JP6508293B1 - Settling tank - Google Patents

Abstract

PROBLEM TO BE SOLVED: To remove sediment from a plate for changing the flow direction of water flowing out of a feed well, and further, to provide a settling tank having a uniform flow of center well outflow water and excellent sludge separation efficiency. provide. SOLUTION: Raw water supplied from the center well 2 in the central part of a tank body 1 to the lower part in the tank body rises in the tank body 1, and becomes clear water from an overflow portion at the upper part of the tank body 1. In the sedimentation tank which is provided with a plate 4 for changing the flow direction of the water facing the lower end of the center well 2; The settling tank characterized by having provided the nozzle part 5a which discharges the blowing water for run-off. [Selected figure] Figure 1

Description

  The present invention relates to a settling tank for settling and separating sludge, and more particularly to a settling tank having a center well and a plate facing the lower end of the center well.

  Conventionally, in activated sludge treatment facilities, coagulation sedimentation treatment facilities, etc., sedimentation separation using a solid-liquid separation tank (precipitation tank) is generally used as a means for separating the sludge mixed liquid (coagulation treatment liquid) into treated water and sludge. It is adopted. In this sedimentation separation, a sludge zone (sludge blanket layer) is formed in the sedimentation tank in order to efficiently remove suspended solids and fine SS in the sludge mixed liquid to obtain good treated water, and The sludge blanket filtration system is used to filter and separate suspended solids and fine SS in the sludge mixed solution by passing the sludge mixed solution from the lower part of this sludge zone through the feed well and passing through the sludge zone. There is.

  It is known that a plate is provided horizontally as opposed to the lower end of the center well in the central portion of the tank body as a center well type settling tank, and the flow direction of the effluent water from the center well is changed in the radial direction. (Japanese Unexamined Patent Publication No. 2005-66533).

  In order to prevent the deposition of sludge on the plate, Japanese Patent Application Laid-Open No. 10-165714 describes that a conical plate is provided instead of the horizontal plate. Japanese Patent Application Laid-Open No. 2007-69189 describes that a rotary rake is provided to scrape the deposited sludge by rotating along the upper surface of the plate.

JP 10-165714 A JP 2005-66533 A JP 2007-69189 A

  As in JP 2005-66533A, when the plate is horizontal, the action of changing the flow direction of water from the center well to the horizontal direction is excellent, but sludge near the center of the plate It becomes easy to accumulate. That is, in the vicinity of the center of the plate, since the flow velocity in the circumferential direction is small, sludge tends to be deposited.

  When the plate is conical as in JP-A-10-165714, sludge is less likely to be deposited on the plate. However, if the plate is made conical, the action of changing the flow direction of water from the center well to the horizontal direction is weak.

  When a rotary rake rotating along the upper surface of the plate is provided as in Japanese Patent Application Laid-Open No. 2007-69189, uniform radial flow may be hindered by the rotary rake.

  The present invention is capable of removing deposits from the plate for changing the flow direction of the water flowing out of the feed well, yet having a uniform flow of water from the center well, and having excellent sludge separation efficiency. Intended to provide.

  In the sedimentation tank of the present invention, the raw water supplied from the center well at the central part of the tank body to the lower part in the tank body ascends inside the tank body and flows out as clear water from the overflow part in the upper part of the tank body A settling tank provided with a plate for changing the flow direction of the water facing the lower end of the center well, the blowout water for sludge flow-off toward the center of the plate It is characterized in that a nozzle for discharging the ink is provided.

  In one aspect of the present invention, the nozzle is a nozzle portion connected to the lower portion of the blow pipe extending along the center well.

  In one aspect of the present invention, the nozzle portion extends 40 to 90 ° downward or vertically to the center side of the plate.

  In one aspect of the present invention, the lower end of the nozzle portion is positioned at the same level as or higher than the lower end of the center well.

  In the settling tank of the present invention, by discharging the blow water from the nozzle, the sludge is prevented from being deposited on the plate. In the present invention, since there is no rake rotating on the plate and the treated water smoothly flows out radially between the center well and the plate, the sludge is efficiently eliminated and the deposition on the plate is suppressed. Be done.

It is a longitudinal cross-sectional view of the sedimentation tank which concerns on embodiment. It is an enlarged view of the center well lower end vicinity of the sedimentation tank of FIG. It is a perspective view of the center well lower end vicinity of the sedimentation tank of FIG.

  Hereinafter, embodiments will be described with reference to the drawings. 1 to 3 show a coagulating and settling apparatus having a settling tank according to an embodiment.

  In the sedimentation tank according to this embodiment, the tank body 1 is circular, and the center well 2 is installed at the central portion of the tank body 1. The center well 2 is in the form of a cylinder whose upper and lower ends are open, and its upper end projects above the water surface position in the tank body 1. A center well upper 3 larger in diameter than the center well 2 is provided on the top of the center well 2. The bottom surface 3 a of the center well upper 3 is connected to the upper outer peripheral surface of the center well 2.

  Opposite to the lower end of the center well 2 is provided a plate 4 commonly referred to as a flat baffle for converting the flow direction of the raw water from the center well 2 from the downward direction to the radial direction. In this embodiment, the plate 4 is in the form of a horizontal disk. The plate 4 is positioned a predetermined distance below the lower end of the center well 2 to form a raw water outlet (for example, about 20 to 150 mm). The plate 4 and the center well 2 are coaxially arranged.

  A rake shaft 10, which will be described later, passes through the central portion of the plate 4, and the plate 4 is abutted and supported by the rake shaft 10. However, the plate 4 may be supported by the center well 2 via a support member (not shown).

  A blow pipe 5 is provided to discharge blow water toward the center of the plate 4 so as to allow sludge to flow from above the plate 4.

  In this embodiment, the blow piping 5 is supported by the center well 2 and extends vertically along the inner peripheral surface of the center well 2. The blow piping 5 may be in contact with the inner peripheral surface of the center well 2 or may be slightly separated from the inner peripheral surface.

The lower portion of the blow pipe 5 is turned obliquely downward toward the center of the plate 4 to form a nozzle portion 5a. However, the direction may be changed in the horizontal direction toward the vicinity of the center of the plate 4 to be the nozzle portion 5a. The lower end of the nozzle portion 5a is located at the same level as or lower than the lower end of the center well 2 (for example, within 100 mm, particularly within 50 mm).
If the lower end of the nozzle portion 5a is lower than the lower end of the center well 2, the flow of the raw water discharged from the raw water outlet into the tank is obstructed to affect the uniform flow in the radial direction. On the other hand, when the lower end of the nozzle portion 5a is too high, the discharge flow rate of the blow water for removing the sludge on the plate 4 increases, and the uniform flow in the radial direction is also likely to be inhibited.

  The angle θ of the nozzle portion 5a with respect to the horizontal plane is preferably 40 to 90 °, particularly 45 to 60 °. If the angle θ is smaller than 40 °, the flow in the horizontal direction becomes strong, the flow in the radial direction from the plate 4 tends to be uneven, and it becomes difficult to uniformly discharge the sludge. On the other hand, as the angle θ becomes larger, it is necessary to bring the lower end of the nozzle closer to the shaft, which makes it difficult to fix the blow piping from the feed well to the nozzle portion 5a, which may cause a decrease in mechanical strength. The extension W of the tube axis of the nozzle portion 5a preferably intersects the upper surface of the plate 4, and more preferably intersects the upper surface of the plate 4 near the rake shaft 10. The distance r between the point of intersection of the extension line W and the upper surface of the plate 4 and the axis of the center well 2 is half (50%) or less, particularly 40% or less, especially 30% or less of the radius R of the center well 2 Is preferred. Since the lower end of the nozzle portion 5a is arranged as described above, the blow water discharged from the nozzle portion 5a can be changed to a wide flow while reducing the flow velocity, so it can affect the wide range of the plate .

  The radius of the plate 4 is not less than the radius R of the center well 2 and not more than 1.5 times the radius R, preferably about 1 to 1.3 times the radius R.

  The bottom of the tank body 1 has a downward slope toward the center, and a pit 6 for collecting and discharging the sedimented sludge is provided at the center of the bottom. The sludge in the pit 6 is discharged to the outside of the tank body 1 through the mud pipe 7.

  A rake device is provided to rotate the rake plate 11 along the bottom surface of the tank body 1. The rake apparatus includes a rake shaft 10 vertically extending through an axial center portion of the center well 2, a support arm 12 radially extending from a lower portion of the rake shaft 10, and the arm 12 And a driving device (not shown) in which the upper end of the rake shaft 10 is connected.

  The rake plate 11 is disposed in a direction oblique to the longitudinal direction of each arm 12 so as to move the deposit on the bottom of the tank body to the center side of the bottom of the tank body when the rake rotates.

  An overflow weir 13 is provided along the upper part of the inner peripheral wall surface of the tank body 1 as an overflow part. The upper end of the overflow weir 13 is slightly lower (for example, about 50 to 200 mm) than the upper end of the center well 2.

  The water depth of the tank body 1, that is, the height of the upper end of the overflow weir 13 from the bottom of the tank body is preferably 100 to 400 cm, more preferably 100 to 250 cm.

  The height of the upper surface of the plate 4 from the bottom of the tank body (peripheral portion of the pit 6) is 20 to 80 cm, preferably 25 to 60 cm, particularly 30 to 50 cm.

  The downward flow velocity (LV) in the center well 2 is preferably 40 cm / sec or less, for example, 5 to 30 cm / sec, particularly about 10 to 30 cm / sec.

  The vertical distance H between the lower end of the center well 2 and the upper surface of the plate 4 is, for example, about 20 to 150 mm as described above, and the horizontal linear velocity of the raw water flowing out from the raw water outlet is 4 to 10 cm. It is preferable to set so as to be about 5 to 8 cm / sec, in particular.

  The rising flow rate (LV) in the tank body 1 is preferably 1 m / hr or more, for example, 1 to 20 m / hr, particularly about 2 to 10 m / hr.

The discharge flow velocity of the blow water from the nozzle portion 5a is preferably 1 m / sec or more, particularly about 1 to 5 m / sec. The discharge flow rate per plate area obtained by dividing the discharge flow rate (m ³ / hr) from the nozzle 5 a by the area (m ² ) of the plate 4 is 1 to 8 m ³ / hr / m ² , that is, about 1 to 8 m / hr preferable.

  In the settling tank configured as described above, the water to be treated is supplied into the center well upper 3, passes over the upper end of the center well 2, flows into the center well 2, and descends in the center well 2. Flows out from the raw water outlet between the lower end of the plate and the plate 4 in the radial direction. Thereafter, the water ascends in the tank body 1, overflows the overflow weir 13, and is discharged from the clear water outlet 14.

  Since the sludge to be deposited on the upper surface of the plate 4 is swept away by the blow water discharged from the nozzle portion 5a, the sludge is prevented from being deposited on the plate 4. In addition, discharge of this blow water may be performed continuously, and may be performed intermittently.

  The sludge that has settled on the bottom of the tank body 1 is scraped into the pits 6 by the lake and discharged from the sludge pipe 7.

  In this embodiment, as described above, since the blow water is made to flow out from the nozzle portion 5a, the sludge is prevented from being deposited on the plate 4. Also, since there is no lake on the plate 4, the treated water will gradually flow into the sludge blanket from the raw water outlet between the lower end of the center well 2 and the plate 4 and sludge will settle efficiently. It will be separated.

  In the above embodiment, the plate 4 is horizontal, but at least the vicinity of the center may be an inclined surface less than 15 ° in the radial direction. However, at least the outer peripheral portion is preferably horizontal.

  In the said embodiment, although the tank body 1 is made into cylindrical shape, it may be square (square or more polygons). Further, the bottom surface of the tank body 1 may be horizontal.

  In the above embodiment, although the blow piping 5 is provided along the inner peripheral surface of the center well 2, it is provided along the outer peripheral surface of the center well 2, and the nozzle portion 5a penetrates the lower portion of the center well 2. It may be configured to be inserted into the center well 2.

  In the above embodiment, the blow piping 5 is disposed along the center well 2, but may be disposed along the rake shaft 10. Moreover, two or more nozzles may be provided.

  In the above embodiment, the center well 2 has an equal diameter from the upper end to the lower end, but the lower portion may have a large diameter. In this case, the lower end may be tapered with a larger diameter. In this case, the upper small diameter portion and the lower large diameter portion of the center well 2 are integrally formed, or the lower large diameter portion is fixed to the upper small diameter portion, for the sake of fixing the blow piping 5. Preferably, the lower large diameter portion is not fixed to the rake shaft 10.

1 tank body 2 center well 3 center well upper 4 plate 5 blow piping 5a nozzle 6 pit 10 rake shaft 13 overflow weir

Claims (3)

Raw water supplied from the center well at the central part of the tank body to the lower part of the tank body ascends in the tank body and flows out as clear water from the overflow part at the upper part of the tank body,
In a settling tank provided with a plate for changing the flow direction of water facing the lower end of the center well,
It is a sedimentation tank provided with a nozzle for discharging blow water for sludge flow-off toward the vicinity of the center of the plate ,
The nozzle has a downward slope of 40 to 90 ° toward the center of the plate,
The lower end of the nozzle is located at the same level or higher than the lower end of the center well (but within 100 mm from the lower end of the center well) .   The settling tank according to claim 1, wherein the nozzle is a nozzle portion connected to a lower portion of a blow pipe extending along a center well. The settling tank according to claim 1 or 2 , wherein at least an outer peripheral portion of the plate is horizontal.

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