KR101162909B1 - Floatation tank for removing algae - Google Patents

Abstract

The present invention, the inlet pipe into which the raw water flows; A pump unit for generating fine bubbles and supplying and mixing the fine bubbles to the raw water flowing into the inlet pipe; A floating tank into which raw water mixed with the microbubbles is introduced and the algae in the raw water are floated by the microbubbles; And the floating algae communicated with the floating tank are discharged from the upper side, and the treated water from which the algae is removed from the raw water is discharged from the lower side.

According to the disclosed algae flotation tank, by maintaining the direction in which the algae in the raw water is injured and the direction in which the treated water is discharged in the opposite direction, it is possible to prevent the phenomenon of injured algae flows out with the treated water, the high concentration of algae Can also be effectively removed, there is an advantage that the high-speed treatment of algae removal is possible. In addition, the configuration is not complicated, the equipment is simple, there is an advantage that can ensure the stability of the operation.

Description

Floatation tank for removing algae

The present invention relates to a flotation tank for removing algae, and more particularly, to a flotation tank for removing algae for effectively removing algae in raw water.

Algae generated from purified water in the summer cause problems such as degradation of sedimentation efficiency and clogging of sand filters due to low sedimentation during water treatment. In this regard, a method for removing algae using a dissolved phase separation method has been conventionally disclosed. However, such a conventional algae removal method has problems such as excessive plumbing equipment, complexity of the apparatus, and reduction of energy efficiency. For example, pressurized tanks, compressors, circulation high pressure pumps, etc. are required, complex piping work is required in the process of combining them, and they exhibit unstable characteristics even during operation, and treatment efficiency is increased depending on the flow characteristics in the floating tank. There is a problem falling.

An object of the present invention is to provide a floating tank for removing algae, which can be easily installed and ensures stability of operation.

The present invention, the inlet pipe into which the raw water flows; A pump unit for generating fine bubbles and supplying and mixing the fine bubbles to the raw water flowing into the inlet pipe; A floating tank into which raw water mixed with the microbubbles is introduced and the algae in the raw water are floated by the microbubbles; And the floating algae communicated with the floating tank are discharged from the upper side, and the treated water from which the algae is removed from the raw water is discharged from the lower side.

Here, the pump unit may be a DAF pump. In addition, the floating tank has a first inlet portion which is formed to extend up and down but is connected to the pump portion and the microbubble flows in, and a second inlet portion which is located below the first inlet portion and in which the raw water flows. One flow tube; And a floating tube having an upper portion open and connected to the flow tube so that algae in the raw water introduced through the flow tube is air-floated upward by the microbubbles.

On the other hand, the flow tube is formed to extend above the position of the first inlet portion and the upper end is closed, the bubble that separates the giant bubble from the microbubble by inducing a giant bubble upward from the bubbles introduced into the first inlet portion It may further include a separator.

According to the floating tank for removing algae according to the present invention, by maintaining the direction in which the algae in the raw water is injured and the direction in which the treated water is discharged in the opposite direction, it is possible to prevent the phenomenon of injured algae flowing out with the treated water, High concentration of algae can be effectively removed, and there is an advantage in that high-speed treatment of algae removal is possible. In addition, the configuration is not complicated, the equipment is simple, there is an advantage that can ensure the stability of the operation.

1 is a schematic diagram of a floating tank for removing algae according to an embodiment of the present invention. Referring to FIG. 1, the algae removing floating tank 100 includes an inflow pipe 110, a pump unit 120, a floating tank 130, and a floating treatment tank 140.

 The inlet pipe 110 is a pipe through which raw water is introduced. The fixed agglomerator 150 may be installed inside the inflow pipe 110. The fixed agglomerator 150 is a part that aggregates and passes algae in the introduced raw water. Since the configuration of the fixed agglomerator 150 is variously known in the art, a detailed description thereof will be omitted.

The pump unit 120 generates microbubbles and supplies the microbubbles to the raw water flowing into the inlet pipe 110 to mix them. The pump unit 120 may be configured as a DAF (Dissolved Air Flotation) pump. The DAF pump has a structure in which a structure for generating microbubbles by inhaling air in the atmosphere and a structure for pumping and supplying water generated with microbubbles to the floating tank 130 are integrated. Since the configuration of such a DAF pump is variously known in the art, a detailed description thereof will be omitted. The DAF pump can supply the microbubbles more stably as air is continuously supplied, dissolved, and dispersed. The pump unit 120 as described above can be configured by connecting one or more high-pump pumps having a discharge pressure of 4 atm or more to respective pipes.

The floating tank 130 is a portion in which the raw water mixed with the microbubbles flows in and the algae in the raw water are lifted by the microbubbles, and includes a flow tube 131 and a floating tube 132.

The flow tube 131 includes a first inlet 133 and a second inlet 134. The first inflow portion 133 is formed to extend up and down but is connected to the pump portion 120 is a portion into which the microbubble flows. The second inflow portion 134 is located below the first inflow portion 133 and is a portion into which the raw water flows.

The floating pipe 132 is open at the top and is connected to the flow pipe 131 so that the algae in the raw water introduced through the flow pipe 131 is separated from the floating upward by the microbubble. As the upper portion of the floating pipe 132 is opened, the first inlet 133, the floating pipe 132, and the flow pipe 131 are in an atmospheric pressure state to generate microbubbles.

On the other hand, the floating pipe 132 has a larger average cross-sectional area than the flow pipe 131. That is, according to the difference in the average cross-sectional area of the floating pipe 132 and the flow pipe 131, it is possible to effectively maintain the fine bubbles. See FIG. 1 for an example of the configuration. Here, the lower portion of the floating pipe 132 connected to the flow pipe 131 is configured as a hopper shape whose cross-sectional area is larger toward the upward, the difference in pressure at the connection of the flow pipe 131 and the floating pipe 132 Is prevented from occurring suddenly, allowing a more stable injury.

As described above, downflow is generated in the flow pipe 131 using the difference in the head. That is, the microbubbles introduced into the first inlet 133 of the flow pipe 131 is rapidly moved toward the floating pipe 132, at this time, the raw water introduced into the second inlet 134 is also moved fine They are mixed together and moved along the flow direction of the bubbles.

Such a flow pipe 131 can be divided into, for example, a pipe on one side and the other side. The one side is the first inlet 133 and the second inlet 134 is formed to extend up and down, the other side is bent in the 'U' shape at the lower end of the one side of the floating pipe 132 It is a tube connected to the bottom.

On the other hand, when a giant bubble of a predetermined size or more is introduced into the floating tank 130, the floating efficiency of the algae may be reduced by the giant bubble. For example, macrobubbles can disrupt the flow of microbubbles and destabilize the rise of algae.

In order to compensate for this problem, a bubble separator 135 is provided on the upper portion of the flow tube 131. The bubble separator 135 is formed to extend upward from the position of the first inlet 133 and is closed at an upper end thereof to induce upward bubbles from the bubbles introduced into the first inlet 133. The macro bubbles can be separated from the micro bubbles. That is, the micro bubbles flowing into the first inlet 133 are moved downward in accordance with the downward flow phenomenon. In addition, the giant bubble flowing into the first inlet 133 has a buoyancy greater than that of the microbubbles and is moved upward by the buoyancy difference. Therefore, the giant bubble can be prevented from flowing to the floating tank (130) side. In other words, the giant bubble can be effectively removed before the giant bubble flows into the floating tank 130.

On the other hand, the outer side of the bubble separation unit 135 may be provided with a separate discharge pipe (not shown), and the opening and closing valve (not shown) for opening and closing the discharge pipe (not shown). According to this, when a predetermined amount or more of the giant bubble is filled, it is possible to open the on-off valve (not shown) to discharge the giant bubble and surplus air to the outside through the discharge pipe (not shown).

On the other hand, the flotation tank 140 is in communication with the flotation tank 130, the injured algae is discharged from the upper side, the treated water from which the alga is removed from the raw water is discharged from the lower side. Here, the floating pipe 132 may be communicated in such a way that the open upper portion is embedded in the floating treatment tank 140. For example, the algae in the raw water together with the raw water may flow over the open upper portion of the floating tank 130 and flow into the floating treatment tank 140. Of course, the flotation tank 140 may also have an open top.

As described above, according to the algae removal flotation tank 100, as the sludge such as algae floats (upward) and the direction in which the treated water is discharged (downward) in the opposite direction, injured algae It is possible to prevent the phenomenon flowing out with the treated water in advance, thereby effectively removing the high concentration of algae, there is an advantage capable of high-speed treatment of algae removal. In addition, the floating tank 100 has the advantage that the configuration is not complicated and the equipment is simple, to ensure the stability of the operation.

In addition, for this purpose, the treatment tank 170 and the treatment water discharge pipe 180 may be installed on the upper side and the lower side of the flotation treatment tank 140, respectively. The treatment tank 170 is a part for receiving and collecting algae discharged from the upper side of the flotation treatment tank 140 due to the overflow current. The collected algae may be treated separately in the treatment tank 170 or may be disposed of later. The treated water discharge pipe 180 is connected to the lower side of the floating treatment tank 140, and is a portion for discharging the lowered treated water in the floating treatment tank 140 to the outside.

Here, a skimmer (not shown) may be separately installed above the floating treatment tank 140. Such a skimmer (not shown) collects the algae floating on the upper side of the floating treatment tank 140 and moves to the treatment tank 170 side. Since the configuration of the skimmer (not shown) is variously known in the art, a detailed description thereof will be omitted.

On the other hand, a recycling pipe 160 may be connected between the lower portion of the flotation treatment tank 140 and the pump unit 120. The recycle pipe 160 may re-introduce the treated water in the floating treatment tank 140 to the pump unit 120 to be used to generate microbubbles of the pump unit 120. According to this, it is possible to remove algae more effectively by recycling recycled treated water, there is a recycling effect of resources.

On the other hand, the raw water further includes sludge as well as the above-mentioned algae. That is, the algae removal floatation tank 100, of course, can be separated from the sludge by using the fine bubbles of course.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

1 is a schematic diagram of a floating tank for removing algae according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.

110: inlet pipe 120: pump portion

130: floating tank 131: flow pipe

132: flotation tube 133: first inlet

134: second inlet 135: bubble separation

140: flotation tank 150: flocculator

160: recycling pipe 170: treatment tank

180: treated water discharge pipe

Claims (10)

An inlet pipe into which raw water flows; A pump unit for generating fine bubbles and supplying and mixing the fine bubbles to the raw water flowing into the inlet pipe; A floating tank into which raw water mixed with the microbubbles is introduced and the algae in the raw water are floated by the microbubbles; And The floating algae communicated with the floating tank is discharged from the upper side, and the treated water from which the algae is removed from the raw water includes a floating treatment tank discharged from the lower side, The floating tank, A flow pipe having a first inlet part extending upward and downward but connected to the pump part and having a second inlet part which is positioned below the first inlet part and which is located below the first inlet part and which introduces the raw water; And a floating tube which is connected to the flow tube and is separated from the algae in the raw water introduced through the flow tube to the upper side by the microbubble, and An algae is formed extending upward from the position of the first inlet portion and the upper end is closed, further comprising a bubble separator for separating the giant bubble from the microbubble by inducing a giant bubble upward from the bubbles introduced into the first inlet portion Removal flotation. The method according to claim 1, The flotation tank for removing algae further includes an aggregator installed inside the inflow pipe to aggregate and pass algae in the raw water. The method of claim 1, wherein the pump unit, DAF pump algae flotation tank. The method according to claim 1 or 3, A floating tank for removing algae, further comprising a recycling pipe connected between the lower part of the flotation treatment tank and the pump part to reflow the treated water in the flotation treatment tank to the pump part to be used to generate microbubbles in the pump part. . delete The method according to claim 1, The floating pipe, Floating tank for removing algae having a larger average cross-sectional area than the flow pipe. delete The method according to claim 1, The floating pipe, The open upper portion is embedded in the flotation treatment tank, A treatment tank installed at an upper side of the flotation treatment tank and receiving and collecting algae discharged from the upper side of the flotation treatment tank; And And a treated water discharge pipe connected to the lower side of the floating treatment tank and discharging the lowered treated water in the floating treatment tank to the outside. The method according to claim 1, And a skimmer for collecting algae floating above the floating treatment tank and moving to the treatment tank. The method according to claim 1, wherein the enemy is, In addition to the algae, the sludge further includes, The algae for removing algae, Floating tank for removing algae to further separate the sludge by using the micro-bubbles.

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