KR100715820B1 - Flow-rate regulating tank - Google Patents

Abstract

The present invention relates to a flow rate adjustment tank capable of simultaneously performing pH control, flocculation, and aeration of effluent in a effluent water treatment system, and having a dividing wall for dividing the effluent into a waste water inlet; An air supply unit installed at one side and the other side to supply air; An acidity sensor installed at each of the one side and the other side; A sulfuric acid supply pipe installed at one side and controlled by the acidity sensor and sulfuric acid control valve; A coagulant supply pipe installed at the other side and controlled by the acidity sensor and a coagulant control valve; A level switch installed at the other side; And a waste water transfer pump operated by the level switch and discharging waste water of the other side.

Waste water, purified water, flocculation tank, storage tank

Description

Flow-rate regulating tank

1 is a schematic diagram of a flow adjustment tank and a wastewater treatment system according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

100, 110: tide tank 101, 111: gate

200: flow rate adjustment tank 201: sulfuric acid control valve

202: coagulant control valve 210: partition wall

220,230: Air supply part 221,231: Air control valve

240,250: acidity sensor 260: level switch

270,271: Sewage water transfer pump 280,281: Pressure gauge

282, 283: flow control valve 290: line mixer

291: drain valve 300: sedimentation device

310: center tube 320: stirring blade

321: stirring shaft 330: inclined plate

340: stirring motor 350: supernatant water outlet

360: sludge outlet 400: discharge tank

401: gate 410: recycling pump

411,413: Recycling control valve 412: quick coupling

420: flow meter 500: flocculant supply device

510: coagulant tank 521,523,524,525,526: regulating valve

530,531: Coagulant pump 522,527: Drain valve

600: polymer supply device 610: polymer tank

620: stirring motor 621: stirring shaft

622: stirring blade 631,633,634,635,636: control valve

632,637: drain valve 640,641: polymer pump

The present invention relates to a flow rate adjustment tank, and more particularly, to a flow rate adjustment tank capable of simultaneously performing pH control, flocculation, and aeration of wastewater in a wastewater treatment system.

In general, the treatment process of wastewater treatment plant is as follows.

First, the sewage water is introduced and settled several times. In the next step, the pH of the sewage water is adjusted, sludge is generated through chemical reaction and flocculation / precipitation reaction, and the sludge is separated and finally discharged.

Conventionally, after adjusting the pH, performing the chemical reaction and the flocculation / precipitation reaction as a separate device, especially after adjusting the pH, there was a problem that can not cope with the pH change due to the chemical reaction again.

An object of the present invention devised to solve the above problems is to provide a flow regulating tank capable of simultaneously performing pH control, flocculation, and aeration of the polluted water in the wastewater treatment system.

The present invention for achieving the above object, having a dividing wall for dividing, the waste water inflow to one side; An air supply unit installed at one side and the other side to supply air; An acidity sensor installed at each of the one side and the other side; A sulfuric acid supply pipe installed at one side and controlled by the acidity sensor and sulfuric acid control valve; A coagulant supply pipe installed at the other side and controlled by the acidity sensor and a coagulant control valve; A level switch installed at the other side; And a waste water transfer pump operated by the level switch and discharging waste water of the other side.

The dividing wall is characterized in that the lower side is open so that the foul water can move.

The flocculant supply pipe is characterized in that disposed closer to the partition wall than the sulfuric acid supply pipe on the other side.

The air supply unit is characterized in that consisting of a tubular body formed with a plurality of injection holes on the surface.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described. In adding reference numerals to components of the following drawings, it is determined that the same components have the same reference numerals as much as possible even if displayed on different drawings, and it is determined that they may unnecessarily obscure the subject matter of the present invention. Detailed descriptions of well-known functions and configurations will be omitted.

1 is a schematic diagram of a wastewater treatment system in which a flow rate adjustment tank 200 according to an embodiment of the present invention is installed.

First, the polluted water is introduced into the settling tank (100, 110). At this time, the sludge to be conveyed can also be introduced again.

The sedimentation tank (100, 110) is efficient to put a plurality, the large particles of the material to sink and remove only the equivalent leachate to the next step.

The filthy water passing through the immersion tanks 100 and 110 is introduced into the flow rate adjustment tank 200 according to the embodiment of the present invention.

The flow rate adjusting tank 200 is bisected by the dividing wall 210.

The dividing wall 210 is open at the lower side thereof so that the foul water can move freely.

In addition, an air supply unit 220 is installed at one side of the polluted water on the basis of the dividing wall 210.

The air supply unit 220 may use a tube formed with a plurality of injection holes on the surface.

The air supply unit 220 is connected to an air supply source (not shown), and the air amount is controlled by the air control valve 221.

In addition, a sulfuric acid supply pipe is installed at one side, so that the pH of the dirty water is within a predetermined range.

The sulfuric acid supply pipe is connected to a sulfuric acid supply source (not shown) and controlled by the sulfuric acid control valve 201.

In addition, an acidity sensor 240 is installed at one side to measure the pH of the polluted water due to the supply of sulfuric acid in real time, so that the supply amount of sulfuric acid can be adjusted.

Therefore, the dirty water, which is aerated by air at one side and whose pH is adjusted by sulfuric acid, is moved to the other side of the flow regulating tank 200 via the dividing wall 210.

The air supply unit 230 is also installed at the other side, and the air supply unit 220 may use a tubular body having a plurality of injection holes formed on a surface thereof.

The air supply unit 230 is connected to an air supply source (not shown), and the air amount is controlled by the air control valve 221.

In addition, a coagulant supply pipe is installed at the other side, and the coagulant supply pipe is connected to the coagulant supply device 500 to receive a coagulant, and the supply amount is controlled by the coagulant control valve 202.

The flocculant supply apparatus 500 supplies the flocculant stored in the flocculant tank 510 to the flow rate adjusting tank 200 through the flocculant pumps 530 and 531.

Two coagulant pumps 530 and 531 were installed in consideration of the load, and a plurality of control valves 521, 523, 524, 525 and 526 are installed for this purpose. In addition, drain valves 522 and 527 are provided for removing a substance remaining in the pipe for conveying the flocculant.

In this case, PAC may be used as the flocculant, and when the flocculant is added to the wastewater, not only the flocculation but also the pH change.

In addition, the acidity sensor 250 is further provided on the other side of the flow rate adjusting tank 200, and thus the pH change amount is measured. Therefore, the supply amount of the coagulant may be controlled by the acidity sensor 250 and the coagulant control valve 202.

Therefore, the other side can maintain a constant pH at all times by addition of the flocculant, as well as the flocculation action.

And, the other side is a waste water transfer pumps (270, 271) is installed, and transfers the waste water to the precipitation apparatus (300).

At this time, the level sensor 260 is installed at the other side to determine the operation time of the effluent water pump (270, 271).

Therefore, when the level sensor 260 detects a constant level of the other side, the filthy water transfer pumps 270 and 271 operate.

The wastewater supplied from the wastewater transfer pumps 270 and 271 is mixed with the polymer in the line mixer 290 and supplied to the precipitation apparatus 300.

The polymer is supplied by a polymer supply device 600, the polymer supply device 600 is a polymer tank 610 in which a polymer is stored, a polymer pump 640 and 641 to supply pressure to the polymer, and the polymer Control valves 631, 633, 634, 635, 636 for controlling the flow rate before and after the pumps 640, 641, and drain valves 291, 632, 637 for removing residual substances in the pipe.

In addition, the polymer tank 610 is provided with a stirring blade 622 to be stirred integrally to the stirring shaft 621 so that the polymer in the polymer tank 610 can be uniformly distributed, the stirring shaft 621 Is rotated by the stirring motor 620.

The precipitation device 300 is formed in a substantially cylindrical shape, the central tube 310 to which the filthy water is supplied, the stirring blade 320 to stir the filthy water from the lower side of the central tube 310, the center tube 310 It includes an inclined plate 330 to block the slurry to the outside of the).

The lower portion of the precipitation device 300 is a conical inclined surface is a structure that can discharge the collected slurry to the side, the sludge discharge port 360 for slurry discharge is formed.

In addition, the stirring blade 320 is rotated by the stirring shaft 321 connected integrally by the stirring motor 340.

The upper water discharge port 350 is installed above the inclined plate 330, and the sludge is removed from the precipitation device 300.

The water discharged to the supernatant outlet 350 is supplied to the discharge tank 400, the sedimentation by self weight is made once more in the discharge tank (400).

At this time, the sedimented material, that is, the water present in the lower portion of the discharge tank 400 is introduced into the polymer supply device 600 by the recycling pump 410, or is re-introduced into the flow control tank 200.

The supernatant is discharged through the gate 401, and the discharge amount is controlled by the flow meter 420.

As described above, it has been described with reference to the preferred embodiment of the present invention, but those skilled in the art various modifications and changes of the present invention without departing from the spirit and scope of the present invention described in the claims below I can understand that you can.

Through the present invention, it is possible to simultaneously perform pH control, flocculation, and aeration of the effluent in the flow adjustment tank.

And, it is possible to actively cope with the change in pH after the addition of the flocculant.

Claims (3)

A water tank having a dividing wall for dividing the waste water into one side; An air supply unit installed at one side and the other side to supply air; An acidity sensor installed at each of the one side and the other side; A sulfuric acid supply pipe installed at one side and controlled by the acidity sensor and sulfuric acid control valve; A coagulant supply pipe installed at the other side and controlled by the acidity sensor and a coagulant control valve; A level switch installed at the other side; And And a waste water transfer pump operated by the level switch and discharging the waste water of the other side. The method of claim 1, The dividing wall is a flow rate adjustment tank, characterized in that the lower side is open so that the filthy water can move. The method of claim 1, The air supply unit is a flow rate adjustment tank, characterized in that made of a tubular body formed with a plurality of injection holes on the surface.

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