KR101270236B1 - Apparatus for separating waste oil using bubble - Google Patents

Abstract

PURPOSE: An oil separating device is provided to produce bubbles in waste water having a particle size of micrometers to nanometers and to efficiently isolate oil included in waste water. CONSTITUTION: An oil separating device comprises a stirring tank(10), a bubbling generator, a circulation induction part(50), and a separate unit(60). The bubble generator absorbs waste water accepted in the stirring tank and generates bubbles in the waste water with a size of micrometers to nanometers and supplies to the reception space of the stirring tank. The circulating induction part is divides the stirring tank into an influx unit(20), a first tank in which waste water is flowed from the bubble generator, and a second tank which is separated from the first tank. The circulation induction part is arranged inside the stirring tank in order to circulate waste water injected from the bubble generator inside the first tank. The separate unit is installed on the top of the stirring tank and transfers oil separated from the waste water from the first tank to the second tank.

Description

Oil separation device using bubbles {Apparatus for separating waste oil using bubble}

The present invention relates to an oil separation apparatus using bubbles, and relates to an oil separation apparatus using bubbles capable of separating oil contained in wastewater.

Conventionally, the method for treating oil-containing wastewater is a specific gravity separation method for removing oil by using a difference in specific gravity between oil and water in the wastewater, or by supplying air bubbles to the wastewater, attaching bubbles to the oil in the wastewater, and condensing them to the top to remove them. Injury separation method was used. As for the specific gravity separation method, for example, an oil-containing wastewater treatment apparatus which divides into a partition plate and uses an oil-water separation tank having a communication hole in the lower part of the partition wall to float and remove oil on the surface of the water is proposed. It is.

The oil-containing wastewater treatment apparatus using the conventional specific gravity separation method is provided with the hollow-water type oil-water separation tank, the introduction pipe provided in the upper part of the oil-water separation tank, and the discharge pipe provided in the lower part of the oil-water separation tank. The oil-containing wastewater treatment device communicates the introduction pipe with a manhole formed in the road, and introduces the wastewater containing oil into the oil-water separation tank through the introduction pipe so that the inside of the oil-water separation tank flows from the top to the bottom. Through this process, water and oil are separated by using the difference in specific gravity of water and oil, and only water is discharged from the discharge pipe into the sewer.

However, in the treatment apparatus using the above specific gravity separation method, in order to separate water and oil in the oil-containing wastewater, the difference in specific gravity between water and oil must be promoted by increasing the residence time in the oil-water separation tank. It has to be large and there is a problem that separation efficiency is not good in a short time.

Meanwhile, as another example of the flotation separation method, the flotation separation method represented by the flotation separation method consisting of a flotation separation tank, a pressurized pump and a processing liquid circulation system for pressurizing and dissolving air in the liquid to be treated and the oil content by the apparatus There is a wastewater treatment device. The oil-and-water separator using the conventional pressure flotation separation method is provided in the upper side of the process tank, the nozzle which supplies the to-be-processed liquid mixed with air, the air bubble removal part which removes insoluble air, and the exit of the air bubble removal part. And an air bubble discharge pipe for flowing a branched flow of the liquid to be mixed with air, a separator having a liquid level detector and separating the water to be treated, a floating oil receiver, and a separating portion and the floating oil receiver. It consists of a shielding plate, the circulation pipe connected to the processing tank and the lower part of the processing tank, and the discharge piping which branched off the discharge control valve in the middle of the circulation pipe are connected, and the processing liquid control valve which controls the to-be-processed liquid supply amount is connected. The air inlet pipe to which the to-be-processed liquid supply piping, the air flow volume control valve which controls the flow volume of air, and the pump and the pressurization supply piping are closed. A processing device contained in the waste water.

By the above configuration, the microbubbles generated by introducing the gas-liquid mixed fluid of the to-be-processed liquid and air pressurized by 0.3 to 0.8 MPa by the pump into the process tank are combined with the oil particles in the to-be-processed liquid. The oil was floated upward and concentrated, and after the shielding plate was suspended, it was put into the floating oil receiver to separate water and oil from the oil-containing wastewater.

Another conventional method for treating oil-containing wastewater has been to remove the oil from the wastewater by causing a flocculant to act on the wastewater, then suspending the suspended matter and the oil flocculated in the flotation separation step.

However, in the treatment apparatus using the above-mentioned pressure flotation separation method, the smaller the oil content in the waste water, the more difficult it is to adhere to the fine bubbles, and thus there is a problem that it is difficult to concentrate the flotation to the upper portion of the treatment apparatus. For example, even when the oil content in the wastewater is small, it is possible to increase the oil content by using the flocculant, so that it becomes easy to adhere to the fine bubbles. In the case of flotation separation and oil fraction flocculated in flotation separation process to remove oil from the wastewater, the flocculant acts not only on the oil in the wastewater but also on other contaminants, thereby obtaining the desired oil removal performance. Until now, there is a problem that a large amount of flocculant must be used.

An object of the present invention is to provide an oil separation device that can increase the separation efficiency of the oil without using a large amount of flocculant to separate the oil contained in the waste water.

The oil separation device using bubbles according to the present invention for achieving the above object is provided with a receiving space to accommodate the wastewater containing oil and wastewater from the inlet and receiving space into which the wastewater flows into the receiving space. A stirring tank provided with a discharge part to be discharged, a bubble generating unit for sucking the waste water contained in the stirring tank and generating micro-nanometer-sized air bubbles in the sucked waste water and inputting it into the receiving space; The first tank into which the wastewater flows from the inlet and the bubble generator and the second tank separated from the first tank, respectively, and the wastewater introduced from the bubble generator is circulated in the first tank. The circulation induction part disposed in the stirring tank and the oil separated from the waste water are installed in the upper portion of the stirring tank. It characterized in that it comprises a separation unit for transferring from the first tank to the second tank.

The circulation induction part partitions the stirring tank vertically in the stirring tank so as to partition the first tank and the second tank, respectively, and wastewater into the first tank through the bubble generating unit at an upper end of the partition wall. It characterized in that it comprises an inclined plate extending to the bottom of the first tank inclined downward toward the inflow side.

The inclined plate is characterized in that a plurality of guide grooves introduced downward to guide the wastewater introduced from the bubble generating unit is provided.

And an ultrasonic generator including an ultrasonic vibrator installed inside the stirring tank and an ultrasonic oscillator for applying an ultrasonic signal to the ultrasonic vibrator so as to provide ultrasonic waves to the waste water circulated in the stirring tank.

The inlet may be installed on one side of the stirring tank, a filter member for filtering foreign substances from wastewater introduced into the inlet, and the wastewater filtered through the filter member to the first tank. From the waste water inlet pipe extending from the first tank and the foreign matter discharge pipe for discharging the foreign matter filtered from the waste water by the filter member, the discharge portion and the discharge passage is installed on the other side of the stirring tank, the first tank Wastewater in the first tank into the discharge vessel through a horizontal tube extending from the inside of the discharge vessel and an opening extending from the end of the horizontal tube to a position higher than an upper end of the stirring tank and having a portion of an outer circumferential surface thereof cut out. Vertical pipe for discharging the waste water and waste water accommodated in the first tank by lifting up and down in the state inserted into the vertical pipe Characterized in that it comprises a water level control pipe for adjusting the water level and the drain pipe extending from the discharge container to the outside of the discharge container.

The oil separation apparatus using bubbles according to the present invention can efficiently separate the oil contained in the waste water by generating bubbles having a particle size of micro to nanometers in the waste water and stirring them to circulate in the stirring tank.

1 is a partial cutaway perspective view showing an oil separation apparatus using bubbles according to a first embodiment of the present invention,
Figure 2 is a side cross-sectional view of the oil separation device using the bubble shown in Figure 1,
3 is a partial cutaway perspective view showing an oil separation apparatus using bubbles according to a second embodiment of the present invention.
4 is a partial cutaway perspective view showing an oil separation apparatus using bubbles according to a third embodiment of the present invention.

Hereinafter, an oil separation apparatus using bubbles according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 and 2 illustrate an oil separation apparatus using bubbles according to a first embodiment of the present invention.

1 and 2, the oil separation apparatus using bubbles has an accommodation space for accommodating wastewater containing oil and discharges wastewater from the inlet 20 and the accommodation space into which the wastewater enters the accommodation space. A bubble generating unit for sucking the waste water contained in each of the stirring tank 10 and the agitating tank 10 provided with the discharge portion 30 to generate a micro-nanometer sized air bubbles into the receiving space 40 and a second tank separated from the first tank 11 and the first tank 11 through which the agitating tank 10 flows waste water from the inlet 20 and the bubble generator 40. A circulation induction part 50 disposed inside the stirring tank 10 so as to circulate each of the tank 15 and the wastewater introduced from the bubble generator 40 in the first tank 11 and the stirring tank ( 10 is installed in the upper portion of the oil separated from the waste water from the first tank 11 to the second Separation unit 60 to be transferred to the tank (15).

The stirring tank 10 is formed of a rectangular housing having an open top, and is not shown in the figure, but one side is provided with a transparent plate formed of a transparent material so that the separation process in the stirring tank 10 can be observed.

The inlet 20 is an inlet cylinder 21 installed at one end in the longitudinal direction of the stirring tank 10, a filter member 22 for filtering foreign matter from the wastewater introduced into the inlet cylinder 21, and the filter member Wastewater inlet pipe 23 extending from the inlet 21 to the first tank 11 to supply the wastewater from which foreign substances have been removed through the 22 to the first tank 11, and the filter member 22. And a foreign substance discharge pipe 24 for discharging the foreign substances filtered out from the waste water.

The filter member 22 is installed to be inclined with respect to the bottom of the inflow container 21 so that foreign matters can be naturally discharged through the foreign matter discharge pipe 24.

The bubble generating unit 40 sucks the wastewater contained in the stirring tank 10, generates bubbles having a particle size of micro to nanometers in the sucked wastewater, and re-injects the wastewater into the stirring tank 10 by the wastewater suction pipe 41. ), A suction pump 43, a mixing container 44, and an injection pipe 45.

Bubbles generated in the bubble generator 40 is attached to the oil contained in the waste water and floated upward to separate the oil from the waste water contained in the waste water. The smaller the size of the bubbles generated in the bubble generating unit 40 is better, the smaller the size of the bubble is the same amount of air, the smaller the size of the bubble, the more the number of bubbles, the easier the diffusion, because it is easy to disperse inside the stirring tank 10 This is because the contact with oil in the wastewater increases, and the oil in the wastewater can be separated efficiently.

One end of the waste water suction pipe 41 is connected to the lower portion of the stirring tank 10, and the other end thereof extends to the suction pump 43. In the wastewater suction pipe 41, an air suction pipe 42 having an open upper portion is extended upward to generate bubbles in the wastewater through the suction pump 43.

The suction pump 43 generates air bubbles in the waste water by agitating the wastewater and air sucked through the wastewater suction pipe 41 and the air suction pipe 42 at high speed, and the mixing container 44 is supplied from the suction pump 43. Waste water in which bubbles are generated (hereinafter referred to as 'bubble water') is collided in a closed space to generate bubbles having a size smaller than that generated through the suction pump 43.

The injection pipe 45 extends into the stirring tank 10 from the bottom of the mixing container 44.

The circulation induction part 50 includes a partition wall 51 disposed up and down in the stirring tank 10 so as to partition the stirring tank 10 into the first tank and the second tank 15, respectively, and at the upper end of the partition wall 51. It includes an inclined plate 52 extending to the bottom of the first tank 11 inclined downward toward the side into which the bubble water flows into the first tank 11 through the bubble generating unit 40.

The partition 51 has a first tank 11 through which wastewater flows from the inlet 20 and discharges the wastewater to the bubble generator 40, and an inclined plate 52 inside the first tank 11. Each is divided into second tanks 15 in which oil separated from the waste water by the stirring action is accommodated.

The inclined plate 52 is discharged in the direction toward the partition 51 from the injection pipe 45 of the bubble generator 40, that is, the number of bubbles flowing into the first tank 11 inside the second tank 15 It is formed to be inclined so as to be circulated and stirred in the vertical direction by itself.

A plurality of through holes 53 are formed in the inclined plate 52 so that the wastewater can be accommodated in the space between the partition 51 and the inclined plate 52.

On the other hand, when the partition wall 51 is installed to be inclined differently from the figure, the partition wall 51 not only functions to partition the first and second tanks 15 but also an inclined plate for circulating wastewater inside the first tank 11. Since the inclination plate 52 has the function of 52 at the same time, the inclination plate 52 may be omitted.

The discharge part 30 is a discharge cylinder 31 installed at the other end of the stirring tank 10 facing the inlet portion 20 and the discharge tank through the partition 51 inside the first tank 11. (31) The discharge tube 31 through the horizontal tube 32 extending into the interior and the opening 33a, which extends from the end of the horizontal tube 32 to a position higher than the upper end of the stirring tank 10, and whose outer peripheral surface is partially cut out. The vertical pipe 33 for discharging the wastewater in the first tank 11 into the inside, and the water level of the waste water accommodated in the first tank 11 by lifting up and down while being inserted into the vertical pipe 33. It includes a drain pipe (35) extending to the outside of the discharge container 31 in the water level control pipe 34 and the discharge container 31 to adjust the.

The water level control pipe 34 maintains the water level inside the first tank lower than the upper end of the partition wall 51 so as to prevent the wastewater contained in the first tank 11 from directly entering the second tank 15. Let's do it. The water level control pipe 34 is provided with a handle 34a to move up and down along the longitudinal direction of the vertical pipe 33, and the opening 33a of the vertical pipe 33 of the water level control pipe 34 The grooves 33b to which the handle 43a can be inserted are spaced apart in the vertical direction to maintain the height at a predetermined height.

In addition, the water level control pipe 34 according to the amount of oil contained in the waste water, that is, the first tank 11 when the thickness of the oil layer floated to the upper portion of the waste water through the stirring process in the first tank 11 is thick. When the inner water level is lowered and the thickness of the oil layer is thin, the water level inside the first tank 11 is increased to separate and move only the oil from the waste water to the second tank 15 by the separating unit 60 to be described later. do.

Separation unit 60 is installed on the upper portion of the stirring tank 10 to transfer the oil separated from the waste water into the second tank 15 into the shaft 62 rotatably installed in the fixed bracket 61 is a chain ( 63), a scum plate 64 is provided on the chain 63. The scum plate 64 is an oil from the first tank 11 to the second tank 15 floating in the upper portion of the waste water while the chain 63 is rotated by the drive motor 65 for rotating the shaft 62. Transfer.

 The separator 60 typically applies a scum skimmer to remove suspended solids. The scum plate 64 is made of a flexible material.

3 illustrates an oil separation apparatus using bubbles according to the second embodiment of the present invention, in which the inclined plate 52 of the circulation induction part 50 is further provided with a plurality of guide grooves 54.

Referring to FIG. 3, the inclined plate 52 extends downward from an upper surface thereof, extends along the longitudinal direction of the inclined plate 52, and is disposed in the width direction of the inclined plate 52 to be spaced apart by a predetermined interval. ) Is provided.

The guide groove 54 is a first stir through the upper portion of the inlet plate 52, the bubble water discharged from the injection pipe 45 extending from the lower portion of the stirring tank 10 into the first tank 11 via the upper portion of the inclined plate 52 It guides to circulate inside the tank 10. The guide groove 54 may be formed in an angular structure as shown, or may be formed in a waveform different from the illustrated.

As described above, the circulating induction part 50 mixes and circulates the wastewater introduced from the wastewater inlet pipe 23 and the bubbled water introduced into the first tank 11 through the bubble generator 40 together and circulates together. The frequency of contact with the bubbles can be increased, thereby improving the oil separation efficiency.

On the other hand, Figure 4 is an oil separation apparatus using a bubble according to a third embodiment of the present invention further includes an ultrasonic generator.

The ultrasonic wave generator is provided with an ultrasonic vibrator 70 installed inside the stirring tank 10 and the ultrasonic vibrator 70 to provide ultrasonic waves to the wastewater circulated in the stirring tank 10 by the circulation induction unit 50. An ultrasonic oscillator (not shown) connected to the ultrasonic vibrator 70 is provided by an extension line extending out of the stirring tank 10 to apply an ultrasonic signal.

The bubbles generated in the bubble generator 40 are pulverized into fine bubbles having a smaller particle diameter through the ultrasonic waves generated by the ultrasonic vibrator 70, so that not only oil in the waste water but also suspended solids are suspended by the fine bubbles. To improve the quality of the waste water. In addition, it is possible to wash the foreign matter and the like fixed to the inner wall surface of the stirring tank 10 by the waste water. The ultrasonic oscillator may be applied to generate a high frequency signal of the ultrasonic abnormality.

The oil separation apparatus using bubbles according to the present invention described above has been described with reference to one embodiment shown in the drawings, but this is only an example, and those skilled in the art have various modifications and equivalents therefrom. It will be appreciated that other embodiments are possible.

Accordingly, the true scope of the present invention should be determined by the appended claims.

10: stirring tank
11: first tank
15: second tank
20: inlet
30:
34: water level control pipe
40: bubble generation unit
50: circulating induction part
51: bulkhead
52: inclined plate
60: separator
64: splat plate

Claims (5)

A stirring tank provided with an accommodation space for accommodating wastewater containing oil and an inlet for introducing wastewater into the accommodation space and an outlet for discharging wastewater from the accommodation space;
A bubble generator for sucking wastewater contained in the stirring tank to generate bubbles having a size of micro to nanometers in the wastewater and supplying them to the accommodation space;
The stirring tank is divided into a first tank into which wastewater flows from the inlet and the bubble generating unit, and a second tank separate from the first tank, and the wastewater introduced from the bubble generating unit is inside the first tank. A circulation induction part disposed in the stirring tank so as to circulate in the stirring tank;
And a separation unit installed at an upper portion of the stirring tank to transfer oil separated from the waste water from the first tank to the second tank. The method of claim 1,
The circulation induction part
A partition wall disposed vertically in the stirring tank so as to partition the stirring tank into the first tank and the second tank, and the waste water flows into the first tank through the bubble generator from an upper end of the partition wall; Oil fractionation device using the bubble characterized in that it comprises an inclined plate extending downward to the bottom of the first tank inclined downward. The method of claim 2,
The inclined plate is
The oil fractionation device using bubbles, characterized in that a plurality of guide grooves introduced downward to guide the wastewater introduced from the bubble generating unit. The method of claim 1,
Bubbles comprising an ultrasonic generator comprising an ultrasonic vibrator installed inside the stirring tank and an ultrasonic oscillator for applying an ultrasonic signal to the ultrasonic vibrator to provide ultrasonic waves to the waste water circulated in the stirring tank. Oil separator. The method of claim 1,
The inlet
An inlet provided on one side of the stirring tank, a filter member for filtering foreign substances from the wastewater introduced into the inlet, and the wastewater filtered through the filter member to supply the first tank to the first tank. 1 is provided with a waste water inlet pipe extending into the tank and a foreign matter discharge pipe for discharging the foreign matter filtered from the waste water by the filter member,
The discharge portion
A discharge cylinder installed on the other side of the stirring tank, a horizontal tube extending from the inside of the first tank into the discharge cylinder, and extending from an end of the horizontal tube to a position higher than an upper end of the stirring tank, and having a portion of an outer circumferential surface thereof Water level for adjusting the water level of the waste water accommodated in the first tank by vertically lifting up and down in the state inserted into the vertical pipe and the vertical pipe for discharging the waste water in the first tank through the formed opening. Oil distillation apparatus using a bubble, characterized in that it comprises a control tube and a drain pipe extending from the discharge container to the outside of the discharge container.

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