KR101915170B1 - A wastewater treatment apparatus by using aeration equipment and aeration equipment - Google Patents

Abstract

The present invention relates to a wastewater treatment apparatus including an aeration unit (aeration device) in which an aeration tube and an aeration amplification tube are integrated inside a reaction tank formed of a precipitation space unit and an aeration space unit. More specifically, the present invention relates to a wastewater treatment apparatus in which microorganism mass contained in sludge, which is precipitated when the sludge is separated from treated water in the precipitation space unit, is reused; and micro air bubbles are generated through the throat-type aeration amplification tube to promote the mixture of oxygen in circulating wastewater. Thus, the wastewater treatment apparatus effectively purifies the wastewater by increasing the dissolved amount and dissolving rate of oxygen through the micro air bubble generation.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wastewater treatment apparatus and aeration equipment using a vertical aeration apparatus including a throat-type aeration amplification tube and a chamber to which raw wastewater is supplied,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wastewater treatment apparatus using an aeration apparatus and an aeration apparatus used in a wastewater treatment apparatus, It is possible to reuse the microorganism mass contained in the sludge to be precipitated and to generate fine air bubbles through diffusion of the narrow outlet formed inside the throat type aeration augmentation tube to promote mixing of circulating wastewater and oxygen, The present invention relates to a wastewater treatment apparatus and an aeration apparatus using an aeration apparatus for purifying wastewater by increasing dissolved dissolution rate.

The aeration device is a device for mixing and stirring contaminants in the reaction tank and supplying oxygen to the reaction tank during the purification treatment of sewage, sewage, and wastewater, and is generally referred to as an acid orifice.

The stirring is performed by supplying the air of the atmosphere to the aeration device installed in the reaction tank by using a blower so as to prevent pollutants in the sewage, sewage and wastewater from being deposited, and with microorganisms using air, pollutants, It is an object to increase the number of times to increase the decomposition efficiency.

Oxygen is supplied to the aeration unit to supply pure oxygen or atmospheric air to the aeration unit so that the pollutants capable of biodegradation in sewage, sewage, and wastewater can be used as energy for metabolic activities to decompose the microorganisms, , So that dissolved oxygen is used by microorganisms.

The supply of pure oxygen or air is intended to increase the rate of dissolved oxygen in the wastewater, and a lot of efforts have been made to increase the rate of dissolution and it is still underway. The reason why the dissolved rate of oxygen should be increased is that microorganisms decompose organic matter to increase the activity needed for respiratory activity and the increased activity of microorganisms increases pollutant removal efficiency of wastewater treatment.

As a method for increasing the dissolution rate of oxygen, a method for making small particles of oxygen and air, a method for lengthening the residence time of oxygen bubbles in the wastewater, and a method for deepening the depth of the reaction tank have been studied. (Hereinafter referred to as " acid engine ") is installed on the lower floor of the reactor, and a blower is provided outside the reactor to supply air to the aeration unit There has been proposed a method of stirring and oxygen transfer by dispersing air.

The models shown in the pictures below are the aerodynamic devices (aeration devices) that are mainly used in the environmental industry. (Source: Internet)

The disadvantage of these aeration units is that the air diffuser is installed at the bottom of the reactor and the air is forcedly injected and the time it takes to stay in the wastewater as the air rises vertically from the bottom of the reactor to the surface of the wastewater It is very short.

In addition, since the forced air is injected by applying pressure to the outside of the reaction vessel, the once injected air reaches the surface of the wastewater and is immediately scattered into the atmosphere, so that it is stopped only once and the oxygen dissolution rate in the wastewater is kept constant It is necessary to inject more air than necessary, which causes the power of the blower to be excessively consumed. Even so, the dissolved rate of oxygen does not exceed 10% to 15% of the amount of air supplied. That is, although the amount of air supplied is large, the amount of dissolved oxygen is small. And these blowers cause hearing impairment to environmental engineers by causing noise of 75 ~ 95dB.

In addition, in order to replace the aerosol (aeration device) installed at the bottom of the reaction tank, the wastewater in the reaction tank can be replaced and repaired for replacement due to failure and aging, or a separate lifting facility Since it is a structure to be equipped, post-management is very inconvenient.

The present invention relates to an aeration apparatus for improving disadvantages of such existing aeration engines (aeration apparatuses), increasing oxygen dissolution rate in wastewater, increasing mixing and stirring efficiency and improving wastewater treatment efficiency, and a wastewater treatment apparatus using the same .

Korean Patent No. 10-0227819 Apparatus and method for treating wastewater

In order to solve the above problems, the present invention is characterized in that pure oxygen or air supplied into the wastewater is injected once into the wastewater and is circulated in a mixed state with the wastewater, thereby lengthening the time for oxygen to stay in the wastewater, The present invention aims to increase the efficiency of wastewater treatment by increasing the oxygen utilization rate of the microorganisms by maintaining the oxygen dissolution rate in the wastewater to be high by rapidly and increasing the oxygen transfer to the microorganisms by dispersing and mixing with very small particles.

Also, it is aimed to reduce the power of the blower by reducing the supply amount of oxygen or air by 70% or more as compared with the conventional wastewater treatment method, and to contribute to improvement of living environment by reducing noise.

The aeration device of the present invention aims at reducing troubles in the after-management of environmental engineers by eliminating post-management elements such as breakdown and repair with one-time installation and being used semi-permanently.

In addition, the wastewater is caused to diffuse due to a narrow outlet at the time of injecting oxygen or air, thereby decomposing oxygen or air bubbles into minute sizes and bringing the wastewater into contact with the wastewater, thereby increasing the dissolution rate of oxygen, thereby increasing the oxygen dissolution rate The purpose.

In order to achieve the above object, a wastewater treatment apparatus (10) using an aeration apparatus for purifying wastewater,

A reaction tank (100) including a settling space part (1) where precipitation of wastewater for wastewater purification occurs and an aeration space part (2) in which aeration of wastewater is performed;

An aeration unit 200 penetrating the reaction tank 100 to supply oxygen to the circulating wastewater and aeration;

In order to divide the reaction tank 100 into a settling space portion 1 and an aeration space portion 2 and to collect the sludge settled in the settling space portion 1 and to provide the collected sludge to the aeration space portion 2, A rectifying plate 300 attached to the inner wall of the reaction tank in the shape of an inclined cone and having a center portion opened and a center portion opened through which the width organ 210 passes;

A raw wastewater supply unit 400 for supplying raw wastewater into the aeration amplification tube 220 of the aeration unit 200;

A sludge supply unit 500 for supplying sludge into the aeration amplification tube 220 of the aeration unit 200;

A sludge supply unit 500 for supplying sludge on the outside sludge or the rectification plate 300 to the aeration amplification tube 220 of the aeration unit 200;

An oxygen supply unit (700) for supplying oxygen for the aeration to the expansion unit (210);

And a treatment water discharging part (800) for discharging the treated water purified in the sedimenting space part (1) to the outside,

The aeration unit 200 includes:

A tube-shaped expander 210 for simultaneously supplying oxygen and circulating wastewater to the aeration amplification tube 220,

And a tubular aeration amplifying tube 220 for increasing the aeration effect by causing diffusion of oxygen and circulating wastewater supplied from the reformer 210 through a narrow outlet.

The present invention provides the effect of enabling the reuse of a sludge containing microbial masses generated in the sedimentation space portion by using an aeration device formed integrally with the amplifying tube 210 and the aeration amplification tube 220.

In addition, when the oxygen is mixed with the wastewater, the wastewater is diffused by a narrow outlet to decompose air or oxygen bubbles into minute sizes, thereby increasing the dissolution rate and the dissolution rate of oxygen to wastewater, thereby maximizing the purification effect.

In addition, by using an aeration device having an integrated aeration tube and aeration amplification tube, oxygen-dissolved wastewater is circulated in the reaction tank smoothly, thereby enhancing mixing and stirring of oxygen to the wastewater.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall configuration diagram of a wastewater treatment apparatus using an aeration apparatus according to the present invention. FIG.
2 is a detailed view of an aeration device in which the breccard and the aeration amplifier tube of the present invention are integrally formed.
Fig. 3 is a state diagram showing a coupling relationship between a breather and an aeration amplifier constituting the aeration device of the present invention. Fig.
4 is a flowchart of wastewater circulation in the entire wastewater treatment apparatus using the aeration apparatus of the present invention.
5 is a circulation flow chart of wastewater in the reactor of the present invention.

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

≪ Embodiment of wastewater treatment apparatus >

1, a wastewater treatment apparatus 10 using a vertical aeration apparatus including a Throat-type aeration amplifier tube and a chamber to which raw wastewater is supplied,

A reaction tank (100) including a settling space part (1) where precipitation of wastewater for wastewater purification occurs and an aeration space part (2) in which aeration of wastewater is performed;

An aeration unit 200 penetrating the reaction tank 100 to supply oxygen to the circulating wastewater and aeration;

In order to divide the reaction tank 100 into a settling space portion 1 and an aeration space portion 2 and to collect the sludge settled in the settling space portion 1 and to provide the collected sludge to the aeration space portion 2, A rectifying plate 300 attached to the inner wall of the reaction tank in the shape of an inclined cone and having a center portion opened and a center portion opened through which the width organ 210 passes;

A raw wastewater supply unit 400 for supplying raw wastewater into the aeration amplification tube 220 of the aeration unit 200;

A sludge supply unit 500 for supplying sludge into the aeration amplification tube 220 of the aeration unit 200;

A circulating wastewater supply part (600) for supplying wastewater in the aeration space part (2) to the wastewater (210);

An oxygen supply unit (700) for supplying oxygen for the aeration to the expansion unit (210);

And a treatment water discharging part (800) for discharging the treated water purified in the sedimenting space part (1) to the outside,

The aeration unit 200 includes:

A tube-shaped expander 210 for simultaneously supplying oxygen and circulating wastewater to the aeration amplification tube 220,

And a tubular aeration amplifying tube 220 for increasing the aeration effect by causing diffusion of oxygen and circulating wastewater supplied from the reformer 210 through a narrow outlet.

The reaction tank 100 is composed of a sedimentation space part 1 in which sludge and treated water to be precipitated by performing a sedimentation effect is formed and an aeration space part 2 in which aeration is performed so that oxygen is dissolved and dissolved in the wastewater do.

1, the reaction tank 100 is divided into a precipitation space 10 and an aeration space 2 by a rectifying plate 300 to be described later.

In the sedimentation space part 1, the treated water purified by the sedimentation effect is present in the upper part of the sedimentation space part 1, and the sludge, which is a solid material containing microorganisms, ).

Unlike wastewater existing in the aeration space part (2), wastewater present in the settling space part (1) is a space in which the wastewater circulation is hardly generated and the purification treatment is performed by microorganisms in a stable state. ) Is separated into the treatment water purified by the microbial purification treatment and the sludge, and the treatment water which has been purified is raised to the upper part of the sedimentation space part 1, and the sludge, which has a certain weight and contains microorganisms, Is deposited on the lower portion of the rectifying plate 300 in the form of a cone.

The wastewater existing in the aeration space part 2 is not stable but unlike the wastewater existing in the settling space part 1 and is a space where forced circulation by the aeration occurs, 220, oxygen is dissolved and dissolved in the wastewater through a process in which wastewater and oxygen are mixed with each other by an irregular vortex in the aeration augmentation pipe 220, and the wastewater in which dissolved oxygen is dissolved, The wastewater discharged from the aeration space section 2 flows into the aeration amplification tube 220 through the open part of the upper side of the aeration amplification tube 220, Circulation occurs. Through this process, oxygen is more dissolved and dissolved in the wastewater, which further activates microbial activity in the wastewater.

1 and 2, the aeration unit 200 includes a tube 210 and an aeration amplification tube 220. The tube 210 and the aeration augmentation tube 220 are installed in the reactor 100 to perform an aeration function of supplying oxygen to the wastewater.

Specifically, as shown in FIG. 2, the aeration unit 200 includes a blower 210 and an aeration amplifier 220.

The breech block (210)

A tubular bimetallic body 211 in which a circulating waste water pipe 211 is formed,

A tubular circulation wastewater pipe 212 formed inside the borehole body 211 for supplying the circulating wastewater supplied by the circulation wastewater supply unit 600 into the aeration augmentation pipe 220,

A channel for supplying oxygen having a constant pressure supplied through the oxygen supply unit 700 to the inside of the aeration amplification tube 220 as a space between the inner side of the width body body 211 and the outer side surface of the circulation wastewater pipe 212, And a supply path 213.

1, the widening body 211 is formed to penetrate through the settling space portion 1 of the reaction tank 100 and has a central portion opened, A part including the distal end of the widening body 211 protrudes into the aeration space part 2 of the reaction tank 100 through the center of the wicking body 300, (Not shown).

Further, in order to increase the aeration effect, it is preferable that the tip end of the widening body 211 has a cone shape having a smaller diameter than the width of the wicking body 211 as shown in Figs.

The circulating waste water pipe 212 is formed inside the waste pipe body 211 as shown in FIGS. 2 and 3, and the circulating waste water supplied by the circulating waste water supplying part 600 2) to the inside of the aeration amplification tube 220. The aeration amplification tube 220 is a tubular structure.

The oxygen supply path 213 is a space between the inner side of the main body of the worm 211 and the outer side surface of the circulating effluent pipe 212 and supplies oxygen having a predetermined pressure supplied through the oxygen supply unit 700 to the aeration amplification tube 220, To the inside thereof.

That is, the circulating wastewater (the wastewater supplied from the circulating wastewater supply portion to the inside of the breech block 210 in the aeration space portion) supplied from the aeration space portion 2 by the breech block 210 and the oxygen supplied from the outside, And is supplied to the aeration amplifying tube 220 at a constant pressure for the purpose of the present invention.

In addition, a plurality of impingement protrusions 214 may be formed on the inner side of the distal end of the worm body 211, as shown in FIGS.

The leading end of the width organ body 211 is a portion where oxygen and circulating wastewater first meet. When the impingement protrusion 214 is formed inside the tip end of the wide-width body 211, which is the area where the oxygen and the circulating wastewater first meet, the mixing efficiency of the oxygen supplied to the aeration amplification tube 220 and the circulating wastewater is improved, Oxygen and circulating wastewater are supplied to the amplifying tube 220, which increases the dissolution and dissolution rate of oxygen to the circulating wastewater, which is more effective in the aeration amplifying tube 220.

The plurality of impingement protrusions 214 form a vortex-like fluid flow and turbulence before oxygen and circulating wastewater are supplied to the aeration amplification tube 220, thereby making the particle size of oxygen or air finer, Thereby causing an effect of allowing the particles to mix better.

The aeration amplification tube 220, as shown in FIGS.

A tubular aeration ampule body 221 for mixing oxygen and circulating wastewater supplied from the blowing unit 210 to provide a space for oxygen to the circulating wastewater,

A cone shape that is formed around the inner surface of the aeration amplification tube body 221 and has a narrower width in a downward direction. The oxygen supplied from the reforming vessel 210 at a constant pressure and the diffusion due to the narrow outlet to the circulating wastewater A raw wastewater supply and reception chamber 222 for generating a wastewater,

And an explosive fixing bar 223 for preventing the tip of the explosive 210 from vibrating due to aeration pressure and connecting the tip of the explosive 210 to the inside of the augmentation amplifying tube 220 for stable aeration do.

The aeration ampule body 221 is formed in a tubular shape having an outer shape of the aeration ampule 220 and fixed to the inner side of the reaction tank 100 by a fixing means.

In the inner space of the aeration ampule body 221, the oxygen supplied from the reformer 210 and the circulating wastewater are mixed with each other to dissolve and dissolve oxygen in the circulating wastewater.

4, the oxygen mixed with the circulating wastewater in the aeration ampule body 221 is further mixed with the lower portion of the aeration ampule body 221 by the aeration pressure, and finally mixed with the aeration ampule body 221 The exhaust circulating wastewater mixed with oxygen is circulated to the upper portion of the aeration space portion 2 and is then circulated to the upper portion of the aeration ampule body 221 through the open portion formed in the upper portion of the aeration ampule body 221, The forced circulation that flows into the aeration amplification tube body 221 occurs through the portion.

3, the raw wastewater supply and reception chamber 222 is formed around the inner side surface of the aeration ampule body 221 to supply oxygen from the wastewater 210 at a constant pressure and a narrow outlet Causing diffusion.

The raw wastewater supply and reception chamber 222 is in the form of a cone having a smaller width as it goes downward. By this structural feature, the oxygen supplied from the wastewater 210 and the circulating wastewater Thereby causing diffusion due to exit.

The reason for causing diffusion due to the narrow outlet through the raw wastewater supply and reception chamber 222 is to increase the mutual mixing effect of the oxygen supplied to the inside of the aeration amplification tube body 221 and the circulating wastewater, The mixture of oxygen and circulating wastewater supplied into the tube body 221 is met with the raw wastewater supply and demand chamber 222 and the diffusion due to the narrow outlet is caused by the structural characteristics of the raw wastewater supply and demand chamber 222 , A mixture of oxygen and circulating wastewater passes through the raw wastewater supply chamber 222 and the mixture of oxygen and circulating wastewater is converted into an irregular vortex due to the diffusion due to the narrow outlet. In the vortex, the intermixing effect of oxygen and the circulating wastewater increases more than the normal flow, so the dissolved and dissolved ratio of oxygen to the circulating wastewater increases.

Further, when a mixture of oxygen and circulating wastewater passes through the raw wastewater supply and demand chamber 222, a vortex is formed due to the diffusion due to the narrow outlet, but the particle size of oxygen is finely formed by the diffusion due to the narrow outlet, When the oxygen particles are contacted with the circulating wastewater, the dissolved oxygen particles are dissolved, the dissolution rate is increased, the dissolved amount is increased, the oxygen transfer rate is increased to the contaminants or microorganisms, and the oxygen transfer amount is increased. .

The breech-fixing bar 223 is configured to prevent the tip of the breechormeter 210 from vibrating due to the aeration pressure and to connect the front end of the breechlet 210 and the inner side of the aeration tube 220 for stable aeration. to be.

 If the tip of the sprue 210 is not fixed to the side surface of the aeration amplifying tube 220 by the sprue fixing bar 223, the tip of the sprue 210 is vibrated by the aeration pressure, Not only becomes difficult, but also causes structural problems throughout the wastewater treatment system.

In order to prevent this, as shown in FIG. 3, the tip end of the wide tube 210 is fixed to the inside surface of the aeration tube 220 through the tube holder fixing bar 223.

1, the rectifying plate 300 divides the reaction tank 100 into a settling space part 1 and an aeration space part 2, collects sludge settled in the settling space part 1, In order to provide a part of the collected sludge to the aeration space portion 2, the wide organ 210 is formed through a center portion which is formed in the shape of an inclined cone around the inner wall of the reaction tank,

The flow state of the wastewater existing in the aeration space part (1) and the aeration space part (2) constituting the reaction tank (100) is different. That is, the wastewater in the settling space portion 1 is a space in which a purification action by the microorganisms occurs in a stable state, and the process of separating the wastewater into the treated water and the solid sludge takes place. The aeration space portion 2 dissolves oxygen , Aeration occurs for dissolving, so that the wastewater in the aeration space portion 2 has an active circulation flow.

Therefore, the reaction tank 100 is divided into the settling space portion 1 and the aeration space portion 2 by the rectifying plate 300 in order to allow wastewater having different flow states as described above.

1, the rectifying plate 300 is disposed on the inner wall of the reaction tank 1 in order to collect the sludge settled in the settling space portion 1 and to provide a part of the collected sludge to the aeration space portion 2. [ And is formed in a cone shape and has a central open portion.

The sludge, which is solid matter settled in the sedimentation space part 1 by the inclined cone shape, flows down along the inclined surface of the rectification plate 300, and a part of the sludge flows down through the open part of the center part to the aeration space part 2 ).

The reason that the sludge collected in the rectifying plate 300 is supplied again to the sedimentation space part 1 is because the microorganisms which perform the purification action exist in the collected sludge, the sludge is re-supplied to the sedimentation space part 1 for the purpose of microbial reuse .

The raw wastewater supply unit 400 is a means for supplying raw wastewater into the aeration amplification tube 220 of the aeration unit 200. Raw wastewater means wastewater supplied from the outside to the inside of the wastewater treatment apparatus of the present invention for purification.

The raw wastewater supplied to the wastewater treatment device through the raw wastewater supply part 400 is purified through an aeration process and discharged to the outside through a process water discharge part 800 to be described later.

1, the raw-material wastewater supply unit 400 includes:

The raw wastewater supply pipe 410, which is a passage for moving the raw wastewater to be supplied into the aeration amplification pipe 220,

A raw wastewater supply pump 420 for providing a pressure for supplying the raw wastewater into the aeration amplification tube 220,

And a raw wastewater control valve 430 for controlling the amount of raw wastewater to be supplied into the aeration amplification pipe 220.

Particularly, the raw material wastewater control valve 430 is a constituent means for adjusting the amount of the raw wastewater to be supplied as required by the user, and the raw wastewater supply pump 420 is a constituent means for providing power for supplying the raw wastewater .

The sludge supplying unit 500 is a means for supplying sludge (sludge on the outside sludge or the flow regulating plate 300) to the inside of the aeration amplifying tube 220 of the aeration unit 200. The reason why the sludge is supplied into the aeration amplification tube 220 of the aeration unit 200 is because the sludge contains microorganisms. Since the purification action is performed by the microorganisms, the purification effect is more effective as the microorganisms are richer.

Therefore, although the microorganism exists in the raw wastewater to be supplied, the sludge containing microorganisms from the outside is artificially supplied to the raw wastewater through the sludge supply unit 500 for effective purification.

To this end, the sludge supply unit 500, as shown in FIG. 1,

The sludge supply pipe 510, which is a path for moving the sludge supplied into the aeration amplifying pipe 220,

A sludge supply pump 520 for providing a pressure to supply sludge into the aeration amplification tube 220,

A sludge supply regulating valve 530 for regulating the amount of sludge supplied into the aeration amplifying pipe 220,

And a sludge supply tank 540 for storing sludge to be supplied into the aeration amplification pipe 220.

Particularly, a sludge discharge pipe 910 of the sludge discharge unit 900 to be described later is connected to the sludge supply tank 540 to discharge a part of the sludge collected on the flow-regulating plate 300 to the sludge supply tank 540 have.

The circulating wastewater supply unit 600 is a means for supplying wastewater from the aeration space unit 2 to the wicket unit 210. The reason why the wastewater in the aeration space portion 2 is supplied to the wastewater 210 through the circulating wastewater supply portion 600 is to provide the circulation action of the wastewater in the reaction tank 100.

The conventional wastewater treatment apparatus supplies raw wastewater and microorganisms to the reaction tank and purifies the wastewater by discharging the treated wastewater to the outside through purifying action by microorganisms.

However, when the wastewater in the reaction tank 100 is circulated as in the present invention, oxygen is more effectively dissolved and dissolved in the wastewater during the circulation process, thereby more effectively purifying the wastewater.

In addition, when the aeration process of mixing oxygen into the wastewater through the aeration unit 200 is added as described above in the circulation process, the dissolved and dissolved ratio of oxygen to the wastewater is further increased, thereby further promoting the purification action.

To this end, the circulating wastewater supply unit 600, as shown in FIG. 1,

A circulating wastewater supply pipe 610 which is a passage for circulating wastewater for supplying wastewater existing in the aeration space part 2 to a circulation wastewater pipe 212 formed inside the wastewater 210,

A circulating wastewater supply pump 620 for providing a pressure for supplying circulating wastewater to a circulation wastewater pipe 212 formed inside the wastewater 210,

And a circulating wastewater control valve 630 for regulating the amount of circulating wastewater supplied to the circulation wastewater pipe 212 formed in the wick organ 220.

Particularly, in order to supply wastewater in the upper part of the aeration space part 2 in the wastewater existing in the aeration space part 2 to the circulation wastewater pipe 212 formed in the wastewater 210, One side of the circulating effluent supply pipe 610 is connected to the reaction tank 100 at a position immediately below the portion where the rectifying pipe 300 is located as shown in FIG.

The oxygen supply unit 700 is a means for supplying oxygen for the aeration to the oxygen supply path 213 formed inside the sprue 210, specifically, the sprue 210.

The reason that oxygen having a constant pressure externally supplied to the wastewater 210 is augmented in the wastewater is that an effect of additionally supplying oxygen necessary for the activation of microorganisms and an effect of mixing oxygen in the circulating wastewater by the oxygen supply pressure And to promote the purification action through the effect of increasing the dissolution and dissolution rate of oxygen to the wastewater.

To this end, the oxygen supply unit 700

An oxygen supply pipe 710 serving as a passage for oxygen to supply oxygen for the aeration from the outside to the oxygen supply path 213 of the sprue 210 and an oxygen control valve 720 for regulating the amount of oxygen to be supplied .

The treated water discharging portion 800 is a constituent means for discharging treated water, which is purified wastewater generated by a purifying action, in the settling space portion 1 to the outside.

To this end, the process water discharge unit 800, as shown in FIG. 1,

A process water discharge pipe 810 as a transfer passage for the process water for discharging the process water, which is purified wastewater generated by the purifying action, in the settling space portion 1 to the outside,

And a treatment water control valve 820 for adjusting the amount of treatment water to be discharged.

Particularly, since the treated water generated by the purifying action in the settling space part 1 has a cleaner property toward the upper part of the settling space part 1, one side of the treated water discharge pipe 810 connected to the reaction tank 100, To the upper part of the sedimentation space part (1).

In addition, the present invention may further include a sludge discharge unit 900 for recycling the sludge, which is a solid matter generated by a purging action occurring in the sedimentation space unit 1. [

In the sedimentation space part 1, sludge, which is solid matter, is collected on the rectification plate 300 by sedimentation, and a part of the collected sludge is collected through an opening part formed at the center part of the rectification plate 300 Is provided to the aeration space part (2), and some of the sludge remains on the rectification plate (300) as it is.

Thus, the sludge remaining on the rectifier plate 300 can be discharged to the outside through the sludge discharge unit 900.

Further, when the sludge discharge unit 900 is connected to the sludge supply tank 540, there is an additional effect that the sludge precipitated in the sedimentation space unit 1 can be recycled.

Some of the sludge collected on the rectifying plate 300 is supplied to the lower settling space portion 2 through an opening portion formed in the central portion of the rectifying plate 300, as described in the rectifying plate 300 described above.

1, a portion of the sludge supplied to the sedimentation space 2 through the opening is supplied into the aeration amplification tube 220, and the other part is supplied to the sedimentation space 2 outside the aeration amplification tube 220 ).

Since the sludge contains microorganisms, the sludge containing the microorganisms is further required in the aeration amplification tube 220 where a vortex is formed by the aeration than the precipitation space part 2 outside the aeration amplification tube 220.

Therefore, the sludge supply unit 500 described above is configured in the present invention in order to supply sufficient sludge containing microorganisms to the inside of the aeration amplification tube 220, and the sludge discharge unit 900 is connected to the sludge supply unit 500 It is advantageous that the sludge precipitated in the sedimentation space part 1 and present on the rectification plate 300 can be recycled.

To this end, the wastewater treatment apparatus of the present invention further includes a sludge discharge unit 900 for supplying a part of the sludge present on the rectifying plate 300 to an external sludge supply tank 540,

The sludge discharging unit 900 includes:

A sludge discharge pipe 910 connected to one side of the flow regulating plate 300 for discharging part of the sludge collected on the flow regulating plate 300 to the outside and a sludge discharge control valve 920 for regulating the amount of discharged sludge .

<Aeration Apparatus Example>

The aeration apparatus, which is another embodiment of the present invention, is installed inside a wastewater treatment apparatus to circulate the wastewater in a reaction tank and to supply oxygen to the wastewater to aerate the wastewater. The aeration unit 200).

That is, in the aeration apparatus of the present invention,

A tube-shaped expander 210 for simultaneously supplying oxygen and circulating wastewater to the aeration amplification tube 220,

And a tube-shaped aeration amplification tube 220 for increasing the aeration effect by causing diffusion of oxygen and circulating wastewater supplied from the expansion tube 210 due to a narrow outlet,

The breech block (210)

A tubular bimetallic body 211 in which a circulating waste water pipe 211 is formed,

A tubular circulation wastewater pipe 212 formed inside the width body 211 for supplying the circulation wastewater supplied by the circulation wastewater supply unit 600 into the aeration amplification tube 220,

A channel for supplying oxygen having a constant pressure supplied through the oxygen supply unit 700 to the inside of the aeration amplification tube 220 as a space between the inner side of the width body body 211 and the outer side surface of the circulation wastewater pipe 212, And a supply path 213,

The aeration amplifying tube (220)

A tubular aeration ampule body 221 for mixing oxygen and circulating wastewater supplied from the blowing unit 210 to provide a space for oxygen to the circulating wastewater,

A cone shape that is formed around the inner surface of the aeration amplification tube body 221 and has a narrower width in a downward direction. The oxygen supplied from the reforming vessel 210 at a constant pressure and the diffusion due to the narrow outlet to the circulating wastewater A raw wastewater supply and reception chamber 222 for generating a wastewater,

And a breech-fixing bar (223) for preventing the tip of the breechormeter (210) from being vibrated by the aeration pressure and connecting the tip of the breechormeter (210) to the inside of the aeration ampule tube (220) for stable aeration,

The tip end of the expanding tube 210 is fixed to the aeration amplifying tube body 221 by the bulging tube fixing bar 223 with a certain portion inserted into the aeration amplifying tube body 221.

In addition, a plurality of impingement protrusions 214 may be formed on the inner side of the front end of the worm body 211 as shown in FIGS.

The leading end of the wicking body 211 is a portion where oxygen and circulating wastewater meet for the first time. When the impingement protrusion 214 is formed inside the tip end of the wide-width body 211, which is the area where the oxygen and the circulating wastewater first meet, the mixing efficiency of the oxygen supplied to the aeration amplification tube 220 and the circulating wastewater is improved, Oxygen and circulating wastewater are supplied to the amplifying tube 220, which increases the dissolution and dissolution rate of oxygen to the circulating wastewater, which is more effective in the aeration amplifying tube 220.

The plurality of impingement protrusions 214 form a vortex-like fluid flow and turbulence before oxygen and circulating wastewater are supplied to the aeration amplification tube 220, thereby reducing the particle size of oxygen or air to a finer size, Thereby causing the oxygen to mix better.

The present invention is summarized using Figs. 4 and 5,

The present invention is characterized in that raw wastewater is introduced into the reaction tank 100, the raw wastewater is forcibly circulated in the reaction tank, and oxygen is aerated in the circulation process to promote the purification action.

First, the circulation of the wastewater in the reaction tank 100 (see the bold arrow in FIG. 4) will be described with reference to FIG.

The wastewater present in the aeration space portion 2 of the reaction tank 100 is introduced into the wastewater 210 through the circulating wastewater supply portion 600 as shown in FIG. The wastewater (hereinafter referred to as &quot; circulating wastewater &quot;) flowing into the wastewater 210 is supplied into the aeration amplification tube 220 together with oxygen by the wastewater 210.

The oxygen supplied to the aeration amplification tube 220 and the circulating wastewater are moved to the lower portion of the aeration amplification tube 220 as shown by the bold arrows in FIG. Vortices are formed and the intermixing is promoted.

The mixed oxygen and the circulating wastewater are discharged to the outside of the aeration amplifying tube 220 through the opening formed in the lower part of the aeration amplifying tube 220. The mixed oxygen and the circulating wastewater discharged to the outside of the aeration amplifying tube 220, And then flows back into the aeration amplification tube 220 through the opening formed in the upper portion of the aeration amplification tube 220 (refer to a dotted line in FIG. 5). In this circulation process, oxygen is more dissolved and dissolved in the circulating wastewater, and the activity of the microorganisms existing in the circulating wastewater is activated.

The circulating wastewater containing microorganisms activated by the supplied oxygen is partially moved to the settling space portion 1 through the opening portion of the central portion of the rectifying plate 300 and the circulated wastewater thus moved is circulated in the settling space portion 1 And is separated into the sludge and the treated water by the purification action by the microorganism in the stable state.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. In addition, it is a matter of course that various modifications and variations are possible without departing from the scope of the technical idea of the present invention by anyone having ordinary skill in the art.

10: wastewater treatment device 1: sedimentation space part 2: aeration space part
100: Reactor
200:
300: rectification plate
400: raw material waste water supply part
500: sludge supply unit
600: circulating wastewater supply unit
700: oxygen supply unit
800: treated water discharging portion
900: sludge discharge portion

Claims (9)

A wastewater treatment apparatus (10) using a vertical aeration apparatus including a throat-type aeration amplifier tube and a chamber to which raw wastewater is supplied,

A reaction tank (100) including a settling space part (1) where precipitation of wastewater for wastewater purification occurs and an aeration space part (2) in which aeration of wastewater is performed;
An aeration unit 200 penetrating the reaction tank 100 to supply oxygen to the circulating wastewater and aeration;
In order to divide the reaction tank 100 into a settling space portion 1 and an aeration space portion 2 and to collect the sludge settled in the settling space portion 1 and to provide the collected sludge to the aeration space portion 2, A rectifying plate 300 attached to the inner wall of the reaction tank in the shape of an inclined cone and having a center portion opened and a center portion opened through which the width organ 210 passes;
A raw wastewater supply unit 400 for supplying raw wastewater into the aeration amplification tube 220 of the aeration unit 200;
A sludge supply unit 500 for supplying sludge on the outside sludge or the rectification plate 300 to the aeration amplification tube 220 of the aeration unit 200;
A circulating wastewater supply part (600) for supplying wastewater in the aeration space part (2) to the wastewater (210);
An oxygen supply unit (700) for supplying oxygen for the aeration to the expansion unit (210);
And a treatment water discharging part (800) for discharging the treated water purified in the sedimenting space part (1) to the outside,
The aeration unit 200 includes:
A tube-shaped expander 210 for simultaneously supplying oxygen and circulating wastewater to the aeration amplification tube 220,
And a tube-shaped aeration amplification tube 220 for increasing the aeration effect by causing diffusion of oxygen and circulating wastewater supplied from the expansion tube 210 due to a narrow outlet,

The sludge supply unit (500)
The sludge supply pipe 510, which is a path for moving the sludge supplied into the aeration amplifying pipe 220,
A sludge supply pump 520 for providing a pressure to supply sludge into the aeration amplification tube 220,
A sludge supply regulating valve 530 for regulating the amount of sludge supplied into the aeration amplifying pipe 220,
And a sludge supply tank (540) for storing sludge to be supplied into the aeration amplification pipe (220)

Further comprising a sludge discharging unit (900) for supplying a part of the sludge collected on the rectifying plate (300) to an external sludge supply tank (540) by sedimentation,
The sludge discharging unit 900 includes a sludge discharge pipe 910 connected to one side of the rectifying plate 300 to discharge a part of the sludge collected on the rectifying plate 300 to the outside and a sludge discharge control valve 920) and a chamber to which the raw wastewater is supplied. The apparatus for treating wastewater using vertical aeration apparatus according to claim 1,
The method according to claim 1,
The breech block (210)
A tubular bimetallic body 211 in which a circulating waste water pipe 211 is formed,
A tubular circulation wastewater pipe 212 formed inside the width body 211 for supplying the circulation wastewater supplied by the circulation wastewater supply unit 600 into the aeration amplification tube 220,
A channel for supplying oxygen having a constant pressure supplied through the oxygen supply unit 700 to the inside of the aeration amplification tube 220 as a space between the inner side of the width body body 211 and the outer side surface of the circulation wastewater pipe 212, And a supply path 213,

The aeration amplifying tube (220)
A tubular aeration ampule body 221 for mixing oxygen and circulating wastewater supplied from the blowing unit 210 to provide a space for oxygen to the circulating wastewater,
A cone shape that is formed around the inner surface of the aeration amplification tube body 221 and has a narrower width in a downward direction. The oxygen supplied from the reforming vessel 210 at a constant pressure and the diffusion due to the narrow outlet to the circulating wastewater A raw wastewater supply and reception chamber 222 for generating a wastewater,
And a breech-fixing bar (223) for preventing the tip of the breechormeter (210) from being vibrated by the aeration pressure and connecting the tip of the breechormeter (210) to the inside of the aeration ampule tube (220) for stable aeration,
The tip end of the expanding tube 210 is fixed to the aeration amplifying tube body 221 by the bulging tube fixing bar 223 while a certain portion is inserted into the aeration amplifying tube body 221,
The aeration ampule body 221 is fixed to the inner side of the reaction tank 100 by a fixing means. The throat type aeration amplification tube and the chamber to which the raw wastewater is supplied are connected to a wastewater treatment device .
The method according to claim 1,
The raw material wastewater supply unit 400 includes:
The raw wastewater supply pipe 410, which is a passage for moving the raw wastewater to be supplied into the aeration amplification pipe 220,
A raw wastewater supply pump 420 for providing a pressure for supplying the raw wastewater into the aeration amplification tube 220,
And a raw wastewater control valve (430) for controlling the amount of raw wastewater to be supplied into the aeration amplification pipe (220). The vertical aeration device A waste water treatment apparatus using the waste water. delete The method according to claim 1,
The circulating wastewater supply unit (600)
A circulating wastewater supply pipe 610 which is a passage for circulating wastewater for supplying wastewater existing in the aeration space part 2 to a circulation wastewater pipe 212 formed inside the wastewater 210,
A circulating wastewater supply pump 620 for providing a pressure for supplying circulating wastewater to a circulation wastewater pipe 212 formed inside the wastewater 210,
And a circulating wastewater regulating valve (630) for regulating the amount of circulating wastewater fed to the circulating wastewater pipe (212) formed in the breech block (220)
Wherein one end of the circulating effluent supply pipe (610) is connected to the reaction tank (100) at a position immediately below a portion where the rectifying plate (300) is located, and a chamber A wastewater treatment device using a vertical aeration device.
The method according to claim 1,
The oxygen supply unit (700)
An oxygen supply pipe 710 which is a passage for oxygen for supplying oxygen for the aeration from the outside to the oxygen supply path 213 of the sprue 210,
And an oxygen control valve (720) for controlling the amount of oxygen supplied to the wastewater. A throat-type aeration amplifier tube and a chamber for receiving raw wastewater are provided. The method according to claim 1,
The treated water discharging portion 800 includes:
A process water discharge pipe 810 as a transfer passage for the process water for discharging the process water, which is purified wastewater generated by the purifying action, in the settling space portion 1 to the outside,
And a treatment water regulating valve (820) for regulating the amount of treated water to be discharged. The apparatus for treating wastewater using a vertical aeration apparatus comprising a Throat-type aeration amplifier tube and a chamber to which raw wastewater is supplied. delete delete

Images