KR101336613B1 - Waste water treatment equipment using pressization surface and ozone oxidation - Google Patents

Abstract

The present invention relates to a waste water treatment device using pressure flotation and ozone oxidation and, more specifically to a waste water treatment device using pressure flotation and ozone oxidation which uses bubbles for floating sludge in waste water for minimizing the damage to the bubbles when the sludge is removed, and smoothly purifying non-degradable organic matters using the oxidation of ozone.

Description

Wastewater treatment system using pressurized flotation and ozone oxidation {WASTE WATER TREATMENT EQUIPMENT USING PRESSIZATION SURFACE AND OZONE OXIDATION}

The present invention relates to a wastewater treatment apparatus using pressurized flotation and ozone oxidation. More specifically, when wastewater is introduced to allow sludge to float through bubbles, the sludge is removed. The present invention relates to a wastewater treatment apparatus using pressurized flotation and ozone oxidation that can smoothly purify difficult-decomposable organic matter.

Due to the continuous industrialization and urbanization, environmental pollution is getting serious day by day, and the shape of discharged sewage, wastewater, and wastewater is also diversified, and the facilities for its treatment are being advanced and treatment costs are increasing.

In addition, as water contaminants in the wastewater that have not been completely treated are introduced into rivers, lakes, and other water sources, there are many problems in efficient water quality management.

Generally, water purification methods such as rivers, dams, and waterways are largely classified into physical purification methods, chemical purification methods, and biological purification methods. Among them, biological purification methods are widely used due to their natural and economic advantages.

Representative methods of biological purification methods include vegetation method, gravel contact oxidation method and biofilm attachment method.

The double vegetation method is to install vegetation in the reservoir / flood water, which has the advantage of good scenery due to natural vegetation and the removal of nitrogen and phosphorus, but requires a large area and requires conditions such as soil for vegetation. However, it is difficult to apply when the lower half (河畔) is made of rock or artificial structure.

In addition, the gravel contact oxidation method can be installed not only in floodplains, reservoirs, but also under the riverbed, and has the advantage of not being affected by sludge due to the simultaneous biological and physical treatments, but the treatment efficiency is low and a separate facility site is required for construction. There is a drawback that the sediment is deposited during the installation of the sewerage and the loss of facilities is feared during flooding.

On the other hand, current water and wastewater treatment technologies include physicochemical methods such as sedimentation, pressurized dissolved air flotation (DAF), filtration, chemical coagulation, and oxidation treatment, as well as metabolic processes of microorganisms in bioreactors containing activated sludge. There is a biological treatment method for maximizing and removing various contaminants. The biological treatment method is mainly used for sewage treatment.

Pressurized dissolved air flotation (DAF) method that can easily remove water contaminant particles by attaching / injuring the ultra-miniature bubbles generated by pressure changes on the surface of water contaminant particles during the physicochemical advanced water treatment process. Additional installations can be used without major changes to existing treatment plant equipment.

This pressurized dissolved air flotation method is used using a high pressure facility because it can obtain a stable and high efficiency treatment effect not only for water pollutant particles but also for removing total phosphorus (T-P).

However, in order to allow sludge to float on the surface of the water polluted particles by using a pressure-dissolved air flotation method, wastewater is introduced into the inflow tank.In the process of introducing wastewater, the wastewater flows into the inflow tank. Due to the turbulence, the ultra-mini-foam and floc are broken or flocculated sludge is dispersed, and there is a problem in that it does not float to the top of the inflow tank and settles.

Ozone oxidation was used as a chemical purification method in addition to the purification of waste water through the air flotation method, but the cohesive force of the particles is reduced due to the oxidizing power of the ozone gas, and thus there is a problem in that the treatment efficiency is reduced as more flocculants are required.

In addition, due to the oxidizing power of ozone gas core equipment for cleaning waste water is corroded to increase the failure of the equipment, there is a problem that the cost of the resulting equipment is reduced.

Patent Document Registration Patent 10-1128679

The present invention has been made to solve the above problems, wastewater treatment apparatus using a pressurized flotation and ozone oxidation according to the present invention, by purifying the wastewater through the pressure dissolved injuries and purification of the wastewater through ozone oxidation, It is an object of the present invention to provide a wastewater treatment apparatus using pressurized flotation and ozone oxidation to purify wastewater through organic matter removal and oxidation.

Wastewater treatment apparatus using pressurized flotation and ozone oxidation according to the present invention, while the waste water is mixed with the micro-bubbles to remove the sludge to minimize the drop impact and turbulence of the raw water generated in the process of the waste water is introduced into the water It is an object of the present invention to provide a wastewater treatment apparatus using pressurized flotation and ozone oxidation to smoothly purify wastewater through oxidation of wastewater by ozone while preventing microbubbles and flocs from being broken.

Wastewater treatment apparatus using pressurized flotation and ozone oxidation according to the present invention, while preventing the deterioration of cohesion of wastewater sludge particles while using ozone gas, while fine bubbles and flocs (floc) is not broken and floated on the surface with sludge smoothly It is an object of the present invention to provide a wastewater treatment apparatus using pressurized flotation and ozone oxidation to remove sludge.

The wastewater treatment apparatus using pressurized flotation and ozone oxidation according to the present invention is capable of preventing corrosion of the purification apparatus while purifying wastewater using ozone gas, and is capable of removing sludge of wastewater in a short time. The purpose is to provide a wastewater treatment apparatus using.

Wastewater treatment apparatus using a pressurized flotation and ozone oxidation according to the present invention, the agitation unit (100) to allow the waste water 30 is introduced to agglomerate while stirring with the drug; A body unit 200 having a space in which the stirred waste water 30 is introduced through the stirring unit 100 and having raw water 10 stored therein; Bubble water which is connected to the stirring unit 100 and the body unit 200 is connected to the transfer pipe 390 in the form of a tube, the water containing bubbles in the waste water 30 passing through the transfer pipe 390 Bubble water supply unit 300 for supplying 50; It is disposed under the water surface of the raw water 10 of the body unit 200 while being connected to the transfer pipe 390, the bubble water 50 and the waste water 30 is mixed in the transfer pipe 390 An injection unit 400 for spraying the mixed water 70 into the body unit 200; A sludge removal unit 500 disposed on an upper surface of the raw water 10 of the body unit 200 to remove sludge of the mixed water 70 floating above the raw water 10; And connected to the body unit 200 and the tube-shaped connecting pipe 610, through the sludge removal unit 500 inside the body unit 200 by oxidizing and purifying the raw water 10 from which the suspended matter is removed It includes; oxidation unit (600).

The spray unit 400 sprays the mixed water 70 in a horizontal direction or a horizontal downward direction at a position 2 to 10 cm below the surface of the raw water 10 in the body unit 200.

The body unit 200 is disposed under the spray unit 400 of the raw water 10 to precipitate while guiding the solids 80 of the mixed water 70 introduced into the raw water 10 to be precipitated. The slanted guide plate 210 and the bottom surface of the body unit 200 are formed to be inclined downward so as to be spaced apart from the plurality of spaced apart solid 80, the precipitation groove 212 is formed between the spaced apart therebetween A plurality of inverted triangular form is formed in the solid storage groove 220 to be discharged after the solid 80 is precipitated from the mixed water 70 is stored.

The bubble water supply unit 300 supplies the bubble water 50 to the waste water 30 passing through the transfer pipe 390 so that the floc particles of the waste water 30 are dispersed due to the bubbles. Bubble water generator 310 to supply to the unit 200, the raw water 10 and the air in the body unit 200 after the oxidation through the oxidation unit 600, the bubble water generator 310 A flow pipe 320, which is a passage to flow through, and a pressure pump 330 connected to the flow pipe 320 to provide power to flow the raw water 10 in the flow pipe 320, and the flow pipe ( Connected to the 320, the compressor 340 for supplying air to the raw water 10 and the pressure tank 350 to mix the air supplied from the raw water 10 and the compressor 340 with each other It includes.

The bubble water generator 310, the bubble generating body 312 receives the raw water 10 provided from the flow tube 320 and the raw water 10 introduced into the bubble generating body 312 is The injection plate 314 is disposed on the way to move to the body unit 200, and is disposed between the bubble generating body 312 and the injection plate 314, so that the raw water 10 can flow into the interior A bottleneck plate 311 having a diameter smaller than that of the bubble generating body 312 and having a bottleneck groove 319 formed therethrough, and a space between the bottleneck plate 311 and the jet plate 314. And a plurality of expansion spaces 315 into which the raw water 10 exiting the bottleneck groove 319 enters, and a plurality of holes are drilled in the jet plate 314, and the raw water 10 and the compressor 340. After the air supplied from the mixed by the pressure tank 350 is formed passing through the bottleneck groove 319 and the expansion space 315 It includes a groove injection groove 316 by pressure difference between the air bubbles can 50 is injected.

The injection unit 400, the plate-shaped injection plate 410 is disposed in the transfer pipe 390 connected to the lower surface of the raw water 10 in the body unit 200, and the transfer pipe 390 A plurality of injection nozzles 420 are arranged on the edge portion of the jet plate 410 to spray the mixed water 70 introduced into the jet plate 410 in the horizontal direction or horizontal down direction to the raw water 10 ).

The sludge removal unit 500, the sludge storage tank is disposed to be connected to the outside from the inside of the body unit 200, the sludge of the mixed water 70 floating on the water surface of the raw water 10 is discharged and stored ( 510, a plurality of plate-shaped scrapers 520 for pushing the sludge of the mixed water 70 into the sludge storage tank 510, and an endless track type to push the sludge while the scrapers 520 flow. It includes a rotating body 530 to rotate.

The oxidation unit 600 may supply ozone to the oxidation tank 630 in which the raw water 10 supplied from the body unit 200 is stored through the connection pipe 610, and the oxidation tank 630. The ozone generator 640 which generates ozone so as to be connected to the ozone generator 640 and the oxidizing tank 630 at the same time, and the raw water 10 supplied from the oxidizing tank 630 is the ozone generator 640. After dissolving with ozone supplied from the water to form ozone water 602, the oxygen is supplied to the ozone melting tank 650 for supplying the ozone water 602 back to the oxidizing tank 630, and the ozone generator 640. Oxygen generator 690 for generating oxygen, and an air compressor 695 for allowing oxygen generated in the oxygen generator 690 to be transferred to the ozone generator 640.

The oxidation unit 600 maintains a constant amount of the raw water 10 in the oxidizing tank 630, while the raw water 10 purified through oxidation is discharged to the outside of the oxidizing tank 630. A discharge pipe 620 to be formed, an exhaust port 660 formed in the oxidizing tank 630 to allow residual ozone to be discharged to the outside in the oxidizing tank 630, and the raw water 10 of the oxidizing tank 630. ) Is formed in the ozone melting tank 650 and the ozone transport pipe 670 connected to the oxidizing tank 630 so that the ozone melting tank 650 and the bubble water supply unit 300 are distributed and transported. The ozone water 602 further includes an ozone supply pipe 680 to be supplied to the oxidizing tank 630 again.

The dissolution tank 650 is operated at an operating pressure of 1 Pa or less, and when ozone flows from the ozone generator 640 to the dissolution tank 650, the dissolution tank 650 flows through a negative pressure of the dissolution tank 650.

The wastewater treatment apparatus using pressurized flotation and ozone oxidation according to the present invention has the technical effect of optimizing the purification efficiency by allowing the purification of the wastewater through organic matter removal and oxidation.

Wastewater treatment apparatus using pressurized floatation and ozone oxidation according to the present invention, while smoothly purifying the waste water through the oxidation of the waste water by ozone, sludge due to minimizing the drop impact in the process of the waste water mixed with fine bubbles into the water There is a technical effect to improve the sludge removal efficiency to be removed while floating on the surface within a short time.

The wastewater treatment apparatus using pressurized flotation and ozone oxidation according to the present invention can maintain the cohesive force of wastewater sludge while using ozone, so that the wastewater mixed with microbubbles floats and is removed in a short time, thereby improving sludge removal efficiency. There is a technical effect.

Wastewater treatment apparatus using pressurized flotation and ozone oxidation according to the present invention, while the waste water is purified by the oxidation of the waste water through ozone, while the sludge of the waste water is floated and removed in a short time with the fine bubbles on the surface of the sediment is generated. By minimizing this, there is a technical effect that can shorten the time and process according to the waste water purification.

Wastewater treatment apparatus using pressurized flotation and ozone oxidation according to the present invention, while purifying the waste water using ozone gas can prevent the corrosion of the purification device, the raw water smoothly while maintaining the flocculation form without breaking the floc of waste water There is a technical effect to be able to float to the top of the contaminant can be efficiently removed.

1 is a view showing a wastewater treatment apparatus using pressurized flotation and ozone oxidation according to the present invention.
2 is a view showing the main portion of the wastewater treatment apparatus using the pressure injury and ozone oxidation according to the present invention.
3 is a view showing another main part of the wastewater treatment apparatus using the pressure injury and ozone oxidation according to the present invention.
4 is a view showing still another main portion of the wastewater treatment apparatus using the pressure injury and ozone oxidation according to the present invention.
5 is a view showing another main part of the wastewater treatment apparatus using the pressure injury and ozone oxidation according to the present invention.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views, and length and area, thickness, and the like may be exaggerated for convenience.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, so that those skilled in the art can easily carry out the present invention.

In the following detailed description, pressurized and ozone can smoothly purify difficult-decomposable organic matter through oxidation of ozone while minimizing bubble damage when sludge is removed by allowing the sludge to float through the air by introducing waste water as an example. Of course, the technical configuration of the wastewater treatment apparatus [particularly, the injection unit, the oxidation unit] using oxidation may be equally applied.

In the dissolved air flotation (DAF) method, the microbubbles generated by the pressure change in the process of ejecting the supersaturated water under the pressurized state through the dispersion nozzle or the like under normal pressure are floated in the water. It refers to colliding with and colliding with colloidal material in the water to float the object to be removed such as colloid to the surface.

The ozone oxidation method, which is a chemical purification method using chemical oxygen demand (COD), can purify waste water while oxidizing ozone by adding oxidant to water containing organic substances.

1 is a view showing a wastewater treatment apparatus using pressurized flotation and ozone oxidation according to the present invention.

Looking at Figure 1, the waste water 30 is introduced to have a stirring unit 100 to agglomerate while stirring with the drug.

In addition, the body has a space in which the stirred waste water 30 is introduced through the stirring unit 100, and a body unit 200 in which the raw water 10 is stored is formed.

In addition, the stirring unit 100 and the body unit 200 is connected to the transfer pipe 390 in the form of a tube, the water containing the bubbles in the waste water 30 passing through the transfer pipe 390 It has a bubble water supply unit 300 for supplying the bubble water (50).

In addition, the bubble water 50 and the waste water 30 are mixed under the water surface of the raw water 10 of the body unit 200 while being connected to the transfer pipe 390. The injection unit 400 for injecting the mixed water 70 into the body unit 200 is formed.

In addition, the sludge removal unit 500 is disposed on an upper surface of the raw water 10 of the body unit 200 to remove sludge of the mixed water 70 floating above the raw water 10.

Finally, the body unit 200 is connected to the tube through the connection pipe 610, the raw water 10 is removed from the suspended solids through the sludge removal unit 500 inside the body unit 200 And an oxidation unit 600 for purification.

Here, the stirring unit 100 has a rapid stirrer 110 to agglomerate the sludge of the waste water 30 while the waste water 30 and the coagulant and the neutralizing agent are stirred at 160 to 200 rpm.

In this case, a coagulant 20 using polyaluminum chloride (PACI), slaked lime (calcium hydroxide), iron oxide, iron sulfate, or the like, is introduced into the rapid stirrer 110.

The coagulant 20 is a drug added to the liquid to form agglomerates of solid particles suspended in the liquid, thereby inducing coagulation by eliminating the electrical repulsive force between the particles.

In the rapid stirrer 110, a neutralizer 40 is added to neutralize an acidic or alkaline substance.

Here, when the stirring speed of the rapid stirrer 110 is less than 160 rPam, a large amount of the waste water 30 may not be smoothly aggregated. When the stirring speed of the rapid stirrer 110 exceeds 200 rｐm, The flocculated floc 90 of the waste water 30 may be rather broken.

The rapid stirrer 110, the waste water 30 is introduced in a large amount to perform a function to be agitated by stirring with the drug in a short time.

In addition, the stirring unit 100, the slow stirrer 120 to agglomerate the sludge of the waste water 30 while the waste water 30 stirred in the rapid stirrer 110 is stirred with the coagulant assistant at 30 to 60 rpm. It includes.

In addition, in the slow stirrer 120, in order to further increase the coagulation effect, coagulation aids 60 such as soda ash (Na 2 CO 3), slaked lime (Ca (OH) 2), quicklime (CaO), caustic soda (NaOH), and the like are added. Is committed.

Here, the slow stirrer 120, through the rapid stirrer 110 is to perform the function of further agglomeration in a state in which the particles of the waste water 30 are aggregated to some extent.

At this time, when the stirring speed of the slow stirrer 120 is less than 30 rｐm, additional agglomeration of the wastewater 30 particles may not be performed smoothly, and when the stirring speed of the slow stirrer 120 exceeds 60 rｐm, The floc of the waste water 30 may be broken.

The stirring unit 100, the waste water (30) introduced by rotating a comb blade (not shown) installed in the interior of the rapid stirrer 110 and slow stirrer with a motor (not shown) to the Agitation with the mentioned chemicals is allowed to aggregate.

The waste water 30 aggregated through the stirring of the stirring unit 100 is transferred through the transfer pipe 390 to be introduced into the body unit 200.

In this case, the waste water 30 is supplied from the bubble water supply unit 300 through the bubble water supply unit 300 while being transferred from the transfer pipe 390.

The waste water 30 is mixed with the ultra-fine bubbles of the bubble water 50 to form the mixed water 70, the mixed water 70, bubbles in the state in which the contaminants of the waste water 30 are aggregated After that by being able to rise to the top of the raw water 10 stored in the body unit 200 inside.

The body unit 200, the mixed water 70 is mixed with the bubble water 50 is supplied from the bubble water supply unit 300 is the waste water 30 is stirred through the stirring unit 100 Has a space to be introduced, and has a space in which the raw water 10 is stored.

Here, the body unit 200 is disposed below the injection unit 400 of the raw water 10 to guide the precipitation of the solids 80 of the mixed water 70 introduced into the raw water 10. While the precipitated solids 80 are prevented from floating, a plurality of layers are spaced apart to be inclined downward, and the inclined guide plate 210 is formed between the spaced apart grooves 212.

And, the body unit 200 is formed in the form of a plurality of inverted triangle on the bottom surface of the body unit 200 is a solid material storage groove to be discharged after the solid 80 precipitated from the mixed water 70 is stored ( 220).

In addition, the inside of the body unit 200, the portion from which the sludge of the mixed water 70 and the raw water 10 is treated is discharged to the outside of the body unit 200 partition plate 260 Is partitioned by).

In the body unit 200, the mixed water 70 is separated into raw water 10 from which sludge and suspended solids are removed through the injection unit 400 and the sludge removing unit 500, respectively. Is discharged to the outside of the 200, the raw water 10 from which the suspended matter is removed is flowed to the oxidation unit 600 through the tube-type connecting pipe 610.

On the other hand, the bubble water supply unit 300 is connected to the transfer pipe 390 of the tubular form that connects the stirring unit 100 and the body unit 200, the passing through the transfer pipe 390 The bubble water 50 is supplied to the waste water 30.

To this end, the bubble water supply unit 300, by supplying the bubble water 50 to the waste water 30 passing through the transfer pipe 390 so that the particles of the waste water 30 are dispersed by the bubbles It has a bubble water generator 310 to supply to the body unit 200.

In addition, the bubble water supply unit 300, after the raw water 10 and the air in the body unit 200 is oxidized through the oxidation unit 600, so as to flow to the bubble water generator (310). It has a flow pipe 320 which is a passage and a pressure pump 330 connected to the flow pipe 320 to provide power for allowing the raw water 10 to flow in the flow pipe 320.

In addition, the bubble water supply unit 300 is connected to the flow pipe 320 and the compressor 340 for supplying air to the raw water 10, and similarly connected to the flow pipe 320, the flow pipe 320 includes a pressure tank 350 to allow the raw water 10 and the air provided from the compressor 340 to be mixed with each other.

Here, the flow pipe 320 is indirectly connected to the oxidation unit 600, the raw water 10 oxidized through the oxidation unit 600 after passing through the pressure pump 330, the bubble water generator ( 310 may be supplied.

The compressor 340 may be omitted according to a user's needs.

That is, the bubble water generator 310, after the raw water 10 stored in the lower portion of the body unit 200 is oxidized through the oxidation unit 600, through the pressure pump 330, the Flowing through the flow pipe 320, through the compressor 340 and the pressure tank 350 to achieve the bubble number 50 having a fine bubble.

Subsequently, the bubble water generator 310 sprays the generated bubble water 50 into the waste water 30 passing through the transfer pipe 390 and the mixed water 70 is mixed with the body unit ( 200 to be introduced into the interior.

Particles of the bubble water 50 injected into the waste water 30 in the transfer pipe 390 in the bubble water generator 310 is preferably 35 to 55㎛.

In this case, when the particles of the bubble water 50 injected from the bubble water generator 310 is less than 35㎛, the pressure in the pressure tank 350 must be increased, so that the cost is increased accordingly. There are disadvantages.

In addition, when the particles of the bubble water 50 injected from the bubble water generator 310 exceeds 55 μm, bubble particles of the waste water 30 and the mixed water 70 become large, and bubbles and flocs are increased. 90 can be easily broken so that the number of bubble particles of the flocculation flocs 90 floating above the surface of the raw water 10 is reduced.

Here, the generation process of the bubble water 50 will be described in more detail below.

On the other hand, the injection unit 400 is disposed under the water surface of the raw water 10 of the body unit 200 while being connected to the transfer pipe 390, the bubble water 50 in the transfer pipe 390 And the mixed water 70 in which the waste water 30 is mixed is sprayed in the horizontal direction or the horizontal downward direction under the water surface of the raw water 10 in the body unit 200.

The sludge removal unit 500 removes the floc 90 of the mixed water 70 that is disposed above the surface of the raw water 10 of the body unit 200 and floats to the upper portion of the raw water 10. To perform the function.

Here, the stirring unit 100, the bubble water supply unit 300 and the injection unit 400, the sludge removal unit 500, supplies power to the respective devices and is set by the user's needs It is operated by a controller (not shown) for controlling the devices according to the information.

Since the controller is a commonly used device, a description of the controller will be omitted.

Finally, the oxidation unit 600 is connected to the body unit 200 and the tube through a connecting pipe 610.

The oxidation unit 600 oxidizes and purifies raw water 10 from which suspended matter is removed through the injection unit 400 and the sludge removal unit 500 in the body unit 200. Will perform.

That is, in the body unit 200, the mixed water 70 is supplied to the oxidation unit 600, the raw water 10 is purified by removing the suspended matter, the sludge suspended solids are discharged to the outside to be purified or disposed separately Done.

In the oxidation unit 600, as the suspended solids are removed from the body unit 200, the purified raw water 10 is oxidized to be further purified.

As a result, the body unit 200, to remove the suspended solids through the dissolved air flotation (DAF) method, the oxidation unit 600, the chemical purification method using a chemically defined oxygen demand (COD) Through the raw water 10 to be purified through so that the raw water 10 is to be purified in a double.

At this time, some of the raw water 10 oxidized and purified in the oxidation unit 600, some of the circulated to be discharged to the outside of the oxidation unit 600 or supplied with ozone according to the user's needs, and again the oxidation unit ( 600, the other part is supplied to the pressure pump 330 is to be transferred back to the body unit 200.

In addition, the connection pipe 610 may be provided with a valve (not shown) for controlling the raw water 10 to flow in one direction from the body unit 200 to the oxidation unit 600.

Particularly, some of the raw water 10 oxidized through the oxidation unit 600 is supplied from the oxidation unit 600 to the body unit 200 again through the flow pipe 320, and the other part is oxidized. It will be supplied to the unit 600.

Here, the content of the oxidation unit 600 will be described in more detail below.

2 is a view showing the main portion of the wastewater treatment apparatus using the pressure injury and ozone oxidation according to the present invention.

Referring to FIG. 1, referring to FIG. 2, as mentioned above, the injection unit 400 is below the surface of the raw water 10 of the body unit 200 while being connected to the transfer pipe 390. It is disposed, the transfer pipe 390 to perform the function of spraying the mixed water 70 in which the bubble water 50 and the waste water 30 is mixed in the body unit 200.

To this end, the injection unit 400, injects the mixed water 70 at a position 2 to 10 cm below the water surface of the raw water 10 in the body unit 200.

At this time, the injection unit 400, the transfer pipe 390 has a plate-shaped injection plate 410 is connected to the lower surface of the raw water 10 in the body unit 200.

In this case, the injection plate 410 is connected to the transfer pipe 390, the side surface of the injection plate 410 may have a variety of forms, such as inverted triangle shape or square shape.

The spray unit 400 sprays the mixed water 70 introduced into the spray plate 410 from the transfer pipe 390 to the raw water 10 in the horizontal direction or the horizontal lower direction. Including a plurality of injection nozzle 420 is arranged on the edge portion of the plate 410.

The spray plate 410 of the spray unit 400 is disposed below the water surface of the raw water 10 so that the spray nozzle 420 sprays the mixed water 70 by the spray nozzle 420. This is to minimize the cracking of the floc 90 of the aggregated sludge while the sprayed mixed water 70 collides with the raw water 10.

In addition, since the mixed water 70 is injected under the surface of the raw water 10, a drop impact in which the mixed water 70 falls on the raw water 10 and turbulence are generated in the raw water 10. It is to prevent the impact that can be generated in the raw water 10 to be minimized.

That is, the spray nozzle 420 sprays the mixed water 70 in the horizontal direction or the horizontal down direction under the water surface of the raw water 10, and the mixed water 70 collides with the raw water 10. By minimizing the friction force and minimizing the generation of the wavelength in the raw water 10 to prevent turbulence is generated to minimize the floc 90 of the sludge.

As a result, the flocculation floc 90 mixed in the mixed water 70 is dispersed and introduced into the size of the bubbles while maintaining the aggregated state by the ultra-fine bubbles to rise to the top of the raw water 10.

In this way, the flocculation floc 90 floating to the top of the raw water 10 by the injection unit 400 is removed by the sludge removal unit 500 to be discharged to the outside of the body unit 200 to be stored separately. do.

On the other hand, the body unit 200 is disposed below the injection unit 400 of the raw water 10 to guide the solid matter 80 of the mixed water 70 introduced into the raw water 10 is precipitated. While the precipitated solids 80 are prevented from floating, a plurality of layers are spaced apart to be inclined downward, and the inclined guide plate 210 is formed between the spaced apart grooves 212.

The inside of the body unit 200, the sludge of the mixed water 70 is discharged and the portion of the raw water 10 is processed is discharged to the outside of the body unit 200 to the partition plate 260 Is partitioned by

In addition, the body unit 200 may be supplied to the oxidation unit 600 through the connection pipe 610, wherein the raw water 10 to be purified by removing the suspended matter inside the body unit 200. It is connected to the oxidation unit 600.

In this way, the sludge suspended solids of the mixed water 70 of the body unit 200 is discharged to the outside, and the raw water 10 purified through the pressure flotation through the connecting pipe 610 the oxidation unit 600 To be supplied.

3 is a view showing another main part of the wastewater treatment apparatus using the pressure injury and ozone oxidation according to the present invention.

Referring to FIG. 1, referring to FIG. 3, as mentioned above, the sludge removing unit 500 is disposed above the surface of the raw water 10 of the body unit 200, and thus the upper portion of the raw water 10. It is to perform the function of removing the flocculated floc 90 of the mixed water 70 to rise.

To this end, the sludge removal unit 500 is disposed to be connected to the outside from the inside of the body unit 200, the sludge of the mixed water 70 that floats on the water surface of the raw water 10 is discharged and stored It has a sludge storage tank 510.

The sludge removal unit 500 includes a plurality of plate-shaped scrapers 520 for pushing the sludge of the mixed water 70 into the sludge storage tank 510 and a flocculation floc while the scrapers 520 flow. It includes a rotating body 530 that rotates in a caterpillar form to push the 90.

That is, when the flocculated flocs 90 of the mixed water 70 rise to the upper portion of the raw water 10 by the micro bubbles, the rotary body 530 is rotated, and thus the scraper in the form of a plate ( As the 520 is interlocked, the flocculation floc 90 is brought into close contact with the surface of the scraper 520 to be moved to the sludge storage tank 510.

Here, the sludge removal unit 500, but the caterpillar form as an example, if the flocculation floc 90 floated above the raw water 10 can be moved to the sludge storage tank 510 in the form of a plate on a vertical axis It may have various forms such as being formed.

In particular, the body unit 200, the raw water 10 through the connecting pipe 610 through the opening and closing to maintain a constant amount of the purified raw water 10 in the body unit 200. It is supplied to the oxidation unit 600.

Therefore, when a large amount of the mixed water 70 is introduced into the body unit 200, since the depth of the raw water 10 may increase, the purified raw water 10 is connected to the connection pipe ( By the flow to the oxidation unit 600 through 610, it is possible to control the depth of the raw water 10 in the body unit 200.

And, the body unit 200, the sludge is discharged from the portion of the mixed water 70 and the raw water 10 is processed and the portion flowing into the oxidation unit 600 is divided into the partition plate 260 Is partitioned by

Through the partition plate 260, it is possible to prevent mixing with the clean raw water 10 in the process of discharging the sludge of the mixed water 70.

4 is a view showing still another main portion of the wastewater treatment apparatus using the pressure injury and ozone oxidation according to the present invention.

Referring to FIG. 1, referring to FIG. 4, as mentioned above, the bubble water supply unit 300 is connected to a lower portion of the body unit 200 to receive the raw water 10, and the raw water 10 is mixed with the microbubble bubble 50 is mixed with the waste water 30 to perform a function to be provided into the upper portion of the body unit 200.

To this end, the bubble water supply unit 300, the bubble water to generate the bubble water 50 so that the raw water 10 is mixed with the fine bubbles to be the bubble water 50 to supply to the transfer pipe 390 Has a generator 310.

Here, the bubble water generator 310, the bubble generating body 312 receives the raw water 10 provided from the flow tube 320 through the oxidation unit 600, and the bubble generating body 312 The raw water 10 introduced to the has a jet plate 314 is disposed on the road that is moved to the transfer pipe 390.

In addition, the bubble water generator 310 is disposed between the bubble generating body 312 and the jet plate 314, the inside of the bubble generating body 312 so that the raw water 10 can flow therein The bottleneck plate 311 has a diameter smaller than the diameter and has a bottleneck groove 319 formed therethrough.

In addition, the bubble water generator 310 forms a space between the bottleneck plate 311 and the jet plate 314, the expansion space into which the raw water 10 exiting the bottleneck groove 319 enters ( 315).

Finally, a plurality of bubble water generator 310 is perforated in the jet plate 314, the air supplied from the raw water 10 and the compressor 340 by the pressure tank 350. After the mixing, the bottleneck groove 319 and the expansion space 315 passing through the pressure difference is formed into the bubble water 50 includes an injection groove 316 which is a groove is injected.

Looking at the process of generating the bubble water 50 by the bubble water generator 310, the raw water 10 is stored in the lower portion of the body unit 200 receives the power from the pressure pump 330 It is oxidized and purified while passing through the oxidation unit 600.

Thus, some of the raw water 10 which has passed through the oxidation unit 600 is circulated and supplied to the oxidation unit 600 again, and the other part is supplied to the flow tube 320 to be supplied to the body unit 200 again. It becomes possible.

At this time, the raw water 10 and the compressed air are simultaneously flown in the flow pipe 320 through the compressor 340 which provides the compressed air to the raw water 10.

In addition, the raw water 10 and the compressed air are mixed with each other by the pressure tank 350 such that numerous bubbles may be mixed in the raw water 10.

Thus, the raw water 10 and the compressed air bubbles are mixed in the flow tube 320 in a mixed state, and then enters the bubble water generator 310.

Here, the bubble water generator 310 performs a function of generating more bubbles in a smaller size in the raw water 10 supplied in a state where the raw water 10 and the compressed air bubble are mixed.

That is, the raw water 10 mixed with the compressed air bubble exits the bottleneck groove 319 of the bottleneck plate 311 and enters the expansion space 315 wider than the bottleneck groove 319, and thus the raw water 10. Since the pressure applied to (10) is suddenly formed low, fine bubbles are generated.

Thus, the raw water 10 entered into the expansion space 315 hits the jet plate 314 and generates fine bubbles, and becomes the bubble water 50 to flow again through a plurality of narrow injection grooves 316. do.

The bubble water 50 passing through the injection groove 316 is mixed with the waste water 30 of the transfer pipe 390 to form the mixed water 70 and through the transfer pipe 390. The body unit 200 is injected into the raw water 10 through the injection unit 400.

While the mixture 70 has fine bubble particles, the flocculation floc 90 particles are separated and introduced smaller than the bubble size of the mixed water 70 so as to float on the surface of the raw water 10 so that the sludge removing unit ( Can be removed via

5 is a view showing another main part of the wastewater treatment apparatus using the pressure injury and ozone oxidation according to the present invention.

Referring to FIG. 1, referring to FIG. 5, the oxidation unit 600 includes an oxidation tank 630 in which raw water 10 supplied from the body unit 200 is stored through the connection pipe 610. It may include an ozone generator 640 for generating ozone to supply ozone to the oxidizing tank 630.

In addition, the oxidation unit 600 is connected to the ozone generator 640 and the oxidizing tank 630 at the same time, so that the raw water 10 supplied from the oxidizing tank 630 in the ozone generator 640. After dissolved with the supplied ozone to form the ozone water 602, it may include an ozone melting tank 650 for supplying the ozone water 602 to the oxidation tank 630 again.

In addition, the oxidation unit 600, the oxygen generator 690 for generating oxygen to supply oxygen to the ozone generator 640, and the oxygen generated in the oxygen generator 690 is the ozone generator 640 It may include an air compressor (695) to be transferred to.

Here, the air compressor 695 supplies air to the ozone water 602, and the ozone water 602 is divided into the ozone melting tank 650 and the pressure tank 350 through a flow pipe 320. Will be.

When the air is supplied to the ozone water 602 through the air compressor 695, the compressor 340 connected to the pressure tank 350 through the flow pipe 320 may be omitted.

Here, the ozone generator 640, by supplying ozone to the raw water 10 from which the suspended matter is removed through the body unit 200, ozone to purify the raw water 10 through ozone oxidation, which is a chemical purification method. After the generation, it is supplied to the ozone melting tank 650.

In this case, if the ozone generator 640 can purify the raw water 10 through oxidation of the raw water 10 by a chemical purification method, it is natural that various solutes other than ozone may be used.

In addition, the ozone dissolution tank 650 serves to allow the ozone supplied through the ozone generator 640 to become a solute and the raw water 10 introduced from the oxidizing tank 630 to become a solvent to dissolve with each other. You will be in charge.

When the raw water 10 is dissolved with ozone in the ozone dissolution tank 650, the ozone water 602 is formed to be transferred to the oxidation tank 630 again.

In this case, the oxygen generator 690 supplies oxygen to the ozone generator 640 and generates oxygen for supplying to assist the generation of ozone in the ozone generator 640.

The air compressor 695 serves to provide air while allowing oxygen generated from the oxygen generator 690 to be transferred to the ozone generator 640.

In particular, as mentioned above, after the raw water 10 has passed through the oxidizing tank 630 through the pressure pump 330, the ozone melting tank 650 and the oxidation through the flow pipe 320 Since the air compressor 695 may be distributed and supplied to the tank 630 or the pressure tank 350, the compressor is connected to the flow pipe 320 to supply air to the raw water 10. 340 may be omitted according to a user's needs.

To this end, the oxidation unit 600, the oxidation tank 630 so that the raw water 10 of the oxidation tank 630 is distributed to the ozone melting tank 650 and the bubble water supply unit 300 and transported. ) And an ozone transport pipe 670 connected to the pressure pump 330.

In addition, the oxidation unit 600 may further include an ozone supply pipe 680 for supplying the ozone water 602 formed in the ozone dissolution tank 650 to the oxidation tank 630 again.

Here, the ozone transport pipe 670 is connected to the pressure pump 330 so that the ozone water 602, which is oxidized and flows in the oxidizing tank 630, may be supplied to the pressure pump 330.

That is, one end of the pressurized pump 330 is connected to the ozone transport pipe 670 and the other end of the pressurized pump 330 is connected to the flow pipe 320 to pass the ozone water 602 through the pressurized pump 330. ) Is to be distributed and transported to the ozone melting tank 650 and the pressure tank 350 through the flow pipe 320.

To this end, the flow pipe 320 is formed in a 'T' shape, a portion of the ozone water 602 passing through the pressure pump 330 is supplied to the ozone melting tank 650, the other portion is the pressure tank ( 350) to ensure a smooth supply.

In addition, the ozone generator 640 for generating and supplying ozone to the ozone melting tank 650, and the oxygen generator 690 and oxygen generator 690 for generating and supplying oxygen to the ozone generator 640. The air compressors 695 for supplying air are arranged side by side.

Subsequently, the ozone generator 640, the oxygen generator 690, and the air compressor 695 are supplied to the flow pipe 320 for supplying the ozone water 602 from the pressure pump 330 to the ozone dissolution tank 650. It is connected to supply ozone, oxygen and air to the ozone water 602 flowing to the ozone melting tank 650.

That is, the ozone water 602 oxidized and purified in the oxidizing tank 630 is transferred to the pressure pump 330 through the ozone transport pipe 670, and passes through the pressure pump 330 to the ozone water ( A part of 602 is supplied to the ozone melting tank 650 through the flow pipe 320, and the other part is returned to the body unit 200 through the pressure pump 350 through the flow pipe 320. Can be supplied.

In addition, the ozone water 602 transferred to the ozone melting tank 650 through the flow pipe 320 cannot go directly to the pressure pump 330 or the pressure tank 350, and the ozone supply pipe 680. After being introduced into the oxidizing tank 630 again and then transferred from the ozone transport pipe 670 to the pressurized pump 330, the pressure tank 350 or the ozone melting tank through the flow pipe 320. It is divided into 650 and has a purified structure that is circulated while being supplied.

However, the ozone water 602 disposed inside the flow pipe 320 before being transferred to the ozone melting tank 650 is connected to the ozone generator 640, the oxygen generator 690, and the air compressor 695. It may be transferred to the pressure tank 350 through the flow pipe 320.

In particular, the dissolution tank 650, the operating pressure is operated at 1 Pa or less, when ozone flows from the ozone generator 640 to the dissolution tank 650, it can flow through the negative pressure of the dissolution tank 650 Make sure

That is, the pressure inside the dissolution tank 650 is lower than the pressure inside the ozone generator 640 so that ozone generated by the ozone generator 640 is negatively generated by the negative pressure of the dissolution tank 650. 640 is sucked into the dissolution tank 650 is to flow.

As a result, ozone generated in the ozone generator 640 may be smoothly flowed into the dissolution tank 650 without a pressure pump for pressurizing a separate ozone between the dissolution tank 650 and the ozone generator 640. It will be possible.

In this way, while ozone is dissolved with the raw water 10, a portion of the ozone water 602 smoothly circulates the oxidizing tank 630 while chemically purifying the raw water 10 while reducing the operating cost. You will get the effect.

A portion of the ozone water 602 oxidized in the oxidizing tank 630 through the ozone transport pipe 670 is transferred to the ozone melting tank 650, and the raw water 10 in the ozone melting tank 650. ) And the ozone water 602 in which ozone is dissolved are flowed back to the oxidizing tank 630 through the ozone supply pipe 680.

In addition, another portion of the ozone water 602 oxidized in the oxidizing tank 630 through the ozone transport pipe 670 is supplied to the pressure tank 350 through the flow pipe 320 to the bubble generator 310 Through) can be supplied to the body unit 200 again.

The ozone water 602 introduced into the oxidizing tank 630 may oxidize and purify the raw water 10 in the oxidizing tank 630 to be the ozone water 602.

As a result, after the raw water 10 from which the suspended solids are removed through the body unit 200 flows into the oxidizing tank 630, ozone water 602 through the ozone generator 640 and the ozone melting tank 650. ) Is partially circulated through the oxidizing tank 630 and the ozone melting tank 650, and the other part is circulated back to the body unit 200 to chemically purify the raw water 10.

The oxidation unit 600, the raw water 10 chemically purified through the ozone in the oxidizing tank 630 while maintaining a constant amount of the raw water 10 in the oxidizing tank 630, oxidation It has a discharge pipe 620 to be discharged to the outside of the oxidizing tank 630, the raw water 10 purified through.

In addition, the oxidation unit 600 has an exhaust port 660 formed in the oxidation tank 630 to allow residual ozone to be exhausted to the outside in the oxidation tank 630.

Here, the discharge pipe 620 is purified when the amount of storage of the raw water 10 in the oxidizing tank 630 increases and the raw water 10 in the oxidizing tank 630 exceeds a set level. The clean raw water 10 is discharged to the outside of the oxidation tank 630.

That is, the raw water 10 from which the suspended solids are removed through physical purification through pressurized dissolved air flotation in the body unit 200 is purified in the oxidation tank 630 through chemical purification through the oxidation unit 600. The raw water 10 is discharged to the outside in the oxidation tank 630 through the discharge pipe 620 may be used according to the needs of the user.

In addition, the exhaust port 660 performs a function of allowing ozone remaining in the oxidizing tank 630 to be purified through a filter and exhausted to the outside of the oxidizing tank 630.

As a result, the raw water 10 is purified and reused by dual purification of physical purification through pressurized dissolved air flotation and chemical purification through ozone.

Through the above configuration, since the purification of the waste water through the organic matter removal and oxidation can be made in duplicate, it is possible to obtain a technical effect to optimize the purification efficiency.

In addition, while sludge is smoothly purified through the oxidation of waste water by ozone, sludge is removed while floating on the surface in a short time due to minimizing the drop impact during the inflow of waste water mixed with microbubbles. The technical effect of this improvement can be obtained.

In addition, it is possible to maintain the cohesive force of the waste water sludge while using ozone, so that the waste water mixed with the microbubbles can be floated and removed in a short time, thereby obtaining a technical effect of improving the sludge removal efficiency.

In addition, wastewater is purified by oxidation of wastewater through ozone, and the sludge of wastewater with microbubbles on the water surface is removed in a short time, while minimizing sediment generation. The technical effect can be obtained.

Finally, ozone gas can be used to purify the waste water while preventing the corrosion of the purifier, and the floc of the waste water can be smoothly floated to the top of the raw water while maintaining the flocculation form without breaking the pollutants. It will be possible to achieve a technical effect that can be.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is to be understood that the invention may be embodied in many other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

10: raw water 20: flocculant 30: waste water
40: neutralizing agent 50: bubble number 60: flocculent aid
70: mixed water 80: solid 90: floc
100: stirring unit 110: rapid stirrer 120: slow stirrer
200: body unit 210: guide plate 212: settling groove
220: solids storage groove 260: partition plate 300: bubble water supply unit
310: fine bubble generator 311: bottleneck 312: bubble generating body
314: injection plate 315: expansion space 316: injection groove
319: bottleneck groove 320: flow pipe 330: pressure pump
340: compressor 350: pressure tank 400: injection unit
410: spray plate 420: spray nozzle 500: sludge removal unit
510: sludge storage tank 520: scraper 530: rotating body
600: oxidation unit 602: ozone water 610: connector
620: discharge pipe 630: oxidation tank 640: ozone generator
650: ozone melting tank 660: exhaust port 670: ozone transport pipe
680: ozone supply pipe

Claims (10)

Waste unit 30 is introduced into the stirring unit 100 to agglomerate while stirring with the drug;
A body unit 200 having a space in which the stirred waste water 30 is introduced through the stirring unit 100 and having raw water 10 stored therein;
Bubble water which is connected to the stirring unit 100 and the body unit 200 is connected to the transfer pipe 390 in the form of a tube, the water containing bubbles in the waste water 30 passing through the transfer pipe 390 Bubble water supply unit 300 for supplying 50;
It is disposed under the water surface of the raw water 10 of the body unit 200 while being connected to the transfer pipe 390, the bubble water 50 and the waste water 30 is mixed in the transfer pipe 390 An injection unit 400 for spraying the mixed water 70 into the body unit 200;
A sludge removal unit 500 disposed on an upper surface of the raw water 10 of the body unit 200 to remove sludge of the mixed water 70 floating above the raw water 10; And
The body unit 200 is connected to the tube through a connecting tube 610, and the raw water 10 from which the suspended solids are removed through the sludge removal unit 500 in the body unit 200 to oxidize and purify It includes; oxidation unit 600,
The injection unit 400,
In the transfer pipe 390 and the plate-shaped jet plate 410 is disposed in the body unit 200 is connected to the lower surface of the raw water 10,
A plurality of the mixed water 70 introduced into the jet plate 410 from the transfer pipe 390 to the edge portion of the jet plate 410 to spray the raw water 10 in the horizontal direction or horizontal down direction Wastewater treatment apparatus using a pressurized flotation and ozone oxidation, including the injection nozzle 420 disposed.
The method of claim 1,
The injection unit 400,
Pressurized flotation and ozone oxidation waste water, characterized in that for spraying the mixed water 70 in the horizontal direction or horizontal down direction at a position 2 to 10 cm below the water surface of the raw water 10 in the body unit 200 Processing unit.
The method of claim 1,
The body unit 200,
The precipitated solids 80 float while being disposed under the injection unit 400 of the raw water 10 to guide precipitation of the solids 80 of the mixed water 70 introduced into the raw water 10. In order to prevent a plurality of spaced apart is formed in the inclined fold downward downward, the inclined guide plate 210 is formed between the separation groove 212,
Pressurized injuries and ozone comprising a solids storage groove 220 to be discharged after being stored in the form of a plurality of inverted triangle on the bottom surface of the body unit 200 is stored in the solids 80 precipitated in the mixed water 70 Wastewater treatment device using oxidation.
The method of claim 1,
The bubble water supply unit (300)
Bubble water generator for supplying the bubble water 50 to the waste water 30 passing through the transfer pipe 390 to the flock particles of the waste water 30 to the body unit 200 while being dispersed by the bubbles 310,
A flow pipe 320 which is a passage through which the raw water 10 and the air in the body unit 200 are oxidized through the oxidation unit 600 and then flows into the bubble water generator 310;
A pressure pump 330 connected to the flow pipe 320 to provide power to allow the raw water 10 to flow in the flow pipe 320;
A compressor 340 connected to the flow pipe 320 to supply air to the raw water 10;
Apparatus for using a pressurized flotation and ozone oxidation comprising a pressure tank 350 for mixing the raw water 10 and the air provided from the compressor 340 with each other.
5. The method of claim 4,
The bubble water generator 310,
A bubble generating body 312 receiving the raw water 10 provided from the flow pipe 320;
A jet plate 314 disposed on a road where the raw water 10 introduced into the bubble generating body 312 is moved to the body unit 200;
A bottleneck disposed between the bubble generating body 312 and the jetting plate 314 and having a diameter smaller than that of the bubble generating body 312 so that the raw water 10 can flow therein. Bottleneck plate 311 is provided with a groove (319),
An expansion space 315 forming a space between the bottleneck plate 311 and the jet plate 314, into which the raw water 10 exiting the bottleneck groove 319 enters;
A plurality of holes are drilled in the jet plate 314, and the air supplied from the raw water 10 and the compressor 340 is mixed by the pressure tank 350, and then the bottleneck groove 319 and the expansion. Pressure discharge and ozone oxidation wastewater treatment apparatus including an injection groove 316 which is a groove that is injected into the bubble water 50 by the pressure difference formed while passing through the space 315.
delete The method of claim 1,
The sludge removal unit 500,
A sludge storage tank 510 which is disposed from the inside of the body unit 200 to the outside to be discharged and stored in the sludge of the mixed water 70 floating on the water surface of the raw water 10;
A plurality of plate-type scrapers 520 for pushing the sludge of the mixed water 70 into the sludge storage tank 510,
The waste water treatment apparatus using a pressurized flotation and ozone oxidation comprising a rotating body 530 rotates in an orbit so that the scraper 520 flows to push the sludge.
The method of claim 1,
The oxidation unit 600,
An oxidizing tank 630 for storing raw water 10 supplied from the body unit 200 through the connection pipe 610;
An ozone generator 640 for generating ozone to supply ozone to the oxidizing tank 630;
Simultaneously connected to the ozone generator 640 and the oxidizing tank 630, the raw water 10 supplied from the oxidizing tank 630 is dissolved with the ozone supplied from the ozone generator 640, and ozone water 602. After forming the ozone solution tank 650 for supplying the ozone water 602 back to the oxidizing tank 630,
An oxygen generator 690 for generating oxygen to supply oxygen to the ozone generator 640;
Pressurized flotation and ozone oxidation wastewater treatment apparatus comprising an air compressor (695) for the oxygen generated in the oxygen generator (690) to be transferred to the ozone generator (640).
The method of claim 8,
The oxidation unit 600,
A discharge pipe 620 for discharging the raw water 10 purified through oxidation to the outside of the oxidizing tank 630 while maintaining a constant amount of the raw water 10 in the oxidizing tank 630;
An exhaust port 660 formed in the oxidation tank 630 to allow residual ozone to be discharged to the outside in the oxidation tank 630;
The ozone transport pipe 670 connected to the oxidizing tank 630 so that the raw water 10 of the oxidizing tank 630 is distributed to the ozone melting tank 650 and the bubble water supply unit 300 and transported. ,
Pressurized flotation and ozone oxidation wastewater treatment apparatus further comprises an ozone supply pipe (680) for supplying the ozone water (602) formed in the ozone melting tank (650) back to the oxidation tank (630).
The method of claim 8,
The dissolution tank 650,
When the operating pressure is operated at 1 Pa or less, when the ozone flows from the ozone generator 640 to the dissolution tank 650, the pressure float and ozone oxidation are characterized in that flow through the negative pressure of the dissolution tank 650. Wastewater treatment device.

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