KR200415478Y1 - microbe reactor - Google Patents

Abstract

The present invention is installed so as to form a flow path in the direction in which the guide plates partitioning each reaction tank or any one inside of the reactor in the longitudinal direction, and inclined to be symmetrical with each other so that the residence time of the wastewater treatment liquid between each guide plate It relates to a microbial reaction stirrer to increase the microbial activity by increasing the.

Microbial reaction stirrer, information board

Description

Microbe reactor

1 is a front view of a conventional microbial reaction stirrer.

Figure 2 is a plan view of a conventional microbial reaction stirrer.

Figure 3 is a front view of the microbial reaction stirrer according to the present invention.

Figure 4 is a plan view of a microorganism reaction high stage according to the present invention.

Figure 5 is a side cross-sectional view of a microbial reaction stirrer according to the present invention.

Figure 6 is a rear view of the microbial reaction stirrer according to the present invention.

* Description of the symbols for the main parts of the drawings *

1: main body 2: denitrification tank

4: activation tank 6: nitrification tank

12: raw water inlet pipe 14: internal return pipe

16: air inlet pipe 19: discharge pipe

30: ejector 100: guide plate

102: flow path 110: circulation pipe

The present invention relates to a microbial reaction stirrer, and more specifically, to install the guide plate for partitioning each reaction tank or any one inside the reactor in the longitudinal direction of the main body to form a flow path in the direction to cross each other, provided to be symmetrical to each other The present invention relates to a microbial reaction stirrer to improve the microbial activity by increasing the residence time of the wastewater treatment liquid between each guide plate.

Conventionally, only livestock wastewater is removed from the livestock wastewater, and the microbial treatment tank is transferred to the original wastewater for biological treatment, or after removing the contaminants from the livestock wastewater, centrifugation is performed again in a centrifuge to remove considerable amounts of organic matter and nitrogen. The pollution load was reduced and then treated in a microbial treatment tank.

In the microbial treatment tank, organic matter and nitrogen in livestock wastewater are removed by using metabolic activity of microorganisms. In general, microbial treatment tanks are operated by aerobic and anaerobic operation periods for a certain period of time. Decomposition and nitrification proceeds, and during the anaerobic operation, denitrification and organic matter decomposition proceed, and the nitrogen component in the livestock wastewater becomes N ₂ gas, which is reduced and removed to the atmosphere.

By the way, in the case of transport to the microbial treatment tank in the raw waste water treatment, the livestock waste water quality is sludge pigs BOD 30,000 to 35,000mg / ℓ, total nitrogen is 5,000 to 6,000mg / ℓ, alkalinity average 10,000mg / ℓ The C / N ratio, which refers to the degree of carbon to nitrogen contained in wastewater or waste water or waste, is about 6, which is higher than the C / N ratio required for nitrification and denitrification, so that nitrification and denitrification are possible, but organic and nitrogen loads are In order to maintain an appropriate concentration for treatment, the size of the microbial treatment tank is increased, which requires a lot of facility costs and a large land area.

Thus, a high rate microbial reaction stirrer for wastewater and high concentration organic wastewater purification has been proposed in Korean Patent Registration No. 0537143, which is shown in FIGS. 1 and 2.

As shown, the conventional microbial reaction stirrer for wastewater and high concentration organic wastewater purification is largely the body (1), raw water inlet pipe (12), inner conveying pipe (14), air inlet pipe (16), gas discharge pipe (18), The treatment liquid discharge pipe 20, the ejector 30 and the underwater air pump (42, 44, 46).

The main body 1 is a tank for agitating the introduced waste water, and is composed of a denitrification tank 2, an activation tank 4, and a nitrification tank 6, and each treatment tank 2, 4, 6 is transverse to each other. Is connected.

The air inlet pipe 16 is provided with an air control valve 17 to block air from entering the denitration reaction tank 12, and the raw water inlet pipe 12 is provided with a raw water control valve 13 to remove the denitrification reaction tank ( 2) Block the inflow of raw water.

In addition, the inner conveying pipe 14 is a passage through which the raw water treated in the nitrification reaction tank 6 is returned to the denitrification reaction tank 2, and has an inner conveying liquid control valve 15, and is internally introduced into the denitrification reaction tank 2. Shut off the return liquid.

In addition, an air inlet pipe 16 through which air is introduced from the outside is formed at an upper portion of each of the reaction tanks 2, 4, 6, and the air inlet hoses 52, 54, 56 are the air inlet pipes 16. ) Is a passage through which air enters the underwater air pumps (42, 44, 46).

In addition, a sludge discharge port 60 for discharging sludge is formed at the lower portions of the denitrification reaction tank 2 and the nitrification reaction tank 6.

However, the conventional wastewater and high concentration organic wastewater purification microorganism reaction stirrer has a problem that the retention time of wastewater in each of the three tanks of the main body shortens the microbial reaction rate.

The present invention was devised to solve the above problems, and an object of the present invention is to vertically layer the inside of each reactor or the inside of the nitrification tank in which the denitrification tank, the activation tank and the nitrification tank are in communication with each other in the transverse direction. To ensure a flow path for flowing wastewater treatment liquid or wastewater and air so as to cross each other and to be symmetrically inclined to each other and to provide a guide plate to further activate the microorganisms by concentrating the air layer on the inclined bottom, It provides a microbial reaction stirrer to improve wastewater purification ability by circulating wastewater treatment liquid including air and wastewater by connecting denitrification tank, activating tank, activating tank and nitrification tank with circulation pipes, respectively.

The present invention for achieving the above object is the denitrification tank, the activation tank and the nitrification tank is divided into at least one of the interior in the longitudinal direction, by increasing the residence time of the wastewater treatment liquid by forming a flow path in the direction cross each other And it is to propose a microbial reaction stirrer characterized in that the guide plate for activating the microorganisms by concentrating air in the lower portion by being installed symmetrically inclined to each other.

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

3 is a front view of the microorganism reaction stirrer according to the present invention, Figure 4 is a plan view of the microorganism reaction stirrer according to the present invention, Figure 5 is a side cross-sectional view of the microorganism reaction stirrer according to the present invention, Figure 6 The rear view of the microbial reaction stirrer according to.

As shown, the microbial reaction stirrer of the present invention has an appearance of a main body 1 partitioned into a denitrification tank 2, an activation tank 4, and a nitrification tank 6.

The main body 1 arranges the denitrification reaction tank 2, the activation tank 4, and the nitrification reaction tank 6 in the horizontal direction in order, and connects the respective reaction tanks 2, 4 and 6.

The main body 1 has a rectangular shape and is divided into a denitrification reactor 2, an activation tank 4, and a nitrification reaction tank 6.

Here, the denitrification reaction tank 2 is a reaction tank for nitrifying and denitrifying the nitric acid nitrogen conveyed inside.

In addition, the activation tank 4 is a reaction tank for decomposing organic matter and nitrifying ammonia nitrogen for a predetermined time, and the nitrification reaction tank 6 for nitrifying ammonia nitrogen for a predetermined time and decomposing organic matter remaining in the activation tank 4. Reactor.

At this time, the denitrification reaction tank 2 and the activation tank 4 are connected to each other at the top, the activation tank 4 and the nitrification tank is connected to each other at the bottom.

The main body 1 includes a raw water inlet pipe 12.

In particular, the raw water inlet pipe 12 is connected to each of the denitrification tank (2), the activation tank (4), the nitrification tank (6) one by one to independently supply the raw water to each reaction tank (2, 4, 6).

At this time, each of the raw water inlet pipe 12 is provided with a raw water control valve 13 to adjust the flow control and flow rate of the raw water.

In addition, the main body 1 is provided with an internal conveying pipe 14 to convey raw water.

That is, the inner conveying pipe 14 returns the raw water treated in the nitrification tank 6 to the denitrification tank 2 as the nitrification tank 6 and the denitrification tank 2 are connected.

At this time, the inner conveying pipe 14 is provided with an inner conveying liquid control valve 15 to control the return of raw water.

In addition, the main body 1 is provided with an air inlet pipe 16 to inject air into the inside and to activate and purify the waste water inside the main body 1 with microorganisms.

In particular, as the air inlet pipe 16 is branched from each of the raw water inlet pipe 12, each of the denitrification tank 2, the activation tank 4, and the nitrification tank 6 is supplied with raw water including air.

Here, since the raw water inlet pipe 12 and the air inlet pipe 16 are combined at the outside of the main body 1, the raw water and air are mixed and introduced into each reactor, and the microorganisms are activated in the main body 1. Promoted.

In addition, the air inlet pipe 16 is provided with an air control valve 17 to control the flow state and flow amount of air.

In addition, the main body 1 is provided with a discharge pipe (19).

At this time, the discharge pipe 19 serves to discharge carbon dioxide generated by decomposition of nitrogen, denitrified nitrogen, and organic matter in the air in each of the reaction tanks 2, 4 and 6, and at the same time, discharges the purified wastewater treatment liquid. do.

In particular, the discharge pipe 19 is connected to the nitrification tank 6, it is preferable to discharge all the gas generated finally while purifying the waste water, such as denitrified nitrogen to the outside.

Then, the ejector 30 is provided at a portion where the raw water inlet pipe 12 and the air inlet pipe 16 are combined.

The ejector 30 is an apparatus capable of maximizing the oxygen dissolved efficiency by efficiently mixing the internal transport water, raw water and air.

In addition, the main body 1 includes submersible air pumps 42, 44, and 46 inside the reaction tanks 2, 4, and 6, respectively, and submersible air pumps 42, 44, 46 and air inlet pipes. 16 is connected to the air inlet hoses 52, 54, 56.

Thus, each of the underwater air pumps 42, 44 and 46 pumps external air and raw water into the denitrification tank 2, the activating tank 4 and the nitrification tank 6 and causes the flow of wastewater treatment liquid. .

At this time, the wastewater treatment liquid means air and raw water.

And, the main body 1 is provided with a sludge discharge port 60 in the lower portion to discharge the sludge generated and sinking during the purification of the waste water to the outside.

In particular, the sludge outlet 60 is preferably provided below each of the denitrification tank 2, the activation tank 4, and the nitrification tank 6.

On the other hand, the denitration reaction tank 2, the activation tank 4, and the nitrification reaction tank 6 are provided with the guide plate 100 in all or any one inside.

For convenience, the guide plate 100 is to be provided in all the reaction tank (2, 4, 6).

In addition, the guide plate 100 divides the inside of each of the reaction tanks 2, 4 and 6 in the longitudinal direction to form a plurality of layers for the retention of the wastewater treatment liquid.

In addition, between the guide plate 100 and the inner wall of each of the reaction tanks 2, 4 and 6, the upper and lower layers communicate with each other to secure the flow path 102 to allow the wastewater treatment liquid to flow.

In particular, the flow paths 102 formed between the guide plates 100 and the inner walls of the reaction tanks 2, 4, and 6 are alternately provided in the up and down directions, thereby reducing the residence time of the waste water between the guide plates 100. Delayed to increase microbial activity.

On the other hand, the guide plate 100 is installed to be inclined symmetrically to each other in the longitudinal direction.

This is because it is possible to concentrate the air contained in the wastewater treatment liquid in the lower portion of the inclined guide plate 100 to ensure a sufficient air layer relative to each layer between the guide plate 100 to promote the microbial reaction.

In addition, the main body 1 is provided with a circulation pipe 110 to circulate the wastewater treatment liquid of each of the denitration reaction tank 2, the activation tank 4 and the nitrification reaction tank 6.

That is, the circulation pipe 110 connects the denitrification tank 2 and the activation tank 4, and the activation tank 4 and the nitrification reaction tank 6.

At this time, the wastewater treatment liquid flows into the lower part of the denitrification tank 2 and moves to the activation tank 4 from the top, and moves to the nitrification tank 6 from the lower part of the activation tank 4.

Thus, the circulation pipe 110 is provided with a pair to connect the lower portion of the activation tank 4 and the upper portion of the denitrification reactor 2 and the lower portion of the nitrification reactor 6 and the upper portion of the activation tank 4. do.

In other words, the circulation pipe 110 sends a portion of the wastewater treatment liquid flowing in the activation tank 4 back to the denitrification tank 2, and reactivates a portion of the wastewater treatment liquid flowing in the nitrification reaction tank 6 again. By circulating in (4) it is possible to improve the microbial activation according to the air circulation.

As described above, the microbial reaction stirrer according to the present invention divides the inside of each of the plurality of reaction tanks arranged in the horizontal direction in the longitudinal direction, and is provided with a guide plate to flow the wastewater treatment liquids to each other in the vertical direction to treat the wastewater between the layers. Increasing the residence time of the liquid has the effect of increasing the microbial activation.

In addition, the guide plate is installed to be inclined symmetrically with each other, so that the air layer can be secured to the lower corner portion, thereby further promoting microbial activation.

In addition, each of the reaction tanks has the effect of increasing the utilization of the wastewater treatment liquid and circulating wastewater treatment liquid by the circulation pipe and increasing the wastewater purification ability according to the extension of the residence time.

Claims (2)

A main body partitioning the denitrification tank, the activation tank, and the nitrification tank in communication with each other in the transverse direction, a raw water inlet pipe for supplying the waste water to the upper portion of the denitrification tank, and an internal conveyance for returning the waste water inside the nitrification tank to the denitrification reactor. A pipe, an air inlet pipe for supplying air to the inside of the main body, a discharge pipe for discharging the wastewater treatment liquid with gas to the upper portion of the reaction tank, and an underwater air pump respectively installed in the lower portion of the plurality of reaction tanks In the microbial reaction stirrer to clean the waste water and high concentration organic wastewater, The denitrification reaction tank, the activation tank and the nitrification reactor divide at least one of the interiors in a longitudinal direction, and increase the residence time of the wastewater treatment liquid by forming flow paths in a mutually staggered direction, and are installed to be symmetrically inclined with each other. By concentrating the air in the lower portion to form a guide plate for activating the microorganisms. The method of claim 1, The denitrification reaction tank and the activation tank and the activation tank and the nitrification reaction tank are respectively connected to a circulation pipe to circulate the wastewater treatment liquid, thereby improving the purification power of the wastewater.

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