KR20100064892A - The siudge blanket type of high-rate settling tank having hydraulic spiral flow - Google Patents

Abstract

PURPOSE: A high speed setting tank is provided to rapidly separate and remove sludge than a sludge blanket by screw flow of raw water flowed to a side in a sludge separation space without an impeller. CONSTITUTION: A high speed setting tank of a sludge blanket type includes the following: a sludge separation space(10) which is gradually broaden towards the top; a sludge outlet(40) discharging the sludge separated from raw water, and is installed between a raw water inlet(20) and a purified water outlet(30); and an inclined plate settling part(50) separating remaining sludge in purified water by an inclined plate.

Description

High-density sludge blanket-type high-speed sedimentation tank with high water treatment {THE SIUDGE BLANKET TYPE OF HIGH-RATE SETTLING TANK HAVING HYDRAULIC SPIRAL FLOW}

The present invention relates to a sedimentation tank for separating and removing impurities mixed in raw water in a water purification plant or a sewage treatment plant.

In water purification plants and sewage treatment plants, it is common to carry out water purification by flocculation, precipitation and filtration.

There are various methods of separating and removing impurities from raw water, but a method using a sludge blanket, a method using an air flotation method, and a method using an inclined plate are mainly used.

Related to the present invention among the above methods are a method using a sludge blanket and a method using an inclined plate settling tank.

In the method using the sludge blanket, the raw water introduced into the sludge separation space that expands toward the upper part forms a fluidized layer, and the particles of the sludge are trapped by being attached to the aggregate, and the sludge separated purified water is discharged to the upper purified water outlet. The discharged and trapped sludge is a technology that is discharged to the outside of the sludge blanket through the sludge discharge port located below the purified water outlet.

The water treatment method using the sludge blanket has a problem in that the sludge separation process is low compared to other methods, but the sludge separation effect is low.

Such sludge blanket technology is described in detail in Korean Patent Registration No. 10-0855289 (Method for Separation of Suspension for Wastewater Treatment and Its Execution Apparatus).

In the case of such a sludge blanket settling tank, a mechanical impeller has to be added in order to stably maintain the blanket layer in the flow rate change.

Since the technology related to the sludge blanket is already known technology, a detailed description thereof will be omitted.

The sludge removal method using the inclined plate, as shown in Korean Utility Model Registration No. 20-0129346 and Korean Patent Registration No. 10-0341004, installs a plurality of inclined plates at regular intervals in the sedimentation basin, and the raw water containing the sludge The sludge slides along the inclined plate to pass through the water passage between the inclined plates, and the sludge removed fluid is discharged to the top of the inclined plate.

However, the water treatment method using the inclined plate has a problem that the effect of separating and settling the sludge is greatly lowered when a large amount of raw water is introduced.

In addition, even when a large amount of raw water is not introduced, if the raw water contains a large amount of sludge, there was a problem that the effect of separating and settling the sludge is significantly lowered.

The present invention is to solve the above problems, more specifically, it is possible to separate and remove the sludge faster and more efficiently than to separate and remove the sludge using a conventional sludge blanket, the conventional sludge blanket or inclined plate settling tank An object of the present invention is to provide a sludge blanket-type high-speed sedimentation tank having better sludge separation and removal effects than the used method.

In addition, a flat membrane-type submerged membrane is installed in the upper part of the sludge separation space and powder activated carbon can be added to remove dissolved trace harmful substances and particulate matter in the same reactor. Another object is to provide a fast settling tank in the form of an integral sludge blanket that is not required.

In the present invention, the lower part of the settling tank is implemented in the form of a sludge blanket and the upper part is implemented in the form of a slant plate settling tank so that the sludge can be separated and removed more quickly than the conventional sludge blanket, while the sludge separation and removal efficiency uses the sludge blanket. It should be superior to the method of sludge removal of sludge plate settling tank.

The sedimentation tank of the present invention has a sludge separation space that is widened toward the upper portion, and has a raw water inlet in which raw water including sludge flows in a lower portion of the sludge separation space, and a purified water outlet through which purified water from which sludge is removed is discharged. It has a sludge blanket structure having a sludge discharge port between the raw water inlet and the purified water outlet to discharge the sludge concentrated from the raw water.

In addition, the raw water inlet is located at the lower side of the sludge separation space, so that the vortices are formed in the sludge separation space due to the raw water flowing in, and the sludge outlet is formed in the funnel shape at the upper center of the sludge separation space, and collected at the upper center of the vortex. The sludge is discharged through the sludge outlet.

In addition, a plurality of inclined plates are arranged at regular intervals between the purified water outlet and the sludge outlet so that the remaining sludge remaining in the purified water is separated again by the inclined plate while the sludge-removed purified water passes through the channel between the inclined plate and the inclined plate. The inclined plate settled portion is provided.

The high-speed sedimentation tank of the present invention, the lower portion is implemented in the form of sludge blanket, the upper portion is in the form of inclined plate sedimentation tank, and gathered to the center due to the spiral flow formed by the inflow flow rate of raw water introduced into the side without impeller in the sludge separation space. As the sludge is discharged through the funnel type sludge outlet, the sludge can be separated and removed more quickly than the conventional sludge blanket, and the sludge separation and removal efficiency is superior to the method using the sludge blanket or the sludge removal method using the slant plate settling tank. .

In addition, when a flat membrane-type immersion membrane is installed in the upper part of the sludge separation space and has a process of injecting powder activated carbon, it is possible to remove dissolved trace harmful substances and particulate matter, and powder activated carbon contact tank, which is a general water treatment process. The process of flocculation paper, sedimentation basin and filter paper can be processed in one reactor, which can reduce the land area and facility investment cost.

Hereinafter, the technical spirit of the present invention will be described in more detail with reference to the accompanying drawings.

It is to be understood, however, that the appended drawings illustrate only typical embodiments of the present invention and are not to be considered as limiting the scope of the invention.

The present invention relates to an apparatus for separating and removing sludge mixed in raw water for water purification, and has an object to make separation and removal efficiency excellent while separating and removing sludge faster than the prior art.

In the conventional sludge separation and removal method, the sludge blanket was used to quickly treat sludge and to achieve relatively satisfactory performance in terms of treatment efficiency and economic efficiency.

However, the method using the sludge blanket also had a limitation in the processing speed.

In other words, when the amount of raw water flowing into the sludge blanket exceeds a certain level, the sludge separation and removal effect was significantly reduced.

In addition, when the amount of sludge mixed in the raw water flowing into the sludge blanket is not only slow the processing speed, but also due to the non-uniform distribution of the sludge blanket layer, the sludge separation and removal effect was significantly reduced.

For this reason, there is a limit to increase the treatment speed through the sludge separation and removal method using a conventional sludge blanket.

After long research and efforts to solve this problem, the inventor of the present application, the sludge blanket of the non-powered helical flow in the form of a slender blanket, and the top of the settling tank as shown in Figure 1 implemented in the form of a slant plate settling tank.

In other words, the high-speed sedimentation tank combined with the shape of the slant plate sedimentation tank in the structure of the sludge blanket that can quickly remove and remove the sludge is devised.

Therefore, the high-speed sedimentation tank of the present invention has a sludge separation space 10 that increases toward an upper portion, and has a raw water inlet 20 into which raw water including sludge flows in the lower portion of the sludge separation space 10, and a sludge on the upper portion thereof. Has a purified water outlet 30 through which the purified water is discharged, and has a sludge blanket structure having a sludge discharge port 40 in which sludge separated and separated from raw water is discharged between the raw water inlet 20 and the purified water outlet 30. have.

Further, the inclined plate settled portion 50, in which a plurality of inclined plates 51 are arranged at regular intervals, is provided in the lower portion of the purified water outlet 30, and the purified water in which the sludge is removed by the sludge blanket structure is the inclined plate 51. The remaining sludge is separated again in the process of passing through the water passage 52 between the and the inclined plate 51.

That is, although most of the sludge is removed by the sludge blanket structure, if the amount of raw water flowing in or the amount of sludge contained in the raw water is large, and the remaining sludge is generated, the passage between the inclined plate 51 and the inclined plate 51 The remaining sludge is separated and removed by the inclined plate 51 in the process of passing through the 52.

Therefore, not only the sludge separation and removal effect is superior to the method using the conventional sludge blanket, but also the sludge separation and removal rate can be increased.

In addition, even if the inflow of raw water containing a large amount of sludge can be stably separated and removed.

Since the structure of the sludge blanket and the technology for separating and removing the sludge using the same are already known, a detailed description thereof will be omitted.

In addition, the structure of the inclined plate sedimentation tank for separating and removing sludge through a plurality of inclined plates (typically inclined by about 60 ° in the horizontal state) is already known, so a detailed description thereof is omitted.

However, in the conventional sludge blanket, there is a disadvantage in that a mechanical impeller must be added in order to maintain the blanket layer stably in flow rate variation.

In order to solve this problem, in the present invention, as shown in FIG. 3, the helical flow is formed in the sludge separation space 10 due to the raw water introduced and positioned at the lower side of the sludge separation space 10.

As described above, it was found through various experiments and studies that the position and shape of the sludge discharge port 40 are very important in the structure in which the sludge blanket and the slant plate settling tank in which the vortex is formed are combined.

That is, the sludge discharge port formed in the conventional sludge blanket is located on the inner wall forming the sludge separation space as in Korea Patent Registration No. 10-0855289.

However, in this structure, the sludge blanket and the inclined plate settling tank are combined as in the present invention, and the sludge is not smoothly discharged in the structure in which the vortex is formed.

 For this reason, in the present invention, the sludge outlet 40 is formed in a funnel shape in the upper center of the sludge separation space 10.

That is, the sludge collected in the upper center of the vortex formed in the sludge separation space 10 is to be discharged through the sludge discharge port 40.

On the other hand, it is preferable that the inclined plate 51, which is a component of the present invention, is disposed in the sludge separation space 10 in a predetermined direction.

To this end, the inclined plate sedimentation unit 50 may be implemented to have a rectangular shape as shown in the drawing.

In the structure of the present invention, it is preferable that the purified water located above the inclined plate settled portion 50 is evenly introduced into and discharged from the purified water outlet 30 at various points.

This is because the purified water located above the inclined plate settlement unit 50 is smoothly discharged between each of the inclined plate 51 and the inclined plate 51 only when the purified plate located at the lower portion of the inclined plate settlement unit 50 is smoothly discharged.

To this end, the purified water outlet 30 of the present invention. 1 and 2, it is preferable that the upper end portion is formed in the form of an open pipe so as to cross the upper portion of the slant plate settling portion 50 in the sludge separation space 10.

That is, the purified water flowing into the raw water inlet 20 is treated to flow evenly from the surface layer to the purified water outlet 30.

In the present invention, the inclined plate settling portion 50 may be formed in a form formed by an immersion type separation membrane (membrane) in the form of a flat membrane.

That is, the submerged membrane in the form of a flat membrane has a plurality of flat membranes.

Therefore, when the immersion type separation membrane of the flat membrane type is installed inclined together with the inclined plate 51, the flat membrane has the same function as the inclined plate 51.

In this case, the high-speed sedimentation tank of the present invention has a sludge separation space 10 widening toward an upper portion as shown in FIG. 4, and a raw water inlet 20 into which raw water including sludge flows in a lower portion of the sludge separation space 10. It has a purified water outlet 30, the sludge is purified water discharged in the upper portion, between the raw water inlet 20 and the purified water outlet 30 has a sludge discharge port 40 is separated from the raw water to discharge the sludge concentrated It has a sludge blanket structure.

In addition, the raw water inlet 20 is located in the lower side of the sludge separation space 10 due to the raw water flowing into the spiral flow is formed in the sludge separation space 10, the sludge discharge port 40 is the sludge separation space 10 Is formed in the funnel shape in the upper center of the sludge collected in the upper center of the vortex is to be discharged through the sludge discharge port (40).

Further, between the purified water outlet 30 and the sludge discharge port 40, a flat membrane-type submerged membrane 60 is provided in an inclined form, and the liquid outlet 61 and the purified water outlet 30 of the submerged membrane 60 are inclined. When connected to generate a suction force to the purified water outlet (30) is purified sludge is removed is filtered out through the immersion type separation membrane (60).

In the present invention, it may further comprise a flocculant activated carbon input means for selectively entering the powder activated carbon or flocculant into the sludge separation space (10).

Such coagulant activated carbon input means can be implemented in various forms already known, and activated carbon is introduced into the sludge separation space 10 by injecting activated carbon or a flocculant into raw water immediately before raw water is introduced into the sludge separation space 10 as shown in FIG. 4. The raw water contained or the raw water containing the flocculant may be filled.

In addition, the sludge separation space 10 may be made to be directly injected into the form.

When the activated carbon is introduced as above, the dissolved trace harmful substances may be removed from the sludge separation space 10.

In particular, when applied to the structure having a flat membrane type immersion membrane 60, it is possible to remove even a small amount of particulate matter, and the process of powder activated carbon contact tank, agglomerated paper, sedimentation paper, filter paper, which is a general water treatment process, as one sludge. The result of processing in the separation space 10 can be obtained.

In the present invention, a blower device 80 that generates air bubbles above the sludge discharge port 40 may be further provided to smoothly remove the remaining sludge attached to the inclined plate 51 or the immersion type separation membrane 60. .

That is, the sludge adhered to the inclined plate 51 or the immersion type separation membrane 60 is smoothly separated by the air bubbles generated by the operation of the blower device 80.

Such a structure is very suitable for the structure having the immersion type separation membrane 60. In the case of the immersion type separation membrane 60, sludge can be removed from the separation membrane 60 through a backwashing process in which the purified water flows in the opposite direction to the normal flow direction. This is because the effect is maximized when the blower device 80 is operated.

Reference numeral 90 denotes a sediment removal pipe for removing the sediment.

1 is a front sectional schematic view for explaining a sludge blanket type high-speed sedimentation tank of the present invention.

Figure 2 is a schematic plan view for explaining the sludge blanket-type high-speed sedimentation tank of the present invention

Figure 3 is a schematic sectional view of the sludge blanket-type high-speed sedimentation tank of the present invention for explaining the principle that the vortex is formed in the sludge separation space

Figure 4 is a front sectional schematic view for explaining another sludge blanket-type high-speed sedimentation tank of the present invention is installed flat membrane type immersion separator

<Explanation of symbols for main parts of drawing>

10. Sludge Separation Space 11.Inner Wall

20. Raw water inlet 30. Water purification outlet

40. Sludge outlet 50. Inclined plate settling section

51. Inclined Plate 52. Aqueduct

60. Separator 61. Liquid outlet

70. Coagulant injection means 80. Blower apparatus

90. Sediment Removal Pipe

Claims (6)

In the sedimentation tank to separate and settle the sludge for water treatment, The sludge separation space 10 is widened toward the upper portion, the sludge separation space 10 has a raw water inlet 20 through which the raw water containing sludge flows, and the sludge is purified water discharged to the upper The sludge blanket structure has a sludge discharge port 40 having an outlet 30 and a sludge discharge port 40 separated from the raw water and discharged from the raw water between the raw water inlet 20 and the purified water outlet 30, but the raw water inlet 20 is sludged. Spiral flow is formed in the sludge separation space 10 due to the raw water introduced and located on the lower side of the separation space 10, the sludge discharge port 40 is formed in a funnel shape in the upper center of the sludge separation space 10 The sludge collected at the upper center of the vortex is discharged through the sludge outlet 40, and a plurality of inclined plates 51 are disposed between the purified water outlet 30 and the sludge outlet 40. The slanted needle which is disposed in the sludge so that the sludge remaining in the purified water is separated again by the inclined plate 51 while the purified water from which the sludge is removed passes through the water passage 52 between the inclined plate 51 and the inclined plate 51. A high-precision sludge blanket-type high-speed sedimentation tank of spiral flow capable of highly water treatment, characterized in that the whole (50) is provided. In the sedimentation tank to separate and settle the sludge for water treatment, The sludge separation space 10 is widened toward the upper portion, the sludge separation space 10 has a raw water inlet 20 through which the raw water containing sludge flows, and the sludge is purified water discharged to the upper The sludge blanket structure has a sludge discharge port 40 having an outlet 30 and a sludge discharge port 40 separated from the raw water and discharged from the raw water between the raw water inlet 20 and the purified water outlet 30, but the raw water inlet 20 is sludged. Spiral flow is formed in the sludge separation space 10 due to the raw water is introduced into the lower side of the separation space 10, the sludge outlet 40 is formed in the funnel shape in the upper center of the sludge separation space (10) The sludge collected at the upper center of the vortex is discharged through the sludge discharge port 40, and an immersion type separation membrane 60 is installed between the purified water outlet 30 and the sludge discharge port 40. When the liquid outlet 60 of the immersion type separation membrane 60 and the purified water outlet 30 are connected to generate a suction force to the purified water outlet 30, the purified water from which sludge is removed is filtered out through the immersion type separation membrane 60. A high speed sedimentation tank of a low energy type sludge blanket capable of highly water treatment. The method of claim 1, The slant plate (51) is characterized in that the sludge separation space 10 is arranged in a predetermined direction, the high-energy water-treated low-flow sludge blanket-type high-speed sedimentation tank of the spiral flow. The method according to claim 1 or 2, The purified water outlet 30 is formed in the form of a pipe with an upper end open, and is installed in a form that crosses the upper side of the slant plate settling portion 50 of the sludge separation space 10 to be processed into the raw water inlet 20. A low-energy type sludge blanket-type high-speed sedimentation tank capable of highly water treatment, characterized in that the purified water flows evenly from the surface layer to the purified water outlet (30). The method according to any one of claims 1 to 3, The flocculant activated carbon input means 70 is further provided to the powder activated carbon into the sludge separation space 10, characterized in that the low-energy type sludge blanket-type high-speed sedimentation tank capable of high water treatment. The method according to any one of claims 1 to 3, The upper part of the sludge discharge port 40 is further provided with a blower device 80 for generating air bubbles, characterized in that the removal of the remaining sludge attached to the inclined plate 51 or the immersion type separation membrane 60 is smooth, advanced water treatment High-speed sedimentation tank with spiral flow and low energy type sludge blanket.

Images