grooves 8 is formed in the vertical long continuous passage in the vertical chain in communication with the other sedimentation separating grooves 8 at the top and bottom, as described above, but moreover the communication The sedimentation separating grooves 8 are arranged symmetrically with respect to the rear faces of the sedimentation guide plates 6 formed of corrugated plates, so that the sedimentation separating grooves 8 adjacent to each other with the sedimentation guide plate 6 interposed therebetween are shown in FIG. And as shown in FIG. 4, the back surface of one circular or polygonal face is exactly matched with the rear surface of the other circular or polygonal face.

Each of the settling separation grooves 8 is constituted as described above, so that each settling separation groove 8 constituted by the settling guide plate 6 of the corrugated plate, as shown in FIGS. 2, 3 and 4, has its gap. Has a wide portion (A), that is, a gap (D ₁ ) and a narrow portion (B), that is, a gap (D ₂ ), so that the passage formed by the settling separation groove (8) communicates with this gap (D ₁ ). and (D ₂₎ in series with wareul shift it will have a configuration which is a combination.

While the aggregated sediment falls through the communication passage of the sedimentation separation groove 8, the thick narrow of the gap of each sedimentation separation groove 8 repeats the thickening of the sediment concentration. On the other hand, in the narrow portion B of the gap, a phenomenon such as entrainment of the suspension accompanying the dropping of the flocculating precipitate or movement from the lower end to the top of the suspension of the flocculating flocculating volume and the same volume is accompanied. Compared to the rectified state of the wide portion A, the vigorous mixing of the suspension with the turbulent flow of the water stream and the aggregated precipitate occurs.

That is, the mixed flow of the suspension and the flocculated sediment has a thickening and sedimentation of horizontal flow due to the rectifying action of the sedimentation separating groove 8, which is a gap partitioned by the sedimentation guide tube 6, in a wide gap A. In the narrow portion (B), turbulent conditions including the up and down streams of the precipitate and the suspension, and contact precipitation due to the high concentration of the flocculated precipitate occur.

Therefore, the precipitated flocculated sediment repeats the contact sedimentation in order to increase the particle size, settling velocity is high, and complete sedimentation is possible.

As a result, the sedimentation separation of the flocculated sediment can be effectively performed even in a small sedimentation apparatus, so that it is possible to obtain sufficiently clarified treated water.

As the use of the flocculation sedimentation apparatus of the present invention, it can be installed in all flocculation sedimentation apparatuses such as a water supply facility, a sewage facility, plant water, and plant drainage.

The suspension containing the flocculated precipitate flows horizontally in the settling guide plate group 4 as indicated by the solid arrows in FIG. 2, ie, flows in parallel to the settling separation grooves 8 of the individual settling guide plates 6. On the other hand, however, the flocculated sediment falls along the passage of the settling guide plate group 4 at right angles to the flow of raw water, as indicated by the dotted arrows.

The function of sedimentation separation of agglomerated sediment in the interior of the sedimentation guide plate 4 group is as follows.

The suspension and the flocculated precipitate enter the settling separation groove 8 of the settling guide plate 6 in a horizontal flow in a mixed state.

As shown in the enlarged view of the sedimentation separating groove 8 of FIG. 3, the flocculated sediment is properly scattered to occupy individual positions, and settles at each sedimentation speed as indicated by the dotted line, and the separation separating groove 8 It reaches the slope below, and the clearance gap of the sedimentation separating groove 8 gathers in the narrow part B according to the slope, and falls below it. In the steady state of sedimentation separation in the sedimentation separation groove 8, the flocculation which settles when a certain concentration of suspension passes a certain length L in the transverse direction along the sedimentation separation groove 8 The amount of precipitate can be assumed to be a constant weight (G).

에 비례하고, 좁은 부분(B)의 농도는

에 비례한다.Therefore, the aggregate sediment concentration in the wide part A is

Proportional to the concentration of the narrow portion (B)

Proportional to

로 되고, 즉, 간극이 넓은 부분(A)에서는 응집 침전물 농도는 희박하고, 좁은 부분(B)에서는 길고 그 농도비는

에 비례하게 된다.Since D ₁ ＞ D ₂

That is, in the wide portion A, the aggregate sediment concentration is lean, in the narrow portion B, the concentration is long and the concentration ratio is

Will be proportional to

In the next settling separation groove 8 at the lower end, the flocculation sediment falling from the settling separation groove 8 at the upper end merges with the flocculation sediment already located in the settling separation groove 8 at the lower end, whereby the concentration is increased. While repeating the above operation, it moves to the sedimentation separation groove 8 at the bottom in sequence and finally reaches the lowest end of the sedimentation separation groove 8, falls from the settling guide plate group 4, and is deposited under the sedimentation device.

Although the shape of the sedimentation guide plate 6 and the shape of the sedimentation separating groove 8 in which the symmetrical arrangement thereof has been described above, the sedimentation separating grooves 8 need to be arranged in parallel to each other and the sedimentation separating groove 8 Regarding wide part (A) in), 20-200 mm for the dimension of D ₁ , 3-80 mm for the dimension of the gap D ₂ of the narrow part (B), and the ratio of the dimensions of the wide narrow D ₂ / for D ₁ it is preferable to be a range of 1 / 2-1 / 20.

However, the shape and size of the sedimentation guide plate 6 and the sedimentation separating groove 8 constituting it, and the mutual gap between the sedimentation guide plate 6, that is, any of D ₁ and D _{2 in} the sedimentation separating groove 8. In addition, it is closely related to the properties of the suspension and the flocculated precipitate, and it is difficult to define uniformly.

Especially for D ₂ , it is important to take sufficient clearance for sedimentation in accordance with the viscosity of the flocculation sediment, while widening the gap is safe, but it causes a decrease in the efficiency of the contact reaction. In each case of the case, a decision must be made.

The experimental example of the bench scale experiment apparatus of the concentration of agglomerated deposits in the gaps D ₁ and D ₂ of the sedimentation separating grooves 8 constituted by the sedimentation guide plate group 4 is shown in the first table.

TABLE 1

Concentrations in D ₁ and D ₂

Experiment apparatus specification

×10m 체류시간 30분간Settling separation groove dimension

× 10m residence time 30 minutes

Flow rate 0.107㎥ / h per channel of sedimentation separation groove

According to the first table, since the concentration 110.8-427.2ppm is approximately equivalent to the concentration of the slurry concentration 300-3000p.pm contact clarifier which is a normal operation of the D ₂ after the top in 10, that the effect of the contact precipitate Is fully demonstrated.

Moreover, the example of the operation result of the implementation apparatus compared with the settling guide plate group of this invention and the inclination plate of a well-known technique in a horizontal flow settling battery is shown in a 2nd table | surface.

TABLE 2

Operation Result of Sedimentation Guide Plate and Slope Plate

Implementation specification

Flock forming paper (two steps of floc curator parts)

× 2.54m 길이 × 3.5m 높이Horizontal accumulator 1.94m

× 2.54m length × 3.5m height

Sedimentation guide plate D ₁ = 50mm D ₂ = 10mm

30 steps 2.27㎥

Inclined Plate Spacing 50mm 60 ° Incline

3-stage 2.27㎥

각각 6.75㎥/h

6.75㎥ / h each

각각 20분

20 minutes each

Coagulant Alumina Sulfate 15p.p.m.-20p.p.m. adding

According to the second table, the sedimentation guide plate group of the present invention shows excellent results in treatment turbidity and removal rate as compared with the inclined plates of the same volume installed in the horizontal flow settling battery.

This demonstrates the synergistic effect of the combination of gravity sedimentation and contact precipitation in the horizontal flow of the present invention.

Similarly, from the settling efficiency of the flocculated sediment, the size of the sedimentation guide plate 6 provided in the place where there are many flocculated sediments on the upstream side is increased even in the same settling device, It is also possible to use the shaping | molding of the fin of 6) small.

If the object to be treated is the same as the suspended solids, the difference in specific gravity with the suspended solids in the liquid is completely reversed, and since the suspended solids are light, the functions are completely reversed. The present invention can also be applied to such floating separation.

In addition, although the present invention has been described using a horizontal flow settling device as an example, the present invention can also be applied to an inclined countercurrent settling device.

Gradient backflow sedimentation is formed by forming each sedimentation separation groove 8 formed by the arrangement of the sedimentation guide plates 6 as shown in FIG. 5, so that the raw water containing the flocculated sediment is settled like a solid line. As the sedimentation separation grooves 8 inclined downward from the group 4 flow upwardly obliquely, while the flocculated sediment falls vertically, the sedimentation separation grooves having a polygonal cross section as shown in FIG. It will drop the continuous channel of 8). Thus, flocculation precipitates promote floc growth because they repeatedly collide with each other on the inclined surface of the sedimentation separation groove 8.

In this oblique countercurrent sedimentation, it goes without saying that the effect of gravity settling in the wide gap A and the narrow portion B in the same way as in the case of horizontal flow sedimentation does not change at all. In short, the present invention enables not only horizontal flow sedimentation but also application to upstream sedimentation and contact sedimentation.

In the case of application to contact precipitation, the plate group is installed in the supernatant, the submerged in the slurry zone or the sludge blanket, the supernatant and the slurry zone, or Sludge blankets are installed over each other, and in any case, the sedimentation separation function can be improved.

Claims (1)

In the precipitation apparatus in which the sedimentation guide plate 6 of the flocculated sediment is arranged in parallel in the direction in which the suspension flows, and the flocculation sediment is dropped along the sedimentation guide plate 6, the sedimentation guide plate 6 is formed in the same shape. The sheet is formed into a corrugated plate having a series of semi-circular or semi-polygonal shapes of the same size and sedimented at the same time by arranging the convex surfaces of the formed sedimentation guide plates 6 symmetrically. By arranging the guide plates 6 in parallel and vertically in close proximity to each other, the sedimentation separating grooves 8 of a plurality of elongated flocculated sediments having the same shape in cross section and circular or polygonal shapes of the same size are formed by the adjacent sedimentation guide plates. ) And at the same time so that the rear surface of one of the sedimentation separation grooves 8 adjacent to each other and the rear surface of the other sedimentation separation groove 8 are aligned with the sedimentation guide plate therebetween. At the same time, the ends of each sedimentation separating grooves 8 are interconnected to form a longitudinal passage connected continuously in a vertical chain, and the suspension guide plate 6 is formed along the transverse sedimentation separating grooves. And the contact sedimentation of the flocculation sediment by the wide part of the sedimentation separation groove 8 in the passage and the contact sedimentation of the flocculation sediment by the narrow part of the gap are successively carried out. Suspension settling device, characterized in that.

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