KR101393434B1 - Apparatus for treatment of sewage using electrolysis in aeration tank during bnr process - Google Patents

Abstract

According to an aspect of the present invention, there is provided a wastewater treatment apparatus comprising: a wastewater treatment apparatus having an aeration device for continuously supplying sewage to an aerobic state; A sedimentation concentrator for successively depositing and concentrating the sludge of the sewage which has been abandoned in the re-aeration tank and is circulated in the inside, and discharging the sludge by a pump; Agitating the sludge discharged from the submerged concentration tank together with raw water in an anaerobic state to continuously drain the sewage discharged from the phosphorus through the ware; A first reaction vessel having an opening whose one side wall is opened to communicate with one side of the re-aeration tank; A second reaction vessel installed alongside the first reaction vessel in the longitudinal direction; A channel distribution pipe including a pair of flow pipes connected to a wear side of the sideways tandem and respectively installed in the first reaction tank and the second reaction tank in the longitudinal direction and each having an auxiliary pipe at one side; A pair of stirrers for alternately operating the first and second reaction vessels so that the discharged sewage is alternately introduced into the first and second reaction vessels; An electrolytic unit located inside the first reaction tank and the second reaction tank and having an electrode made of iron; And a manganese-type discharge device for alternately discharging purified hydrocarbons alternately flowing in the first reaction tank and the second reaction tank, whereby the nitrogen / phosphorus treatment efficiency of the bottom / wastewater can be remarkably improved .

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for treating wastewater using electrolysis in an aeration tank during a BNR process,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sewage treatment apparatus, and more particularly, to a sewage treatment apparatus that improves the sewage treatment efficiency by adding an electrolytic treatment function to the biological sewage treatment apparatus.

Recently, the effluent quality of discharged sewage and sewage / wastewater treatment plants is not enough to improve the water quality of discharged wastewater. Therefore, it is necessary to improve and improve the efficiency of existing treatment process due to reasons such as strengthening of legal regulations on effluents and regulation of total amount. .

Generally, biological treatment methods are mainly used for treatment of bottom / wastewater, and most of the sewage treatment facilities are using standard activated sludge process or its variants.

However, since the standard activated sludge process and its variants have a very low nitrogen / phosphorus removal efficiency, it is difficult to satisfy the water quality standard for discharged water due to prevention of eutrophication and enforcement of environmental regulations.

At present, various treatment methods are being developed for the removal of nitrogen / phosphorus, but since most of the methods are biological nitrogen / phosphorus removal methods, the organic loading is very low in nitrogen removal, so it is applied to most sewage treatment plants with low C / N ratio There is a problem that it is difficult.

Korean Registered Patent No. 1192378 (Oct. 10, 2012), a waste water purification treatment device provided in a flush type tank

SUMMARY OF THE INVENTION It is an object of the present invention to provide a sewage treatment apparatus capable of satisfying an enhanced water quality standard by improving nitrogen / phosphorus removal efficiency.

According to an aspect of the present invention, there is provided a wastewater treatment apparatus comprising: a wastewater treatment apparatus having an aeration device for continuously supplying sewage to an aerobic state; Wherein the sludge of the sewage which is provided in the re-aeration tank and has a lower height than the re-aeration tank and has an open top, is discharged from the re-aeration tank, is continuously precipitated and concentrated, Knowledge concentration tank; Sludge discharged from the sinker-type concentrator together with raw water is returned in a bottom-up manner and agitated in the anaerobic state to circulate sewage discharged from the phosphorus continuously through the ware; A first reaction vessel having an opening whose one side wall is opened to communicate with one side of the re-aeration tank; A second reaction vessel installed alongside the first reaction vessel in the longitudinal direction; A first pipe extending from the first pipe and a second pipe extending from the first pipe to the first pipe and the second pipe extending from the first pipe to the first pipe, A flow path distribution pipe including a pair of flow pipes each having an auxiliary pipe on one side; A pair of stirrers alternately operated so that sewage taken out from the siphon is alternately introduced into the first and second reactors; An electrolytic unit located inside the first reaction tank and the second reaction tank and having an electrode made of iron; And a manganese-type discharge device installed across the upper portion of the first reaction tank and the upper side of the opposite side wall of the opening of the second reaction tank and alternately discharging purified hydrocarbons alternately flowing in the first reaction tank and the second reaction tank .

In addition, the electrolytic device includes a positive electrode and a negative electrode. The positive electrode and the negative electrode are in the shape of a cylinder having open top and bottom, respectively, and have different diameters so that one electrode can be inserted into the other electrode .

In addition, the positive electrode and the negative electrode are preferably of mesh type.

The gap between the positive electrode and the negative electrode may be 1.5 cm to 2.5 cm.

In addition, it is preferable to further include a vibrator that vibrates the electrolytic device.

According to the sewage treatment apparatus of the present invention, it is possible to remarkably improve the nitrogen / phosphorus treatment efficiency of the bottom / wastewater by adding an electrical wastewater treatment apparatus using an electrolysis device to the biological sewage treatment apparatus.

In addition, it is possible to actively cope with the water quality standard of the enhanced effluent water, thereby replacing the conventional sewage treatment facility.

1 is a plan view of a sewage treatment apparatus according to an embodiment of the present invention,
2 is a sectional view taken along the line II-II in Fig. 1,
3 is a perspective view showing the electrolyzer shown in Fig. 1, Fig.
Fig. 4 is a sectional view taken along the line IV-IV in Fig. 3,
5 is a sectional view taken along the line V-V in Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

FIG. 1 is a plan view of a sewage treatment apparatus according to an embodiment of the present invention, and FIG. 2 is a sectional view taken along the line II-II in FIG.

1 and 2, a wastewater treatment apparatus 100 according to the present invention includes a re-aeration tank 110, a submerged thickener tank 120, a sidewall 130, a first reaction tank 140, a second reaction tank 150, a channel distribution pipe 160, a stirrer, a flow-through type discharge device 190, and an electrolytic device 170.

Here, the wastewater treatment apparatus will be described on the basis of using the BNR method (biological nutrient removal process).

The re-aeration tank 110 contains a first aeration device 111 for continuously releasing sewage in an aerobic state, thereby activating aerobic organisms contained in sewage to decompose organic matter.

The immersion type thickener 120 is installed inside the re-aeration tank 110 with the side wall of the lower height being lower than the re-aeration tank 110 and opened at the top, The sludge of the sewage overflowing into the inside is continuously precipitated and concentrated, and then discharged to the outside by a pump.

The sludge discharged from the submerged thickener 120 together with raw water is conveyed in a bottom-up manner and agitated in an anaerobic state to continuously drain the phosphorus-releasing sewage through the ware 135. The anaerobic state in which oxygen and nitrate nitrogen are not present is maintained in the sludge introduction tank 130.

The first reaction tank 140 has an opening having one side wall opened to communicate with the one side of the rebarification tank 110. The second reaction tank 150 is disposed in parallel with the first reaction tank in the longitudinal direction Respectively. In addition, in the first reaction tank 140 and the second reaction tank 150, the second aeration devices 141 and 151

The inner flow pipe 160 is bent at the extended end of the start pipe 161 and the start pipe 161 connected to one side of the weir 135 of the downflow pipe 130 and extending downward, And a pair of flow pipes 162 installed in the lower part of the first reaction vessel 140 and the second reaction vessel 150 in the longitudinal direction and each having an auxiliary piping at one side thereof.

The stirrer 180 allows the sewage discharged from the sidestream 130 to be stirred while being alternately introduced into the first and second reaction vessels 140 and 150, The first reaction tank 140 and the second reaction tank 150 are provided so as to intersect the upper portion of the opposite side wall of the opening to alternate the purified upper water alternately flowing in the first reaction tank 140 and the second reaction tank 150 .

The portion described up to now is the description of the sewage treatment apparatus described in Japanese Patent No. 0563449, and a detailed description thereof will be omitted. The present invention is an improvement of the above-mentioned Japanese Patent No. 0563449, which is characterized by adding an electrolytic device to a biological sewage treatment apparatus, thereby remarkably improving the nitrogen / phosphorus removal efficiency.

Hereinafter, an electrolytic capacitor which is a feature of the present invention will be described. FIG. 3 is a perspective view showing the electrolyzer shown in FIG. 1, FIG. 4 is a sectional view taken along line IV-IV of FIG. 3, and FIG. 5 is a sectional view taken along line V-V of FIG.

3 to 5, the electrolyzer 170 is disposed inside the first reaction tank 140 and the second reaction tank 150 and includes a positive electrode 171 and a negative electrode 172 made of iron. The positive electrode 171 and the negative electrode 172 are formed in the shape of a cylinder having open top and bottom, respectively, and have different diameters, and one electrode is installed in the other electrode. The cylindrical electrode has an advantage of higher nitrogen / phosphorus removal efficiency than the plate-shaped electrode.

The positive electrode 171 and the negative electrode 172 are preferably formed of a mesh type. The mesh type electrode can reduce the resistance when stirring the sewage so that the stirring efficiency is not lowered, and the material attached to the electrode can be reduced.

When electrolysis is performed using the electrode of the above-described type, iron ions precipitated in the electrode are phosphorus-adsorbed and formed into an iron compound (FePO ₄ ) and precipitated. In detail, the stirring and the giving process are alternately repeated in the first reaction tank 140 and the second reaction tank 1500 ', thereby nitrification and denitrification occur. In this case, NH ₃ -N and NO ₃ -N are removed. In the case of untreated TP by biological treatment, electrolysis is carried out during the aeration process (about 10 minutes) to adsorb the extracted iron with PO ₄ -P, After the compound (FePO ₄ ) is formed, it is precipitated and the excess sludge is discarded through the immersion tank to finally remove the phosphorus.

That is, bivalent iron ions precipitate from the surface of the positive electrode 171 and the precipitated bivalent iron ions migrate from the positive electrode 171 to the negative electrode 172 along the flow direction of the current, And is converted to trivalent iron. The flow of electrons generated here has a negative charge, so that the positive current flows from the positive electrode 171 to the negative electrode 172 along the outer lead. At this time, Fe ^{3+ which} is oxidized and eluted in the ion state during the electrolysis reaction in the positive electrode 171 is combined with PO ₄ ^3- to be precipitated. In the second reaction tank 150, the removal of organic substances proceeds through the same process as that of the first reaction tank 140.

As described above, the present invention has an advantage that the treatment efficiency of nitrogen / phosphorus can be remarkably improved by adding an electric sewage treatment apparatus using an electrolysis device to a biological sewage treatment apparatus.

Here, the distance d between the positive electrode 171 and the negative electrode 172 is preferably 1.5 cm to 2.5 cm. When the distance d between the positive electrode 171 and the negative electrode 172 is less than 1.5 cm or more than 2.5 cm, the removal efficiency is remarkably low. Preferably, maintaining an interval of 2 cm is optimal. The distance d between the positive electrode 171 and the negative electrode 172 greatly affects the nitrogen / phosphorous treatment efficiency (affects more than the radiuses of the positive electrode and the negative electrode itself), so that the positive electrode 171 and the negative electrode 172, Should be installed with caution.

Meanwhile, the electrode spacers 173 may be inserted between the positive electrode 171 and the negative electrode 172 to maintain a constant gap therebetween. The electrode spacer 173 is preferably made of an insulating material and may be made of, for example, wood.

In addition, the sewage purifier 100 of the present invention may further include a vibrator (not shown) for vibrating the electrolyzer 170. Vibrating the electrolytic device 170 through a vibrator (not shown) to prevent foreign matter from adhering to the electrode and further improving the stirring effect, thereby further improving the nitrogen / phosphorus removal efficiency.

In addition, the sewage purifying apparatus 100 of the present invention may further include a rectifier 177 for supplying a constant-voltage direct current to the electrolytic device 170. The voltage supplied to the electrolyzer 170 through the rectifier is preferably 12V to 15V.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Various modifications and variations are possible within the scope of the appended claims.

100 ... sewage treatment device 110 ... re-aeration tank
111 ... First aeration device 120 ... Deposition condenser
130 ... Wearing 135 ... Wear
140 ... First reaction tank 141,151 ... Second aeration device
150 ... second reaction tank 160 ... flow path pipe
161 ... Starting pipe 162 ... Flow pipe
170 ... Electrolyzer 171 ... positive polarity
172 ... negative electrode 173 ... electrode spacer
174 ... fixed frame 175 ... traction chain
176 ... wire 177 ... rectifier
180 ... Stirrer 190 ... Monolithic Discharger

Claims (5)

A reconstitution vessel incorporating an aeration device for continuously releasing sewage in an aerobic state;
Wherein the sludge of the sewage which is provided in the re-aeration tank and has a lower height than the re-aeration tank and has an open top, is discharged from the re-aeration tank, is continuously precipitated and concentrated, Knowledge concentration tank;
Sludge discharged from the sinker-type concentrator together with raw water is returned in a bottom-up manner and agitated in the anaerobic state to circulate sewage discharged from the phosphorus continuously through the ware;
A first reaction vessel having an opening whose one side wall is opened to communicate with one side of the re-aeration tank;
A second reaction vessel installed alongside the first reaction vessel in the longitudinal direction;
A first pipe extending from the first pipe and a second pipe extending from the first pipe to the first pipe and the second pipe extending from the first pipe to the first pipe, A flow path distribution pipe including a pair of flow pipes each having an auxiliary pipe on one side;
A pair of stirrers for alternately operating the first and second reaction vessels so that the discharged sewage is alternately introduced into the first and second reaction vessels;
An electrolytic unit located inside the first reaction tank and the second reaction tank and having an electrode made of iron; And
And a manganese-type discharge device installed across the upper portion of the opposite side wall of the opening of the first reaction tank and the second reaction tank and alternately discharging purified hydrocarbons alternately flowing in the first reaction tank and the second reaction tank Wherein the sewage treatment apparatus comprises:
The method according to claim 1,
Wherein the electrolytic device includes a positive electrode and a negative electrode,
Wherein the positive electrode and the negative electrode are in the shape of a cylinder having open top and bottom, respectively, and have different diameters so that one electrode is inserted into the other electrode.
3. The method of claim 2,
The positive electrode and the negative electrode may be,
Wherein the mesh type is a mesh type.
The method of claim 3,
The gap between the positive electrode and the negative electrode may be,
1.5 to 2.5 cm.
5. The method of claim 4,
And a vibrator for vibrating the electrolyzer.

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