KR200314427Y1 - High efficiency electrical cohesion a waste water disposal plant - Google Patents

Abstract

The present invention relates to a high-efficiency electrocoagulation wastewater treatment apparatus, the electrocoagulation treatment can be naturally performed during the inflow of sewage, multi-layered circular plate-shaped electrode is provided so as to maximize the efficiency of the sewage contact area, each It is an object of the present invention to provide a high-efficiency electrocoagulation wastewater treatment apparatus in which voltage can be easily induced with an electrode plate.

The present invention is made of a cylindrical shape, the inlet is formed with the inlet through which waste water is introduced, the discharge pipe formed to discharge the purified water treated in the upper portion of the outer peripheral portion; An inner pipe formed in the housing so as to communicate with the inlet, and having a plurality of first outlet holes formed at an outer circumference thereof; A plurality of positive electrode plates attached to an outer circumference of the inner pipe so as to be perpendicular to the longitudinal direction of the inner pipe; An outer pipe configured to be spaced apart from the inner wall of the housing by a predetermined distance, the inner pipe being positioned therein, and having a plurality of second outlet holes formed at an outer circumference thereof; The inner periphery of the outer pipe, characterized in that consisting of a plurality of negative electrode plates attached perpendicular to the longitudinal direction of the outer pipe.

According to the present invention, the distance between each pole plate is finely set to generate high-efficiency oxidation / reduction reaction compared to the input power, and the treatment area through the plurality of partition walls can be easily treated when the waste water is moved. This configuration has the effect of increasing wastewater treatment efficiency.

Description

High efficiency electric flocculation wastewater treatment equipment {HIGH EFFICIENCY ELECTRICAL COHESION A WASTE WATER DISPOSAL PLANT}

The present invention relates to a high-efficiency electrocoagulation wastewater treatment apparatus, and more specifically, the electrocoagulation treatment can be naturally performed during the inflow of sewage, and a multi-layered circular plate-shaped electrode is provided to enlarge the sewage contact area to maximize its efficiency The present invention relates to a high-efficiency electrocoagulation wastewater treatment apparatus in which voltage can be easily induced to each electrode plate.

As is well known, the conventional chemical treatment of wastewater using inorganic coagulants is mainly used for turbidity removal, and coagulation and precipitation methods such as inorganic coagulants and polymer coagulants of aluminum and iron salts are currently in progress. For example, the related art is based on ferric salts such as alum, caustic soda and hydrated lime, ferric chloride, ferric sulfate, ferric sulfate, and the like. BOD, COD, color causing substances and other heavy metals in wastewater are formed by artificially forming a scum using various kinds of organic and inorganic coagulants such as aluminum, PAC, PAS, etc. Remove

In this case, however, the size of the existing flocculation settling tank has to be about 6 hours or more of the amount of inflow water in order to remove the suspended substances flowing into the wastewater.

In addition, the unit process of the apparatus should also be complicated by the raw water tank, the chemical mixing tank and the coagulation sedimentation tank.

Therefore, in the conventional treatment method using inorganic coagulant, the amount of coagulant input is related to the removal efficiency of pollutants, and the amount of coagulant is excessively input and the amount of sludge generated is large.

In addition, the existing flocculation sedimentation method is a precipitation method based on the natural sedimentation rate. Therefore, the initial investment cost is very high because the sedimentation rate is slow and the treatment area is large and the reaction time is long.

On the other hand, in the case of the electrochemical water treatment system using electrodes, a process of treating wastewater using iron and aluminum as electrode materials has been studied. In this case, electrolytic agglomeration using aluminum electrodes increases the color removal rate of the wastewater by forming aluminum hydroxide flocs, reduces the reaction time and the installation area while reducing the amount of sludge, and thus can treat a large amount of wastewater at low cost. to be.

Electrocoagulation causes chemical reactions by using soluble electrodes such as aluminum and iron at the anode and continuously supplying metal cations around the anode to generate direct ions by electrolysis. The metal cations produced are convection and diffused by the force and concentration gradient of the electric field, and are neutralized by being electrically coupled with particles such as colloids. Therefore, the suspended solids, dissolved oils and inorganics are aggregated and precipitated. . (Cenkin, V.E. and Belevttsev, A.N., 'Electrochemical treatment of industrial wastewater', Effluent and water treatment J., July, 243-247 (1985))

However, the precipitation method by the electrocoagulation is thin when the electrode plate is thin in the process of effectively inducing coagulation and precipitation of the ionized aluminum ions and organic matter in the waste water by periodic replacement of the positive and negative poles of the positive electrode plate. Since the replacement of the electrode plate of aluminum (30 days in the past) can be frequent, the effect can be halved if it is not accompanied by technical development and management efforts to extend the life of the electrode plate using aluminum.

In addition, the precipitation method by the electro-agglomeration is a method of injecting high active ions and ozone into the sewage to decompose contaminants contained in the sewage so that the sewage can be purified, the configuration is a high voltage to either side A negative electrode for applying; It consists of a positive electrode grounded on the other side to apply a high voltage to the negative electrode to generate an electric field as a discharge occurs between the two electrodes to allow free electrons to be emitted in the negative electrode. The negative electrons activate the air present between the two electrodes to generate ionic materials, ozone and oxygen anions to treat the wastewater.

However, in the wastewater treatment apparatus using the electrocoagulation, the two electrodes are mostly formed in a plate shape, and since a high voltage must be applied to the negative electrode, power consumption for discharge is very high, and a flat plate-shaped negative electrode is used. Compared with the power consumption per unit area applied to the ion generation amount was very small, there was a problem that is inefficient.

In order to solve this problem, the applicant has applied for a high-efficiency wastewater treatment apparatus as shown in FIG. The high-efficiency wastewater treatment device 2 is formed of a plurality of rod-shaped anodes and cathode bodies to maximize the area of the entire electrode and protect the anode, while increasing the amount of ion generation compared to the power consumption applied to the cathode. Is reduced to the form of a fine network.

More specifically, the high efficiency wastewater treatment device 2 is formed in a cylindrical shape, and a plurality of anode and cathode rods are formed therein so as to form an external shape of the wastewater treatment device so as to purify the wastewater introduced therein, and a lower end thereof is tapered. A housing 4 having a true inclined surface; An inlet 6 extending to the lower end of the housing 4 to introduce wastewater; A discharge pipe 8 for discharging the purified water welded to a predetermined portion of the upper outer surface of the housing 4 is provided.

In addition, the high-efficiency wastewater treatment apparatus 2 has a plurality of outlet holes 18 formed on the outer periphery of the upper end of the housing 4, and the purified water discharged through the outlet holes 18 around the outlet holes 18. A strip-shaped collection pipe 7 for collecting the gas is welded to the housing 4, and a single or a plurality of discharge pipes 8 are coupled to a predetermined portion of the outer circumference of the collection pipe 7.

In addition, a plurality of rod-shaped support pipes 10 are provided at the upper end of the housing 4, and a plurality of rod-side support pipes 12 are also provided at the lower end of the housing 4 in the same length direction as the housing 4. A plurality of negative electrode rods 14 and positive electrode rods 16 in the interior of the (4) is fixed to the upper and lower ends of the inside.

In this case, the cathode rod 14 has an external cross-sectional area smaller than that of the anode rod 16, and the distance between the cathode rod 14 and the anode rod 16 (see FIG. 4: A) is reduced so that the anode rod 16 is reduced. To prevent corrosion and to reduce the amount of current consumed by reducing the distance to reduce the overall power consumption efficiently.

In addition, by forming a rod net using a plurality of cathode rods 14 and anode rods 16 in the housing 4, the electric field can be generated in three dimensions and the electric field is concentrated on each pole rod. To maximize the amount of oxidation and reduction compared to the input power. In particular, in the present invention, by adopting a structure in which the cathode rods 14 are arranged in four directions about a single anode rod 16, a three-dimensional electric field can be generated.

However, the high-efficiency wastewater treatment apparatus 2 has a problem in that treatment efficiency is reduced because the sewage residence time to be treated as the sewage is introduced is shortened due to the formation of the electrode bar vertically.

The present invention has been made in view of the above-described circumstances of the prior art, and the electrocondensation treatment can be naturally performed during the inflow of sewage, and a multi-layered circular plate-shaped electrode is provided to enlarge the sewage contact area to maximize the efficiency thereof. It is an object of the present invention to provide a high-efficiency electrocoagulation wastewater treatment apparatus in which voltage can be easily induced to each electrode plate.

1 is a perspective view showing a conventional wastewater treatment apparatus,

Figure 2 is a side cross-sectional view showing a conventional wastewater treatment apparatus,

Figure 3 is a perspective view showing the appearance of the high-efficiency electrocoagulation wastewater treatment apparatus according to an embodiment of the present invention,

Figure 4 is a side cross-sectional view showing the configuration of a high efficiency electrocoagulation wastewater treatment apparatus according to an embodiment of the present invention.

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

20: wastewater treatment device, 26: internal pipe,

28: first outflow hole, 30: the positive electrode plate,

34: filter net, 36: outer pipe,

38: negative electrode plate, 40: second outflow hole,

46: Insulation plate.

In order to achieve the above object, according to a preferred embodiment of the present invention is made of a cylindrical shape, the inlet is formed in the lower end of the waste water inlet, the discharge pipe is discharged so that the treated water discharged to the predetermined portion of the outer periphery of the upper end A formed housing; An inner pipe formed in the housing so as to communicate with the inlet, and having a plurality of first outlet holes formed at an outer circumference thereof; A plurality of positive electrode plates attached to an outer circumference of the inner pipe so as to be perpendicular to the longitudinal direction of the inner pipe; An outer pipe configured to be spaced apart from the inner wall of the housing by a predetermined distance, the inner pipe being positioned therein, and having a plurality of second outlet holes formed at an outer circumference thereof; In the inner circumference of the outer pipe, there is provided a high-efficiency electrocoagulation wastewater treatment device comprising a plurality of negative electrode plates attached perpendicular to the longitudinal direction of the outer pipe.

Preferably, a high efficiency electrocoagulation wastewater treatment apparatus is provided between the end of the negative electrode plate and the outer wall of the inner pipe so that the insulating plate is attached and electrically contacted.

More preferably, there is provided a high efficiency electrocoagulation wastewater treatment apparatus, characterized in that the strainer 34 is attached to the upper end of the inner pipe.

Hereinafter, the present invention will be described in detail with reference to the drawings.

Figure 3 is a perspective view showing the appearance of the high-efficiency electrocoagulated wastewater treatment apparatus according to an embodiment of the present invention, Figure 4 is a side cross-sectional view showing the configuration of the high-efficiency electrocoagulated wastewater treatment apparatus according to an embodiment of the present invention. .

Referring to this, the high-efficiency electro-aggregate wastewater treatment apparatus 20 according to an embodiment of the present invention is formed in a cylindrical shape, and the wastewater treatment apparatus to purify the wastewater introduced by a plurality of positive and negative electrode plates therein. A housing 22 constituting an external shape of the housing 22; An inlet port 24 extending from the lower end of the housing 22 to introduce wastewater; A discharge pipe 8 which is welded to a predetermined portion of the upper outer surface of the housing 22 to discharge purified water is provided.

First, the inner pipe 26 and the outer pipe 36 having a plurality of outlet holes are formed in the housing of the high efficiency electroaggregated wastewater treatment apparatus 20 according to an embodiment of the present invention, the inner pipe 26 And first, second, and third wastewater treatment zones 32, 44, and 42 which are electroaggregated while the wastewater introduced by the outer pipe 36 stays therein.

In more detail, a partition wall is formed at an inner lower end of the housing 22 of the high-efficiency electroaggregated wastewater treatment apparatus 20 according to an embodiment of the present invention. Since the pipe 26 is formed, a plurality of first outflow holes 28 are formed on the outer circumferential surface of the inner pipe 26, so that the wastewater moved upwardly along the inner pipe 26 is formed in the first outflow hole ( Through 28) to the outside of the inner pipe (26). At this time, the introduced wastewater is first introduced into the first wastewater treatment region 32, which is the central portion of the inner pipe 26.

In addition, the outer periphery of the inner pipe 26 is attached to a plurality of anode plate 30 in the form of a thin film circular band spaced apart a predetermined distance, the upper and lower portions of any one first outlet hole 28 Each of the positive electrode plate 30 is welded and attached.

The upper end of the inner pipe 26 is composed of a strainer 34 for filtering the sludge generated by the treatment of waste water, the inner pipe 26 is located therein, a plurality of second outflow at the outer periphery The outer pipe 36 in which the ball 40 is formed is constructed.

The outer pipe 36 is attached to the inner circumference of the plurality of negative electrode plate 38 in the form of a thin film circular band spaced apart a predetermined distance, the negative electrode plate 38 is arranged in a state staggered with the positive electrode plate 30 The insulating plate 46 is attached to the end of the negative electrode plate 38 so as not to be electrically connected to the inner pipe 26. The region between the negative electrode plate 38 and the positive electrode plate 30 is the second wastewater treatment region 44.

In addition, the outer wall of the outer pipe 36 forms a discharge passage 42 by being spaced apart from the inner wall of the housing 22 by a predetermined distance, and the discharge passage 42 is in communication with the discharge pipe 8. It is composed. The discharge passage 42 is the third wastewater treatment region 42.

On the other hand, since a positive voltage is applied to a predetermined portion of the inner pipe 26, the positive voltage is also conductively applied to the positive plate 30 attached to the outer circumference of the inner pipe 26. The cathode voltage is applied to a predetermined portion so that the cathode voltage is applied to the cathode plate 38 attached to the inner circumference of the outer pipe 36. In addition, at this time, the positive electrode plate 30 is not in contact with the outer pipe 36, and the negative electrode plate 38 is in contact with the outer periphery of the inner pipe 26 through the insulator 46, so that no electricity is applied. Does not.

Electro-coagulation is generated between the positive electrode plate 30 and the negative electrode plate 38. Since the extreme voltage opposite to the inner pipe 26 and the outer pipe 36 is applied, the inner pipe 26 and the outer pipe are basically applied. Electro-agglomeration is made between the 36, and between the positive electrode plate 30 and the negative electrode plate 38, which are attached perpendicularly to the inner pipe 26 and the outer pipe 36, respectively, are spaced at small intervals, so that they are relatively Even when a small power is applied, electrocoagulation is effectively generated between the positive electrode plate 30 and the negative electrode plate 38.

In addition, since a certain amount of waste water is continuously introduced through the inlet 24 for each unit time, the purified water that has undergone wastewater treatment through electrocoagulation is introduced through the first and second outlet holes 28 and 40 by the inflow of waste water. It is discharged to the discharge passage 42, and is continuously discharged to the discharge pipe 8 by rising by the inflow pressure.

On the other hand, high efficiency electro-agglomerate wastewater treatment apparatus according to an embodiment of the present invention is not limited only to the above-described embodiment is possible various modifications within the scope not departing from the technical gist.

As described above, the high-efficiency electroaggregated wastewater treatment apparatus according to the present invention has a small distance between the pole plates so as to generate a high-efficiency oxidation / reduction reaction compared to the input power, and the wastewater can be easily treated when the wastewater is moved. The treatment area is formed through a plurality of partitions so that the waste water treatment efficiency can be increased.

Claims (3)

A housing having a cylindrical shape, formed with an inlet through which waste water is introduced at a lower end thereof, and having a discharge pipe configured to discharge purified water treated at a predetermined portion of an outer periphery of the upper end; An inner pipe formed in the housing so as to communicate with the inlet, and having a plurality of first outlet holes formed at an outer circumference thereof; A plurality of positive electrode plates attached to an outer circumference of the inner pipe so as to be perpendicular to the longitudinal direction of the inner pipe; An outer pipe configured to be spaced apart from the inner wall of the housing by a predetermined distance, the inner pipe being positioned therein, and having a plurality of second outlet holes formed at an outer circumference thereof; High efficiency electro-agglomerate wastewater treatment device, characterized in that composed of a plurality of negative electrode plates attached to the inner periphery of the outer pipe, perpendicular to the longitudinal direction of the outer pipe. 2. The apparatus of claim 1, wherein an insulating plate is attached between the end of the negative electrode plate and the outer wall of the inner pipe to be in electrical contact with each other. The apparatus of claim 1, wherein a strainer (34) is attached to the upper end of the inner pipe.