KR101863168B1 - Wastewater purifying apparatus using microorganisms - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wastewater purification apparatus using microorganisms, and more particularly, to a wastewater purification apparatus using microorganisms capable of removing odors of various wastewater using anaerobic and aerobic microorganisms.
According to the present invention, an inlet and an outlet are formed on one side and the other side, respectively, and the suspended solids contained in the wastewater flowing in from the inlet are communicated between the inlet and the outlet so as to be compressed from one side to the other, A pretreatment tank having a tapered screen and a storage tank installed at a lower portion of the tapered screen and storing the treated water dropped from suspended matters of the wastewater, while being dropped;
An anaerobic tank installed adjacently to the pretreatment tank to introduce the treated water, a first wash water inflow pipe formed on one side, and an anaerobic environment formed by the anaerobic microorganisms;
An aerobic tank installed adjacently to the anaerobic tank, receiving treatment water from the anaerobic tank, forming a second wash water inflow pipe at one side thereof, and an aeration device installed therein to create an aerobic environment by aerobic microorganisms;
A sedimentation tank provided adjacent to the oxic tank for solid-liquid separation of solid foreign matters of the treated water supplied from the oxic tank; And
And a storage tank provided adjacent to the settling tank and formed with a process water discharge pipe for discharging the process water separated from the solid foreign material by the settling tank to the outside, according to an embodiment of the present invention. .

Description

[0001] Wastewater purifying apparatus using microorganisms [

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wastewater purification apparatus using microorganisms, and more particularly, to a wastewater purification apparatus using microorganisms capable of removing odors of various wastewater by using anaerobic and aerobic microorganisms, .

Water plays many important roles in the biosphere and is an indispensable material for us to live in, such as keeping the Earth's temperature constant.

The formation and maintenance of all living organisms, and even ecosystems, is possible in the presence of water. Since about 70% of our bodies are also water, water is the source of life and life itself.

However, as the industry developed, human beings achieved the present development through the destruction of the environment, but in return came to be threatened with life. In particular, water pollution must be a significant threat to human survival along with pollution of the atmosphere and soil.

As a result, there has been a growing interest in a purification apparatus capable of purifying wastewater as one of efforts to solve water pollution recently.

For example, although it has been proposed that a plurality of precipitation chambers and purification chambers are formed in the 'domestic combined purification tank (registration number: 20-0214673)', the decomposition of anaerobic microorganisms, which discharge methane by decomposition products, So that the treatment efficiency of the wastewater is extremely lowered.

On the other hand, the conventional wastewater is mostly treated in water. In this method, sludge such as suspended solids and solid foreign matters, which are secondary pollutants, are inevitably generated, and it is difficult to treat sludge originally.

In view of these problems, it is a time when there is a desperate need to study the development of a new technology for a device capable of practically purifying wastewater to save water resources.

Korean Patent Registration No. 20-0214673, December 13, 2000.

Disclosure of Invention Technical Problem [8] The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus for purifying wastewater using microorganisms that can remove odors of various wastewater by using anaerobic and aerobic microorganisms, There is a purpose.

According to an aspect of the present invention, there is provided an air conditioner comprising: an inlet port and an outlet port formed at one side and the other side, respectively, and communicated between the inlet port and the outlet port, A tapered screen for pressing and discharging the tapered screen to the outside, and a storage tank installed at a lower portion of the taper screen for storing the process water dropped from the suspended material of the wastewater, while being dropped. An anaerobic tank installed adjacently to the pretreatment tank to introduce the treated water, a first wash water inflow pipe formed on one side, and an anaerobic environment formed by the anaerobic microorganisms; An aerobic tank installed adjacently to the anaerobic tank, receiving treatment water from the anaerobic tank, forming a second wash water inflow pipe at one side thereof, and an aeration device installed therein to create an aerobic environment by aerobic microorganisms; A sedimentation tank provided adjacent to the oxic tank for solid-liquid separation of solid foreign matters of the treated water supplied from the oxic tank; And a reservoir disposed adjacent to the sedimentation tank and formed with a process water discharge pipe for discharging the process water separated from the solid foreign matter by the sedimentation tank to the outside, wherein a connection port is formed between the storage tank and the anaerobic tank The tapered screen includes a first tapered screen having a plurality of first process water outlet holes formed therein, And a second tapered screen installed to surround the outside of the first tapered screen and having a plurality of second treated water outlets formed therethrough, wherein the first tapered screen and the second tapered screen have the same shape as the first tapered screen, And the first treated water outlet hole and the second treated water outlet hole are disposed so as to be staggered from each other. Technical Solution The present invention is directed to an apparatus for purifying wastewater using microorganisms.

Preferably, at one side of the settling tank, there is further included a thickening tank for concentrating the solid foreign substance supplied from the settling tank, and then recovering the filtrate separated from the concentrated solid foreign substance into the pretreatment tank.

Preferably, the tapered screen is provided with a rotary shaft driven by a motor and a rotary blade rotated on the outer circumference of the rotary shaft in accordance with the driving of the rotary shaft.

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The apparatus for purifying wastewater using microorganisms according to the present invention has the effect of not only eliminating odors of various wastewater by using anaerobic and aerobic microorganisms but also saving water resources.

1 is a schematic diagram according to a preferred embodiment of the present invention;
2 is a side view of a pretreatment bath according to a preferred embodiment of the present invention;
3 is a detailed view of a tapered screen according to a preferred embodiment of the present invention.

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

1 is a schematic diagram according to a preferred embodiment of the present invention. 1, an apparatus for purifying wastewater using microorganisms according to a preferred embodiment of the present invention includes a pretreatment tank 100, an anaerobic tank 200, an oxic tank 300, a settling tank 400, and a storage tank 500 .

In the present invention, wastewater flowing from the outside is sequentially passed through each of the pretreatment tank 100, the anaerobic tank 200, the oxic tank 300, the settling tank 400 and the storage tank 500, thereby purifying the water quality.

However, in the apparatus for purifying wastewater using microorganisms, all parts except the upper surface are closed, and an open window (not shown) may be installed on the upper surface. Through the open window, the pretreatment tank 100, the anaerobic tank 200 ), The oxic tank 300, the settling tank 400, and the storage tank 500 are made observable.

First, the pretreatment tank 100 is composed of a taper screen 120 and a storage tank 140.

2 is a side view of the pretreatment tank 100 according to a preferred embodiment of the present invention. 2, an inlet 110 and an outlet 130 are formed at one side and the other side of the pretreatment tank 100 and are connected to each other between an inlet 110 and an outlet 130, A taper screen 120 for transferring the suspended solids contained in the introduced wastewater to the other side and transferring the discharged suspension to the outside, and a taper screen 120 installed at the bottom of the taper screen 120 for storing the water separated from the suspended matters of the wastewater And a tank 140 as shown in FIG.

At this time, it is preferable that a filtering net is installed in the connection port 150 passing between the storage tank 140 and the anaerobic tank 200. This is to prevent the suspended solids, which may be contained in the treated water falling from the tapered screen 120, from flowing into the anaerobic tank 200.

The principle of the taper screen 120 is that a tapered screen 120 is provided with a rotating shaft 122 driven by a motor and a rotating blade 122 rotated by the rotation of the rotating shaft 122 at the outer circumference of the rotating shaft 122, It is possible to explain that the heat exchanger 124 is installed.

That is, the pretreatment tank 100 is provided with a space for pretreating the wastewater introduced from the outside, and has an inlet 110 and an outlet 130 formed at one side and the other side, and is provided between the inlet 110 and the outlet 130 The rotation shaft 122 is installed in the horizontal direction (or the longitudinal direction) inside the tapered screen 120. [

A separate motor (not shown) is installed outside the pretreatment tank 100. As the rotating shaft 122 rotates by the driving of the motor, suspended matters of the wastewater transferred to the interior of the taper screen 120 are discharged through the discharge port 130 And the treated water separated from the float drops to the storage tank 140 formed at the lower portion of the taper screen 120. [ In this way, only the treated water from which the floating matters are removed is stored in the storage tank 140.

In addition, the tapered screen 120 preferably has a shape in which the diameter of the tapered screen 120 is reduced toward the other side of the pretreatment tank 100 where the discharge port 130 is formed, from one side of the pretreatment tank 100 where the inlet 110 is formed. This is because the diameter of the tapered screen 120 is reduced from one side to the other side, so that suspended matters contained in the wastewater can be easily discharged to the discharge port 130.

3 is a detailed view of a tapered screen 120 according to a preferred embodiment of the present invention. 3, the tapered screen 120 is installed to surround the outside of the first tapered screen (120a), a first tapered screen (120a) which a plurality of first treated water outlet hole (h _1), a through formation and, it can be seen a plurality of the second treated water outlet hole (h ₂₎ constituted by any second tapered screen (120b) being formed with a through.

More specifically, FIG. 3 illustrates that the tapered screen 120 can be installed in a double manner. In the first and second tapered screens 120a and 120b, It can be seen that a tapered screen 120b is additionally installed.

The reason why the first taper screen 120a and the second taper screen 120b are installed in a duplex manner is that the first taper screen 120a or the second taper screen 120b is moved by the pressure of the wastewater flowing through the inlet 110, In order to prevent the occurrence of breakage.

At this time, the first taper screen 120a and the second taper screen 120b are preferably installed such that the first treated water outflow hole h ₁ and the second treated water outflow hole h ₂ are staggered from each other.

If the if the first treated water outlet hole (h ₁₎ and the second treated water outlet hole (h ₂₎ install a first tapered screen (120a) and the second taper screen (120b) to be positioned to be a response, contained in the waste water The suspended matter does not stay in the space between the first taper screen 120a and the second taper screen 120b and there is a case where the suspended water is contained in the treated water falling into the storage tank 140. [

However, it is preferable that the first treated water outflow hole (h ₁ ) and the second treated water outflow hole (h ₂ ) have a small diameter from which only the treated water can be separated from the suspended matter, the diameter of the hole (h ₁₎ and the second treated water outlet hole (h ₂₎ is is not possible to change the design, only limited to the scope of any diameter.

Next, the anaerobic tank 200 is installed adjacent to the pretreatment tank 100 to introduce treated water, a first wash water inflow pipe 210 is formed on one side, and an anaerobic environment is formed by the anaerobic microorganisms.

That is, the anaerobic tank 200 discharges and removes phosphorus by using an organic material by the phosphorus accumulating microorganism (PAO) in a state in which oxygen is not present. In the anaerobic tank 200, the phosphorus in the anaerobic tank 200 of the treated water flowing from the pretreatment tank 100 The first anaerobic tank, the second anaerobic tank, the third anaerobic tank, and the fourth anaerobic tank may be divided into a plurality of bulkheads in order to maximize the time.

The anaerobic microorganisms in the anaerobic tank 200 react with the volatile fatty acids contained in the wastewater to release a large amount of phosphorus accumulated in the anaerobic microorganism body and then release the phosphorus to the anaerobic microorganisms in the aeration tank 300, , But it can be said to be removed by overdosing.

Next, the aerobic tank 300 is installed adjacently to the anaerobic tank 200 to receive treated water from the anaerobic tank 200, a second washing water inflow pipe 310 is formed at one side thereof, an aeration device is installed therein, An aerobic environment due to microorganisms is formed.

In other words, oxygen is supplied to the aerobic tank 300 to decompose organic matter by aerobic microorganisms. In the aerobic tank 300, an aeration device is installed to promote an aerobic environment, thereby promoting decomposition of organic matter by aerobic microorganisms .

Here, the aeration apparatus refers to a device that simultaneously supplies a large amount of oxygen, for example, a jet aerator may be used. That is, the jet aerator uses the principle of the venturi pipe to supply the oxygen to the nozzle due to the pressure difference while the treated water passes through the venturi pipe, and the decomposition of the organic matter by the microorganism increases as oxygen is supplied into the oxic tank 300.

Next, the sedimentation tank 400 is disposed adjacently to the oxic tank 300 to separate the solid foreign matters of the treated water supplied from the oxic tank 300 into solid-liquid.

More specifically, the sedimentation tank 400 receives the treated water from the oxic tank 300, and precipitates sediments remaining in the treated water, that is, solid foreign matter. This means that a separate aeration device is installed in the sedimentation tank 400 The sedimented solid matter is precipitated on the bottom of the settling tank 400 before being discharged to the final outside.

In addition, one side of the settling tank 400 may further include a concentration tank 410 for concentrating the solid foreign substance supplied from the settling tank 400 and recovering the filtrate separated from the concentrated solid foreign substance to the pretreatment tank 100.

In the concentrating tank 410, centrifugal separation is applied to concentrate the solid foreign matter, and the concentrated solid matter is disposed of in a manner such as land treatment as long as it can be recycled. For example, since the concentrated solid matter contains a large amount of nitrogen and phosphorus, which are decomposition products of the anaerobic microorganism of the present invention, it can be used as fertilizer in some cases.

The filtrate separated from the concentrated solid matter through centrifugal separation is collected through the connection channel R connecting the concentration tank 410 and the pretreatment tank 100 and is passed through the pre-treatment tank 100, the anaerobic tank 200 ), The oxic tank 300 and the settling tank 400 can be performed again, thereby maximizing the efficiency of the purification process.

Finally, the reservoir 500 is disposed adjacent to the sedimentation tank 400, and a treatment water discharge pipe 510 for discharging the treated water separated from the solid foreign substance by the sedimentation tank 400 is formed.

That is to say, the storage tank 500 periodically discharges the finally purified water through the treated water discharge pipe 510 formed at one side, and the treated water thus finally purified and discharged is reused as domestic water such as toilet wash water, This is possible.

As described above, the wastewater purification apparatus using the microorganisms according to the present invention is characterized in that the wastewater is purified through the pretreatment tank 100, the anaerobic tank 200, the oxic tank 300, the settling tank 400 and the storage tank 500, It is possible not only to remove water, but also to conserve water resources.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention may be embodied otherwise without departing from the spirit and scope of the invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to illustrate them, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the claims, and all technical ideas within the scope of the claims should be construed as being included in the scope of the present invention.

100: Pretreatment tank
110: inlet
120: Taper screen
120a: first tapered screen
120b: a second tapered screen
122:
124:
130: Outlet
140: Storage tank
150: connector
200: Anaerobic tank
210: First washing water inlet pipe
300:
310: Second washing water inlet pipe
400: settling tank
410: Enrichment tank
500: Storage tank
510: treated water discharge pipe
h ₁ : the first treated water discharge hole
h ₂ : second treated water outflow hole
R: Connection channel

Claims (5)

A tapered screen which is connected to the inlet and the outlet to form a tapered screen for transferring the suspended solids contained in the wastewater introduced from the inlet to the other side while pressing and discharging the suspended solids to the outside, A pretreatment tank installed at a lower portion of the taper screen to store the treated water separated from the suspended matters of the wastewater, while being dropped;
An anaerobic tank installed adjacently to the pretreatment tank to introduce the treated water, a first wash water inflow pipe formed on one side, and an anaerobic environment formed by the anaerobic microorganisms;
An aerobic tank installed adjacently to the anaerobic tank, receiving treatment water from the anaerobic tank, forming a second wash water inflow pipe at one side thereof, and an aeration device installed therein to create an aerobic environment by aerobic microorganisms;
A sedimentation tank provided adjacent to the oxic tank for solid-liquid separation of solid foreign matters of the treated water supplied from the oxic tank; And
And a storage tank provided adjacent to the settling tank and formed with a process water discharge pipe for discharging the process water separated from the solid foreign material by the settling tank to the outside,
A connection port is formed between the storage tank and the anaerobic tank,
The connecting port is provided with a filtering net,
Wherein the tapered screen comprises:
A first tapered screen through which a plurality of first process water outflow holes are formed; And
And a second taper screen installed to surround the outside of the first taper screen and having a plurality of second process water outlet holes formed therethrough,
Wherein the first tapered screen and the second tapered screen are arranged such that,
Wherein the first treated water outflow hole and the second treated water outflow hole are staggered from each other. The method according to claim 1,
At one side of the settling tank,
Further comprising a concentrating tank for concentrating the solid foreign matter supplied from the settling tank and then collecting the filtrate separated from the concentrated solid foreign matter into the pretreatment tank. The method according to claim 1,
Inside the tapered screen,
Wherein the rotary shaft is driven by a motor and a rotary blade is provided on an outer circumference of the rotary shaft to rotate according to the rotation of the rotary shaft. delete delete

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