KR102023514B1 - Double inclined plate for collecting microorganisms granule and apparatus usnig it - Google Patents

Abstract

The present invention relates to an apparatus for recovering microbial granules by sedimentation and recovery of microbial granules having gas pockets in a wastewater treatment apparatus using granule-type microorganisms.
The microbial granule recovery apparatus of the present invention is provided with an inflow water pipe 11 and an outflow water pipe 12 at an upper portion thereof, and a treatment tank including a granule recovery pipe 13 for recovering microbial granules that have settled on the bottom surface 14. 10; And a plurality of double inclined plates 20 provided at an upper portion of the treatment tank 10 with a lifting inclined surface 21 and a falling inclined surface 22 so that the inflow and the inflow of the inflow water are continuously performed. It includes.
According to the present invention, by using a fixedly installed double inclined plate without supply of an additional power source, it is possible to reduce the separate maintenance cost, and to improve the microbial recovery efficiency by improving the settling speed of the microbial granules.

Description

Double inclined plate for collecting microorganisms granule and apparatus usnig it}

The present invention relates to an apparatus for recovering microbial granules in a wastewater treatment apparatus using granule-type microorganisms.

In various bioreaction processes, granules are useful microbial masses that maintain a certain amount in the bioreactor. This bioreaction process is not only the anaerobic deammonia reaction (anamox) for nitrogen wastewater treatment, but also the bioreactors where the gramo-type microorganisms play a main role.

In general, anaerobic microorganisms are known to have slower growth and higher sensitivity to environmental factors than aerobic microorganisms. Therefore, microbial loss prevention technology is required to maintain stable process efficiency.

Conventional microbial recovery methods for preventing microbial loss include a carrier immobilization method, a cyclone utilization method, and a natural sedimentation method.

First, in the method of immobilizing the carrier, the microorganism is immobilized on the carrier to proliferate, or the naturally formed granule is recovered and returned to the inside of the reactor. In the case of fixing to the carrier, a screen may be installed at the front end of the outflow pipe to prevent loss. However, the carrier immobilization method is easy to recover, but there is an additional cost in the preparation and immobilization of the carrier, there is a fear that the Anamox bacteria not immobilized on the carrier is lost.

Next, the granule recovery method using the cyclone has an additional power cost for operating the cyclone to select a substance according to specific gravity, and the anamorphic granule specific gravity is similar to water, which has disadvantages in that recovery efficiency is lowered.

Next, the natural sedimentation method has a disadvantage in that the sedimentation is not easy because it contains nitrogen gas generated by Anamox bacteria inside the granules.

Korea Patent Registration 10-1450772 (2014. 10. 16 announcement) Korea Patent Registration 10-0564993 (2006. 03. 28. notification) Korea Patent Registration 10-1272016 (June 10, 2013)

The present invention, in order to solve the above problems, to increase the sedimentation by removing the internal nitrogen gas from the microbial granule having a nitrogen gas pocket therein, and to recover the microbial granules for returning the recovered microbial granules to the reaction tank and the same The purpose is to provide a microbial granule recovery device used.

The microbial granule recovery double-slope plate of the present invention for solving the above problems, a plurality of microbial granules are provided at a predetermined interval on the treatment tank 10 for sedimentation and recovery of the microbial granule having a gas pocket included in the inflow water It is installed in the upper portion of the treatment tank 10, it is characterized in that it comprises a lifting inclined surface 21 and the lowering inclined surface 22 so that the inlet and the lowering of the inlet is continuously made.

Preferably, the microbial granules are characterized in that the microbial community cluster used in the anaerobic deammonia reaction for nitrogen wastewater treatment.

Preferably, a plurality of protrusions 23 and 24 protruding with respect to the flow direction of the inflow water is formed on at least one surface of the elevating inclined surface 21 and the falling inclined surface 22. do.

At this time, the protrusions 23 and 24 are alternately arranged with respect to the flow direction of the influent to increase the collision frequency of the gas pocket.

Preferably, the elevating inclined surface 21 and the descending inclined surface 22 is formed extending to the lower portion of the treatment chamber 10 further comprises a partition wall portion 30 is installed apart from the bottom surface 14 Characterized in that.

Preferably, the upward inclined surfaces 43 and 44 are inclined upward to both lower sides of the body on which the elevating inclined surface 21 and the falling inclined surface 22 are formed.

Microbial granule recovery apparatus for solving the other problem of the present invention, in the microbial granule recovery apparatus for sedimentation and recovery of the microbial granule having a gas pocket included in the inflow water, the inflow pipe 11 and the outflow pipe 12 at the top It is installed, the treatment tank 10 having a granule recovery pipe 13 for recovering the microbial granules sedimented on the bottom surface 14; And a plurality of double inclined plates 20 provided at an upper portion of the treatment tank 10 with a lifting inclined surface 21 and a falling inclined surface 22 so that the inflow and the inflow of the inflow water are continuously performed. Characterized in that it comprises a.

Preferably, the microbial granules are characterized in that the microbial community cluster used in the anaerobic deammonia reaction for nitrogen wastewater treatment.

Preferably, the double inclined plate 20 is formed to extend to each lower portion, and further comprises a partition wall portion 30 is installed spaced apart from the bottom surface of the treatment tank (10).

Preferably, the bottom surface of the treatment tank 10 is formed to be inclined downward toward the granule recovery pipe 13, the partition portion 30 is closer to the granule recovery pipe 13, the length downward Characterized in that formed long.

Preferably, the treatment tank 10 is installed in the partitioned space of the upper portion of the microbial reaction tank having a stirrer, the inflow water pipe 11 is configured so that the reaction liquid and the microorganism granules of the microbial reaction tank is introduced, the effluent water Pipe 12 is connected to the effluent line of the microbial reaction tank, the granules recovery pipe 13, characterized in that configured to be connected to the bottom of the microbial reaction tank.

Preferably, the treatment tank 10 is provided spaced apart from the microbial reaction tank, the inflow water pipe 11 is connected to the outlet pipe of the microbial reaction tank, the granule recovery pipe 13 is the microbial reaction tank Characterized in that it comprises a conveying line for refeeding the microbial granules.

According to the present invention has the following effects.

First, by using a fixedly installed double-slope plate without supplying an additional power source, it is possible to significantly reduce separate maintenance costs.

Second, the dual slope plate can greatly increase the microbial recovery efficiency by improving the settling speed of the microbial granules.

Third, the microbial granule recovery treatment tank can be installed in connection with the inside of the microbial reactor, and can block the influence of temperature change, which is a major factor affecting the bioreaction.

1 is a cross-sectional view showing a treatment tank provided with a double inclined plate according to an embodiment of the present invention.
2 is a plan view of FIG.
Figure 3 is a perspective view showing a projection formed on the elevating inclined surface constituting a double slope plate.
Figure 4 is a perspective view showing a projection formed on the elevating inclined surface constituting the double slope plate.
5 is a front view of a double inclined plate according to another embodiment of the present invention.

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

1 and 2, the microbial granule recovery apparatus of the present invention includes a treatment tank 10 for recovering microbial granules largely, and a plurality of double inclined plates 20 installed on the treatment tank 10.

The treatment tank 10 includes an inflow pipe 11 connected to an outflow pipe of a microbial reaction tank (not shown), and a microbial granule settled on the outflow pipe 12 and the bottom surface 14 for discharging the supernatant having the microorganism granules settled. It includes a granule recovery pipe 13 for recovering.

The microbial reaction tank (not shown) may be provided with a stirrer to increase the reaction efficiency as a space where the microbial reaction takes place. Treatment tank 10 constituting the present invention is divided into a rectangular space on the upper surface of the microbial reaction tank, the reaction liquid and microbial granules are configured to flow into the inlet pipe 11 of the treatment tank 10, the outflow water pipe 12 is connected to the effluent line of the microbial reactor, the granule recovery pipe 13 may be connected to the transfer pipe leading to the bottom of the microbial reactor.

Thus, by installing the treatment tank 10 in the microbial reaction tank, it is possible to improve the treatment space efficiency, as well as to block the effect on the temperature change which is a major factor affecting the biological reaction.

On the other hand, as described above, the treatment tank 10 may be installed in an adjacent separate space spaced apart from the microbial reaction tank, without being installed on the upper portion of the microbial reaction tank. In this case, the inflow pipe 11 is connected to the outflow pipe of the microbial reactor. And granule recovery pipe 13 may be configured as a conveying line for supplying the microbial granules back to the microbial reactor.

The treatment tank 10 is for sedimentation and recovery of microbial granules having a gas pocket, the plurality of double inclined plate 20 for sedimentation of microbial granules having a gas pocket is installed at a predetermined interval in the flow direction of the inflow water at the top It is provided.

The microbial granules are mainly agglomerates of microorganisms used in anaerobic deammonia reactions for nitrogen wastewater treatment, but are not limited thereto, and are applicable to both granule-type microorganisms having gas pockets.

Specifically, the double inclined plate 20 includes an elevating inclined surface 21 and a descending inclined surface 22 to continuously ascend and descend the influent.

In this case, as shown in FIGS. 3 and 4, a plurality of protrusions 23 protruding with respect to the flow direction of the inflow water are formed on at least one surface of the lifting inclined surface 21 and the falling inclined surface 22. , 24) are formed. The protrusions 23 and 24 may be formed in various forms such as cylinders, triangular columns, and square columns. The protrusions 23 and 24 collide with the gas pockets so as to settle the microbial granules by removing the gas pockets held by the microbial granules.

The protrusions 23 and 24 may be constituted by a plurality of rows and / or columns, and are preferably arranged alternately with respect to the flow direction of the influent to increase the collision frequency of the gas pockets.

By providing an ultrasonic wave applying means in at least one of the above-mentioned elevating inclined surface 21, the inclined inclined surface 22, and the projections 23 and 24, the gas pocket removal efficiency can be further improved.

On the other hand, the elevating inclined surface 21 and the lowered inclined surface 22 is formed extending to the lower portion of the treatment tank 10 further comprises a partition wall portion 30 is installed apart from the bottom surface.

The partition portion 30 has a function of improving the settling efficiency by increasing the time the microbial granule having an A-pocket stays in the treatment tank 10.

In order to improve the recovery efficiency of the precipitated microbial granules, the bottom surface 14 of the treatment tank 10 is formed to be inclined downward toward the granule recovery pipe 13.

The partition walls 30 described above are formed closer to the granule recovery pipe 13 and have a longer length, that is, closer to the bottom surface 14 of the treatment tank 10. It is desirable to increase the residence time.

Double inclined plate 40 according to another embodiment of the present invention is as shown in FIG.

Compared with the double inclined plate 20 of the above-described embodiment, there is a difference in that the upward inclined surfaces 43 and 44 are inclined upward to both lower sides of the body on which the elevating inclined surface 41 and the falling inclined surface 42 are formed. These upwardly inclined surfaces 43 and 44 function so that the microbial granules having the gas pockets do not stagnate in the lower part of the body and injuries occur smoothly.

Although the above description has been made with reference to the embodiments, the scope of the present invention will be apparent to the equivalents as well as modifications based on the technical spirit described in the claims.

10: treatment tank 11: influent pipe
12: outflow pipe 13: rate recovery pipe
14: bottom 20, 40: double inclined plate
21, 41: lifting slope 22, 42: falling slope
23, 24: projection 30: partition wall
43, 44: upward slope

Claims (12)

As a double inclined plate for recovering microbial granules, a plurality of microbial granules are installed at predetermined intervals in the upper part of the treatment tank 10 for sedimenting and recovering microbial granules having a gas pocket included in the inflow water.
It is installed on the upper portion of the treatment tank 10, and provided with a lifting inclined surface 21 and a lowering inclined surface 22 so that the rising and falling of the inflow water is continuously made,
A plurality of protrusions (23, 24) protruding in the flow direction of the inflow water is formed on at least one surface of the elevating inclined surface 21 and the falling inclined surface 22 is characterized in that Double inclined plate for microbial granule recovery. The method of claim 1,
Wherein the microbial granules, microbial colony recovery for the microbial granules used in the anaerobic deammonia reaction for nitrogen wastewater treatment. delete The method of claim 1,
The projections (23, 24) is a dual slope plate for microbial granule recovery, characterized in that arranged in the flow direction of the inflow water so as to increase the collision frequency of the gas pocket. The method of claim 1,
It further comprises a partition portion 30 is formed to extend to the lower portion of the body formed with the lifting inclined surface 21 and the falling inclined surface 22 spaced apart from the bottom surface 14 of the treatment tank 10. Double inclined plate for microbial granule recovery. The method of claim 1,
The dual inclined plate for microbial granule recovery, characterized in that the upward inclined surface (43, 44) is inclined upward to both lower sides of the body formed with the elevating inclined surface (21) and the falling inclined surface (22). In the microbial granule recovery apparatus for sedimentation and recovery of microbial granule having a gas pocket included in the influent,
A treatment tank 10 having an inflow water pipe 11 and an outflow water pipe 12 installed at an upper portion thereof, and having a granule recovery pipe 13 for recovering microbial granules settled on the bottom surface 14; And
A plurality of double inclined plates 20 which are installed at an upper portion of the treatment tank 10 at predetermined intervals, and have an elevating inclined surface 21 and a descending inclined surface 22 to continuously ascend and descend the inflow water; Including,
A plurality of protrusions (23, 24) protruding in the flow direction of the inflow water is formed on at least one surface of the elevating inclined surface 21 and the falling inclined surface 22 is characterized in that Microbial granule recovery device. The method of claim 7, wherein
The microbial granule is a microbial granule recovery device, characterized in that the microbial community cluster used in the anaerobic deammonia reaction for nitrogen wastewater treatment. The method of claim 7, wherein
Microbial granule recovery device further comprises a partition wall portion 30 is formed to extend to the lower portion of each of the double inclined plate 20, spaced apart from the bottom surface of the treatment tank (10). The method of claim 9,
The bottom surface of the treatment tank 10 is formed to be inclined downward toward the granule recovery pipe 13,
The partition wall portion 30 is a microbial granule recovery device, characterized in that the length of the downward direction is formed to be relatively closer to the granule recovery pipe (13). The method of claim 7, wherein
The treatment tank 10 is installed in a partitioned space above the microbial reaction tank having a stirrer,
The inflow water pipe 11 is configured such that the reaction solution and the microbial granules of the microbial reaction tank are introduced,
The effluent pipe 12 is connected to the effluent line of the microbial reactor,
The granule recovery pipe (13), microorganism granules recovery device characterized in that configured to be connected to the bottom of the microbial reactor. The method of claim 7, wherein
The treatment tank 10 is provided spaced apart from the microbial reaction tank,
The inflow pipe 11 is connected to the outflow pipe of the microbial reactor,
The granule recovery pipe 13 is a microbial granule recovery device, characterized in that consisting of a conveying line for resupplying the microbial granules to the microbial reactor.

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