KR101715564B1 - Flotation device using high efficiency tank for dissolving a gases into liquids - Google Patents

Abstract

The present invention relates to a floating separation device using a high-efficiency gas dissolving tank and, more specifically, to a floating separation device using a high-efficiency gas dissolving tank, which separates scum floating in raw wastewater of a coagulation tank introduced into a flotation tank. The floating separation device using a high-efficiency gas dissolving tank comprises a scum floating unit for introducing the raw wastewater of the coagulation tank into a lower side inside an inlet side of the flotation tank; and makes a scum removing port for transferring the scum floating on an upper portion of treated water inside the flotation tank arranged on an outlet side of the flotation tank.

Description

TECHNICAL FIELD [0001] The present invention relates to a flotation apparatus using a high-efficiency gas dissolving tank,

The present invention relates to a floating separation apparatus using a high-efficiency gas dissolution tank, and more particularly, to a floating separation apparatus using a high-efficiency gas dissolution tank capable of reducing the accumulation phenomenon of scum in a floating tank and easily dissolving a larger amount of air in circulating water in a gas- And more particularly, to a floating separation apparatus using a high-efficiency gas dissolution tank.

In general, a floatation separating apparatus is widely used to treat sewage and wastewater. The floatation method is a method of removing contaminants in a suspension by floating on the water surface in the treatment of sewage and wastewater, It can be classified into gravitational flooding methods applicable only to oils such as oil and flood-type flooding methods commonly called floats in water treatment techniques.

Here, the particulate floatation method is a method of attaching air bubbles to a contaminant in a suspension to be separated, thereby remarkably increasing the floatation speed. Even if particles having a density higher than that of water are deposited, It is possible to increase the removal speed of the suspended particles by increasing the floating separation speed.

For example, as described above, the floatation separation apparatus using the flood-type floatation method has a patent application filed and registered as Patent Application No. 10-2008-0034902, which is a floatation system in which raw wastewater flows from the floatation tank; A micro-bubble generating device provided at a lower portion of the original wastewater inlet port on the floatation side to generate micro-bubbles in the incoming raw wastewater; A treated water collecting unit installed at a lower portion of the float tank to receive treated water from which suspended particles have been removed; A concentration rate control valve provided on an outer side of the floating tank to discharge a part of the treated water flowing through the treated water collection unit to the outside; A circulating water pump for pressurizing a part of the treated water flowing through the treated water collecting unit; And a gas dissolving tank for receiving pressurized water formed by dissolving air in circulating water pressurized by the circulating water pump and supplying pressurized water to the microbubble generator, wherein the gas dissolving tank is supplied by a compressor And a water level control sensor for opening and closing the circulation water passage and the air passage according to the water level is provided in the water dissolving tank.

However, in the conventional art as described above, since the scum removing port not only moves the scum floated on the water surface of the treated water in the floating tank as a whole but also has an insufficient clearance on the water surface of the treated water formed on the inlet side of the scum removing port, And the speed of the scum movement due to the flow of the treated water is faster than the speed of the scum moved by the scum removing tool, so that the scum rubbing phenomenon occurs at the entrance side of the scum removing tool, Due to the long length, the vibration on the floatation surface is generated, and the scum can not be smoothly transferred due to the phenomenon that the water drops from the scum moved in the scum removing port. In such a case, the gas- Oxygen is dissolved in the circulating water, so that the oxygen is dissolved in the circulating water, As the solubility is low, but has the disadvantage that a limit to increase the dissolution of the oxygen in the circulating water.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a scum removing device which is capable of reducing the distance traveled by a scum removing tool to form a clearance area on the treated water surface in the floating tank, By transferring the scum to the air, it is possible to reduce the accumulation phenomenon of the scum in the floating tank and to induce the generation of bubbles in the circulating water in the gas dissolving tank, thereby increasing the surface area of the circulating water, Which is capable of dissolving a high-efficiency gas-dissolved tank.

In order to achieve the above object, the present invention provides a floating separation apparatus using a high-efficiency gas dissolving tank for separating scum floating in raw wastewater of a flocculation tank flowing into a floatation tank, And a scum removing means for discharging scum floating on the treated water in the floating tank to the outside is disposed on the outlet side of the floating tank and collects the treated water in the floating tank Wherein a treated water collecting port is disposed inside the floating tank and the treated water of the treated water collecting port is transferred to a gas dissolving tank by a pump and the compressed air is introduced into the gas dissolving tank by a compressor, The air is dissolved in the treated water in a supersaturated state within the gas dissolving tank, Bubble generator in the floating tank, and a blower is installed on one side of the floating tank, and the floating tank is treated by the air flowing out from the blower, Wherein the scum located on the water surface moves toward the scum removing port and a nozzle for spraying and dropping the process water flowing out from the pump is installed on the upper side of the gas dissolving tank and the lower side of the bubble producing container, Wherein the bubble generating unit is installed in the gas dissolving tank at the bottom of the gas-dissolving tank, so that the treated water injected from the nozzle collides with the bottom of the bubble generating vessel to generate bubbles.

In the floating separator using the high-efficiency gas dissolving tank according to the present invention, the scum removing part transports and discharges the scum on the treated water surface in the floating tank at a part of the outlet side of the floating tank, The scum on the surface of the treated water in the floating tank is transferred to the scum removing means so that the transfer distance of the scum removing means is reduced to form a clearance area on the treated water surface in the floatation tank to reduce the accumulation phenomenon of scum in the floating tank, The treated water falls down to the bottom of the bubbling container in the gas dissolving tank to generate air bubbles, so that the treated water can be changed into a bubble state, and the air in the gas dissolving tank can contact the surface of the treated water having a large area, Can be easily dissolved in the circulating water.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram showing a floating separation apparatus using a high-efficiency gas dissolving tank according to the present invention. FIG.
2 is a cross-sectional view of an example of a gas dissolving tank applied to a floating separation apparatus using a high-efficiency gas dissolving tank according to the present invention.
3 is a cross-sectional view of another example of a gas dissolving tank applied to a floating separation apparatus using a high-efficiency gas dissolving tank according to the present invention.

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

Fig. 1 is a view showing a floating separation apparatus using a high-efficiency gas dissolving tank according to the present invention, in which the raw wastewater of the flocculation tank 1 flows into the scum-lifted portion 2a in the floating tank 2 The scum floating on the scum-lifted portion 2a is discharged and removed to the outside of the floatation tank 2.

In other words, in the present invention, the scum-lifted portion 2a for introducing the raw wastewater of the flocculation tank 1 is formed in the lower side of the inlet side of the floatation tank 2 containing treated water, A scum removing port (3) for transferring the scum floating on the water to the outside is disposed on the outlet side of the floating tank (2).

A treatment water collector 4 for collecting treated water in the floating tank 2 is disposed inside the floating tank 2 and the treated water of the treated water collector 4 is supplied to the pump 5 And the compressed air is introduced into the gas dissolving tank 6 by the compressor 7.

The air is supersaturated in the gas dissolving tank 6 and the treated water in the gas dissolving tank 6 is discharged by the air pressure in the gas dissolving tank 6 so that the scum And is ejected through the fine bubble generator 8 disposed in the floating portion 2a.

The process of mixing the treated water dissolved in the supersaturated state in the gas dissolving tank 6 with the treated water in the scum-lifted portion 2a of the floating tank 2 while spraying the treated water through the minute bubble generating port 8 The air bubbles come into contact with the contaminants in the raw wastewater of the flocculation tank 1 flowing into the scum floating section 2a of the floating tank 2 while being generated fine air in the flocculation tank 2, It is described in the prior patent applications 10-2008-0034902 and 10-2013-0066328.

It is necessary to increase the surface area of the treated water so that a larger amount of air in the gas dissolving tank 6 is dissolved in the treated water.

Therefore, in the present invention, a blower 9 is installed on one side of the float tank 2, and a scum located on the treated water surface of the float tank 2 is discharged by the air flowing out from the blower 9, 3, and a nozzle 10 for spraying the treated water flowing out of the pump 5 is installed inside the gas dissolving tank 6.

A bubble forming vessel 11 with an open upper side is disposed inside the gas dissolving tank 6 at a position below the nozzle 10 and spaced apart from the nozzle 10 so that the treated water falling from the nozzle 10 And a structure for generating air bubbles by colliding with the bottom of the bubble generating container (11).

2, the air around the treated water flows into the center of the bubble generating vessel 11 together with the treated water by the flow of the treated water injected in the process of spraying the treated water from the nozzle 10, It is dissolved in the surface of the treated water bubbles generated by colliding with the bottom of the vessel 11 and the air in the gas dissolving tank 6 can be dissolved as the bubbles generated in the bubbling vessel 11 overflow, The air solubility of the treated water can be greatly increased.

On the other hand, in the case of FIG. 2, bubbles rising toward the opening of the bubble forming container 11 are affected by the treated water spraying from the nozzle 11, so that the bubble holding state in the opening of the bubble producing container 11 is maintained .

Therefore, in the present invention, as shown in Fig. 3, a bubble inducing member 12 is installed in the opening of the bubble generating container 11. [

The bubble inducing member 12 is formed at its central portion with a treatment water through hole 12a through which the treatment water falling from the nozzle 11 passes and the treatment water through hole 12a A large number of bubble dispersion holes 12b are formed to disperse and bubble overflowing bubbles generated in the process water.

The bubbles rising toward the opening of the bubble forming container 11 due to the bubble inducing member 12 are less affected by the treated water spraying from the nozzle 11, The holding state of the air bubbles overflowing through the inner space 12b can be maintained for a longer time so that a larger amount of air can be dissolved in the treated water in the gas dissolving tank 6.

The floating separation apparatus using the high-efficiency gas dissolving tank according to the present invention as described above allows the raw wastewater of the flocculation tank 1 to flow into the scum floating section 2a of the floating tank 2, The wastewater is treated in the floating tank 2.

That is, the treated water in the gas dissolution tank 6 in the air supersaturated state dissolves through the fine bubble generating port 8 disposed in the scum-lifted portion 2a of the floating tank 2, Fine bubbles are generated in the portion 2a.

Then, air bubbles adhere to the contaminants in the scum-lifting portion 2a of the floatation tank 2 flowing from the flocculation tank 1 to float on the treated water surface of the floating tank 2, The scum removing opening 3 is caused to flow out of the scum raised above the treated water surface of the floating tank 2 to the outside.

Here, in the gas dissolving tank 6, the treatment water of the floating tank 2 transferred by the pump 5 is sprayed through the nozzle 10, and the treatment is performed in the course of spraying the treatment water from the nozzle 10 The water around the treated water is dissolved by the flow of water into the surface of the treated water bubbles generated by colliding against the bottom of the bubbling chamber 11 while entering the center of the bubbling chamber 11 together with the treated water, The air in the gas-dissolving tank 6 can be dissolved and the solubility of air in the treated water in the gas-dissolving tank 6 can be greatly increased.

It is possible to maintain the state of bubbles overflowing through the bubble dispersion holes 12b of the bubble inducing member 12 for a longer period of time so that a larger amount of air is dissolved in the treated water in the gas dissolving tank 6, The treated water in the gas dissolving tank 6 in which the air is dissolved in the supersaturated state flows out through the fine bubble generating port 8 disposed on the scum floating portion 2a of the floating tank 2 as described above, Fine bubbles are smoothly generated in the scum-lifted portion 2a of the floating tank 2 so that the scum floated on the water surface of the treated water in the floating tank 2 can be smoothly removed.

1: Coagulation tank 2: Floating tank
2a: Scum floating part 3: Scum removing part
4: treated water collector 5: pump
6: Gas dissolving tank 7: Compressor
8: Micro bubble generator 9: Blower
10: nozzle 11: bubble generating container
12: bubble inducing member 12a: treated water through hole
12b: bubble dispersion hole

Claims (2)

A floating separation apparatus using a high efficiency gas dissolving tank comprising a scum floating in a raw wastewater of a flocculation tank flowing into a floating tank,
A scum floating section for introducing the raw wastewater of the flocculation tank is formed in the lower side of the inlet side of the floating tank and a scum removing port for discharging the scum floating on the treated water in the floating tank is disposed on the outlet side of the floating tank, Wherein a treated water collecting port for collecting treated water in the floating tank is disposed inside the floating tank and the treated water in the treated water collecting port is transferred to the inside of the gas dissolving tank by a pump, Bubbles generated in the gas-dissolving tank are introduced into the gas-fusing tank, so that the air in the gas-dissolving tank is dissolved in the treated water in a supersaturated state, And spraying the mixture through the nozzle,
A blower is installed at one side of the float tank and the scum located on the treated water surface of the float tank is moved toward the scum removing hole by the air flowing out from the blower, A bubble generating vessel provided on the upper side of the interior of the dissolving tank and opened at the upper side is installed in the gas dissolving tank below the nozzle so that the treatment water dropped from the nozzle collides against the bottom of the bubble generating vessel to generate bubbles Lt; / RTI &
Wherein a bubble inducing member is provided in an opening of the bubble generating vessel and a treatment water through hole is formed in the center of the bubble inducing member to allow the treated water to be sprayed from the nozzle to pass therethrough, Wherein a large number of bubble dispersion holes are formed in the treatment water to disperse and induce overflowing air bubbles. delete

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