KR101193225B1 - Apparatus for upflow treatment of anaerobic wastewater - Google Patents

Abstract

The present invention relates to an anaerobic wastewater treatment apparatus, according to an embodiment of the present invention, the sealed first space is formed inside, the upper one side is provided with an outlet for the discharged treatment water, the lower side of the outlet is the waste water A treatment tank provided with an inlet opening; It is installed in the first space portion, there is formed a second space portion in the upper opening, a narrow tapered nozzle is formed at the lower end, the injection tank in which the waste water inlet pipe connected to the inlet is extended adjacent to the top of the nozzle ; A dispersion part protrudingly formed on the bottom surface of the first space part in a sharply inclined shape corresponding to the nozzle of the injection tank, and dispersing wastewater passing through the nozzle in the direction of the edge of the first space part to form strong turbulence; And a three-phase separator installed at an upper portion of the injection tank and separating gas, solid, and liquid from the upward flowing wastewater.

Description

Upflow Anaerobic Wastewater Treatment System {APPARATUS FOR UPFLOW TREATMENT OF ANAEROBIC WASTEWATER}

The present invention relates to an anaerobic wastewater treatment apparatus, in the treatment of wastewater containing organic matter in the UASB (Upflow Anaerobic Sludge Blanket) method, to improve the treatment efficiency of the wastewater and to prevent the outflow of granules (granule) upflow anaerobic wastewater It relates to a processing apparatus.

As an anaerobic wastewater treatment apparatus for treating wastewater containing organic matter, a UASB treatment apparatus for forming granules from anaerobic bacteria contained in the wastewater and decomposing organic matter in the wastewater and an expanded granular sludge bed (EGSB) treatment apparatus are widely known.

Here, in the case of the UASB treatment apparatus, contaminants in the wastewater are converted to biogas using anaerobic bacteria, and these anaerobic bacteria are aggregated in granule form to form a blanket, and the wastewater supplied to the bottom of the treatment tank is a granule layer. In the process of ascending through, the organic matter in the wastewater comes into contact with anaerobic bacteria and is removed by its metabolism.

Therefore, in the UASB treatment apparatus, while maintaining the granule layer stable, it is necessary to prevent the loss of the formed granule as much as possible, it is necessary to facilitate the formation of the granules and to improve the treatment efficiency of organic matter.

The present invention has been made in accordance with the necessity as described above, in one embodiment of the present invention, the injection tank is installed inside the treatment tank, the lower portion of the injection tank protrudes through the spray tank by forming a dispersion in the bottom surface of the treatment tank It relates to an upflow anaerobic wastewater treatment apparatus in which one wastewater impinges on the dispersion and forms strong turbulence at the bottom of the treatment tank, thereby improving the performance of organic matter treatment by granules.

In addition, one embodiment of the present invention relates to an upflow anaerobic wastewater treatment apparatus to prevent the loss of granules by allowing the wastewater and granules under the three-phase separator to be circulated back to the injection tank through the circulation pipe.

According to a preferred embodiment of the present invention, a closed first space is formed inside, the upper side is provided with an outlet for the discharge of the treated water, the lower side of the outlet is disposed in the treatment tank is provided with an inlet for the inlet; It is installed in the first space portion, there is formed a second space portion in the upper opening, a narrow tapered nozzle is formed at the lower end, the injection tank in which the waste water inlet pipe connected to the inlet is extended adjacent to the top of the nozzle ; A dispersion part protrudingly formed on the bottom surface of the first space part in a sharply inclined shape corresponding to the nozzle of the injection tank, and dispersing wastewater passing through the nozzle in the direction of the edge of the first space part to form strong turbulence; And a three-phase separator installed at an upper portion of the injection tank and separating gas, solid, and liquid from the upward flowing wastewater.

Here, the three-phase separator is spaced apart from the upper part of the injection tank, the guide plate is formed inclined downward in the rim, and the third space is provided on the upper side of the guide plate and communicates with the first space inside the gas discharge pipe at the top The connected gas collection tank and a baffle are formed to be inclined downward along the inner circumferential surface of the treatment tank at a predetermined distance from the lower side of the guide plate.

In addition, the third space portion communicates with the first space portion by an overflow tube vertically extending upward of the guide plate, and communicates with the second space portion by a circulation tube vertically extending downward of the guide plate.

At this time, one side of the baffle is formed with a recirculation line connected to the inlet, one side of the recirculation line is connected to the waste water supply line extending from the waste water storage tank.

According to the upflow anaerobic wastewater treatment apparatus according to an embodiment of the present invention, by forming a strong turbulence in the lower portion of the treatment tank to rotate the granules, evenly supplied organic material to the surface of the granules, to improve the treatment performance of waste water Can be.

In addition, it is possible to prevent the loss of granules by recycling the wastewater and granules under the three-phase separator to the injection tank through the circulation pipe.

In addition, the granules introduced into the spray tank are passed through the nozzle of the spray tank, hit the dispersion portion and dispersed in the direction of the edge of the treatment tank, and are split finely by the strong turbulence generated in the process, wastewater due to the increase of the surface area of the whole granule There is an improvement in processing performance.

1 is a schematic view of an upflow anaerobic wastewater treatment apparatus according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of an upflow anaerobic wastewater treatment apparatus according to an embodiment of the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

In addition, the following embodiments are not intended to limit the scope of the present invention, but merely as exemplifications of the constituent elements set forth in the claims of the present invention, and are included in technical ideas throughout the specification of the present invention, Embodiments that include components replaceable as equivalents in the elements may be included within the scope of the present invention.

Example

1 is a schematic diagram of an upflow anaerobic wastewater treatment apparatus according to an embodiment of the present invention.

As shown in Figure 1, the upflow anaerobic wastewater treatment apparatus 10 according to an embodiment of the present invention, the wastewater is introduced into the treatment tank 20, the treatment tank 20 is installed in the wastewater The injection tank 30 which flows quickly to the bottom surface of the processing tank 20, and the waste water which protruded from the bottom surface of the processing tank 20 against the injection tank 30, and passed through the injection tank 30 The three-phase separator which separates the gas, solid and liquid from the wastewater flowing upwards and is installed in the dispersion portion 40 and spaced apart in the upper portion of the injection tank 30 to be dispersed in the direction of the edge of the treatment tank 20 ( 50).

Here, the treatment tank 20 is in the form of a cylindrical tank in which waste water is stored in a state where the top and bottom are closed and the contact with air is blocked, and the first space 21 is formed therein, and the upper portion of the treatment tank 20 is formed. One side is provided with an outlet 22 through which the treated water is discharged, and an inlet 23 is provided at a position slightly higher than the lower one side of the outlet 22, preferably, a spray tank 30 to be described later. Wastewater is supplied via

The injection tank 30 is installed in the first space 21 in the treatment tank 20. At this time, the injection tank 30 has a cylindrical shape with a second space portion 31 formed therein, the upper part of which is opened and the lower part of which is tapered narrowly so that the center of the lower part is formed in the form of a nozzle 32. The first space 21 is spaced apart from the bottom by a predetermined distance.

In addition, the wastewater inlet pipe 33 is connected to the second space part 31 in the injection tank 30, one end of the wastewater inlet pipe 33 is connected to the inlet 23, and the other end is bent downward. It is arranged adjacent to the top of the nozzle (32).

Therefore, the wastewater entering the inlet 23 through the wastewater supply line 61 connected to the wastewater storage tank 60 passes through the wastewater inlet pipe 33 through the nozzle 32 of the spray tank 30. It is supplied to the bottom surface direction of the part 21.

At this time, the dispersion unit 40 is installed in the center of the bottom surface of the first space portion 21 to face the nozzle 32 of the spray tank 30, and is supplied through the nozzle 32 of the spray tank 30 The waste water is dispersed in the direction of the edge of the treatment tank 20, the dispersion portion 40 is preferably formed to protrude in a sharply inclined shape, such as a triangular pyramid, square pyramid, cone, while hitting the dispersion portion 40 Wastewater flowing in the direction of the edge of the treatment tank 20 forms a strong turbulent flow that is rotated by hitting the inner wall of the treatment tank 20 as shown in FIG.

In this process, the sludge contained in the wastewater aggregates to form granules, and the granules are rotated by strong turbulence, and as the active contact with organic matter contained in the wastewater becomes active, the wastewater treatment performance is reduced. To improve.

In other words, methane-producing bacteria are present in the granules, and these methane-producing bacteria anaerobicly treat wastewater. The methane-producing bacteria decompose organic matter in the wastewater to generate gas such as methane gas and carbon dioxide gas.

At this time, the formation of the granules may be made naturally over time, but it is also possible to use the granules already formed into the treatment tank 20 to be used.

The gas generated by the anaerobic treatment by granules becomes bubbles and rises from the lower portion of the first space portion 21.

At this time, by the injection of the wastewater through the nozzle 32 of the injection tank 30 and the rise of bubbles, an upflow is formed in the first space portion 21, and the wastewater flows upward.

Therefore, a region in which weak turbulent flow flows is formed in a region slightly higher than the lower portion of the first space portion 21 in which strong turbulence is formed, and a laminar flow in which a constant flow is higher than that. A zone through which a laminant flow flows is formed, which has the effect of preventing the outflow of granules.

In addition, the granules are bubbled to the surface and flows upward together, and as the flow continues to agglomerate, the granules increase in size from the zone where strong turbulence is formed to the zone where laminar flow is formed. The self weight is balanced to form a granule layer (blanket).

At this time, the wastewater rises along the upstream and passes through each layer consisting of granules of different sizes, where organic matter contained in the wastewater comes into contact with the granules and is treated by anaerobic bacteria such as methane-producing bacteria.

On the other hand, the three-phase separator 50 for separating the gas, solid and liquid from the waste water flowing upward is installed in the upper portion of the injection tank 30, the three-phase separator 50 is spaced apart in the upper portion of the injection tank (30) And a guide plate 51 having a rim inclined downward, a gas collecting tank 52 provided above the guide plate 51 and having a third space portion 52a formed therein, and a guide plate 51. It may be configured to include a baffle (53) formed to be inclined downward along the inner circumferential surface of the treatment tank 20 spaced apart a predetermined distance to the lower side.

The anaerobic wastewater that comes into contact with the granules while rising to the upper portion of the first space 21 is discharged as treated water through the outlet 22 through the baffle 53 and the guide plate 51, and some of the wastewater is baffle. (53) One end is coupled to the lower side and the other end is recycled back to the inlet 23 through the recirculation line 56 coupled to the inlet (23).

At this time, one side of the recirculation line 56 is connected to the wastewater supply line 61 extending from the wastewater storage tank 60, and thus through the wastewater supplied through the wastewater supply line 61 and the recirculation line 56 The waste water supplied is mixed together and introduced into the second space 31 along the wastewater inlet pipe 33 through the inlet 23.

The granules raised together with the waste water are guided to the lower part of the guide plate 51 by the baffle 53, and the guide plate 51 overflows to the third space portion 52a of the gas collecting tank 52. Pipe 54 is installed vertically, the granules raised to the bottom of the guide plate 51 enters the gas collection tank 52 together with the waste water.

At this time, the upper end of the overflow tube 54 is preferably located slightly higher than the water surface of the waste water stored in the gas collection tank 52, the third of the gas collection tank 52 through the overflow tube 54 Gases such as methane gas are separated from the wastewater and granules ejected to the space portion 52a, and the separated gas is discharged through the gas discharge pipe 52b on the upper end of the gas collecting tank 52.

In addition, the circulation pipe 55 extends vertically to the lower side of the guide plate 51 on the bottom surface of the third space portion 52a and communicates with the end thereof to the second space portion 31 of the injection tank 30. It is installed, the waste water and granules from which gas is separated are introduced into the second space part 31 of the injection tank 30 again through the circulation pipe 55.

Wastewater and granules introduced into the second space portion 31 of the spray tank 30 through the circulation pipe 55, and the wastewater flowing into the spray tank 30 are discharged from the outside of the spray tank 30. Wastewater and granules drawn into the space 31 are sprayed back into the dispersion 40 through the nozzle 32 of the spray tank 30.

At this time, the granule is torn into smaller size granules by hitting the dispersion 40, or by the strong turbulent flow due to the dispersion of the waste water, and thus the waste water treatment performance due to the increase of the total surface area of the granules due to the reduction of the granule size. This is improved.

Then, the wastewater treatment process is continued in such a manner that the above-described process is repeated again.

10: Upflow anaerobic wastewater treatment device
20: treatment tank 22: outlet
23: inlet
30: injection tank 32: nozzle
33: wastewater inlet pipe
40: dispersion
50: three-phase separator 51: guide plate
52: gas collection tank 53: baffle
54: overflow pipe 55: circulation pipe
56: recycling line
60: wastewater storage tank 61: wastewater supply line

Claims (4)

A treatment tank having an airtight first space formed therein and having an outlet for discharging the treated water at an upper side thereof, and an inlet for introducing waste water at the lower one side of the outlet;
It is installed in the first space portion, there is formed a second space portion is opened in the upper portion, a narrow tapered nozzle is formed at the lower end, waste water inlet pipe connected to the inlet is extended adjacent to the upper portion of the nozzle Spray tank;
Corresponding to the nozzle of the injection tank, the bottom surface of the first space portion is formed to protrude in a sharply inclined shape, the waste water passing through the nozzle is dispersed in the edge direction of the first space portion, to form a strong turbulent flow Dispersing unit to make; And
An upflow anaerobic wastewater treatment apparatus comprising a; three-phase separator is installed on top of the injection tank, separating the gas, solid and liquid from the upward flow of wastewater.
The method according to claim 1, wherein the three-phase separator,
The guide plate is spaced apart from the upper portion of the injection tank and the rim is inclined downward, and the third plate is provided on the upper side of the guide plate and communicates with the first space, and the gas discharge pipe is connected to the top. An upflow anaerobic wastewater treatment apparatus comprising a gas collecting tank and a baffle formed to be inclined downward along an inner circumferential surface of the treatment tank at a predetermined distance from the lower side of the guide plate.
The method according to claim 2,
The third space portion communicates with the first space portion by an overflow tube vertically extending upwardly of the guide plate, and communicates with the second space portion by a circulation tube vertically extending downwardly of the guide plate. Upflow anaerobic wastewater treatment apparatus, characterized in that the.
The method according to claim 2,
A recirculation line is formed at one side of the baffle to be connected to the inlet, and at one side of the recirculation line, a wastewater supply line extending from the wastewater storage tank is connected.

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