KR20030068083A - Waste water disposal apparatus having a scale removing means - Google Patents

Abstract

PURPOSE: Provided is a wastewater treatment apparatus having a scale scraper that removes scale formed during oxidation of wastewater. CONSTITUTION: The apparatus includes a rectangular parallelepiped housing(22) with a plurality of compartments therein so as to treat wastewater in multiple stages, a wastewater treatment vessel(24) provided in the housing(22) for oxidizing wastewater therein using OH radicals generated by electric conduction, the vessel(24) having an anode plate(28) at the bottom thereof, a wastewater inlet(32) formed at the bottom thereof through the anode plate(28), and shaft bearing recesses(30) at an upper portion thereof, a treated water storage tank(26) installed in the housing(22) by the wastewater treatment vessel(24) and having a treated water outlet(36) at a lower portion thereof for temporarily storing the treated water, an equalization member(34) installed between the wastewater treatment vessel(24) and the treated water storage tank(26), a rotating drum(38) having a shaft received in the shaft bearing recesses(30) of the wastewater treatment vessel(24), the shaft being connected to a motor(42) and a cathode plate(44), a scale removing blade(46) fixed to the surface of the rotating drum(38) along the longitudinal direction for removing scale being attached to the surface of the drum(38), and a scale removing unit(48) for discharging scales dropped from the surface of the rotating drum(38) out.

Description

Wastewater treatment device equipped with descaling means {WASTE WATER DISPOSAL APPARATUS HAVING A SCALE REMOVING MEANS}

The present invention relates to a wastewater treatment apparatus provided with a scale removing means, and more particularly, a positive electrode plate in the form of a semi-cylindrical plate; Due to the negative plate installed in the radial direction at the side of the drum, OH radicals are generated to oxidize the sewage, and the scale generated during the oxidation treatment is removed through the removal blade in close contact with the drum to maximize the treatment efficiency of the sewage. It relates to a wastewater treatment apparatus provided with a removal means.

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 neutralized with acid, alkaline medicine, etc., and is based on ferric salts such as alum, caustic soda and slaked lime, ferric chloride, ferric sulfate, ferric sulfate, and liquid alumina. 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 generally has to be about 6 hours or more of the amount of inflow water to remove the suspended matter 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 generating high active ions and ozone in the sewage, or by generating OH radicals to decompose pollutants contained in the sewage so that the sewage can be purified. The configuration includes a negative electrode for applying a high voltage to either side; 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 is 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. It is reduced to the form of micro net.

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 rod 14 is arranged in four directions with respect to a single anode rod 16, a three-dimensional electric field can be generated.

However, the above-described high efficiency wastewater treatment apparatus 2 has a shortage of the sewage retention time which is treated as the sewage flows due to the formation of the electrode rods vertically, thereby reducing the treatment efficiency. Since (Scale) is agglomerated, there was a problem that these scales should be removed at regular intervals.

The present invention has been made in view of the above-described prior art, and includes a bipolar plate-shaped bipolar plate; Due to the negative plate installed in the radial direction at the side of the drum, OH radicals are generated to oxidize the sewage, and the scale generated during the oxidation treatment is removed through the removal blade in close contact with the drum to maximize the treatment efficiency of the sewage. It is an object of the present invention to provide a wastewater treatment apparatus provided with a removal means.

1 is a perspective view showing a wastewater treatment apparatus according to a conventional embodiment,

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

3 is an exploded perspective view showing a wastewater treatment apparatus equipped with a scale removing means according to an embodiment of the present invention;

Figure 4 is a side cross-sectional view showing a wastewater treatment apparatus equipped with a scale removing means according to an embodiment of the present invention.

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

22: housing, 24: wastewater treatment chamber,

26: treatment water storage room, 28: the anode plate,

30: shaft seating jaw, 32: sewage inlet,

34: flow adjustment jaw, 36: treated water outflow furnace,

38: rotating drum, 42: motor,

44: negative electrode plate, 46: descaling blade.

In order to achieve the above object, according to a preferred embodiment of the present invention has a rectangular parallelepiped-shaped housing having a plurality of compartments divided into two to receive the sewage in order to process the sewage in multiple stages; It is configured on one side of the housing, the oxidation process through the OH radical generated by energization is made, the bottom surface is made of semi-cylindrical shape is attached to the semi-cylindrical positive electrode plate on the bottom surface, the sewage from the bottom with the positive plate A wastewater treatment chamber in which a wastewater inflow path is introduced, and a plurality of shaft seating jaws are formed on upper surfaces of both edges; A treatment water storage chamber configured to be adjacent to the wastewater treatment chamber, wherein the wastewater treated from the wastewater treatment chamber is temporarily stored, and a discharge path for discharging the treatment water is formed in the lower portion; A flow rate adjustment jaw formed between the wastewater treatment chamber and the treatment water storage chamber lower than the edge jaw of the housing so that the wastewater flowing into the wastewater treatment chamber maintains a constant water level at all times; The shaft is seated on the shaft seating jaw of the wastewater treatment chamber, and the motor is axially coupled to the shaft so as to rotate at a predetermined distance from the positive electrode plate, and one side of the shaft has a negative electrode plate with a predetermined length in the radial direction thereof. An attached rotating drum; A descaling blade configured to be in close contact with the outer surface of the rotating drum in the longitudinal direction of the rotating drum to remove the scale attached to the surface of the rotating drum when the waste water is treated; The waste water treatment apparatus provided with the scale removal means characterized in that the scale is dropped to the lower end of the descaling blade is collected and moved by its own weight so that the scale is discharged to the outside of the apparatus, the scale transfer path is open at the top Is provided.

Preferably, the scale conveying path is formed in a form in which the bottom surface is inclined at an angle so that the scale dropped to the bottom surface of the scale conveying path can be discharged to the outside by its own weight tm kale removal means Provided is a wastewater treatment apparatus provided.

More preferably, the wastewater treatment chamber is provided with a wastewater treatment apparatus equipped with a scale removing means, characterized in that the plurality of wastewater treatment chambers can be configured to be adjacent to each other according to the purpose or pollution degree of the wastewater.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail with reference to drawings.

Figure 3 is an exploded perspective view showing a wastewater treatment apparatus equipped with a scale removing means according to an embodiment of the present invention, Figure 4 shows a wastewater treatment apparatus equipped with a scale removing means according to an embodiment of the present invention. Side cross section view.

Referring to this, the wastewater treatment apparatus 20 equipped with the scale removing means according to the embodiment of the present invention performs wastewater treatment through an electrochemical oxidation process, and the electrochemical oxidation process is an OH radical for the introduced sewage. Generating and oxidizing and decomposing contaminants contained in the sewage, the composition comprising: a negative electrode for applying a high voltage to either side; 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 generate OH radicals as free electrons are released in the negative electrode.

More specifically, the electrochemical oxidation process is a process for enhancing the oxidation capacity of an anode (anode), and the contact of sewage on the surface of the anode made of metal oxide (OH) is converted into OH · H ⁺ and e Some OH · produces MOx while oxidizing the surface of the anode.

When organic matter in sewage reacts with MOx, it is completely decomposed into CO ² by the strong oxidation of radicals, thereby reducing the concentration of initial pollutants and rapidly reducing the chemical oxygen demand (COD). At this time, the scale of the anode is attached to the surface of the anode (Anode), in the present invention can effectively increase the treatment efficiency by removing such a scale effectively.

To this end, the wastewater treatment apparatus 20 equipped with a scale removing means according to an embodiment of the present invention is connected to a wastewater discharge path (not shown) of a factory, various household sewage treatment plants, sewage treatment plants, etc. A rectangular parallelepiped shaped housing 22 having a plurality of compartments bisected therein for treating sewage is provided.

In addition, one compartment of the housing 22 is a wastewater treatment chamber 24 in which an oxidation process through OH radicals is performed, and a compartment adjacent to the wastewater treatment chamber 24 temporarily contains wastewater treated from the wastewater treatment chamber 24. The treated water storage chamber 26 is stored.

Between the wastewater treatment chamber 24 and the treated water storage chamber 26, a flow rate adjustment jaw 34 is formed lower than the edge jaw of the housing 22, and the water level of the sewage introduced into the wastewater treatment chamber 24 is always It is in the same state as or lower than the flow adjustment jaw 34.

In the wastewater treatment chamber 24, the bottom surface of the wastewater treatment chamber 24 is rounded in a semi-cylindrical shape in the width direction, and a semicylindrical positive electrode plate 28 is attached to the top surface of the bottom surface thereof, and the positive electrode plate 28 is formed. A wastewater inlet 32 through which wastewater flows in is formed, and the wastewater inlet 32 is connected to a wastewater inflow path 31 which moves the wastewater from the outside to flow into the wastewater treatment chamber 24. In addition, a plurality of shaft seating jaws 30 are formed on upper surfaces of both sides of the wastewater treatment chamber 24.

The shaft 40 of the rotating drum 38 is seated on the shaft seating jaw 30, and the rotating drum 38 is rotatable at a predetermined distance from the positive electrode plate 28. The motor 42 is axially coupled to the shaft.

In addition, a negative electrode plate 44 is attached to one shaft 40 of the rotating drum 38 by a predetermined length in the radial direction of the rotating drum 38. Accordingly, the negative electrode plate 44 formed at the shaft end of the rotary drum 38 in the wastewater treatment chamber 24 reacts with the positive electrode plate 28 to generate OH radicals, and the OH radicals oxidize sewage to organic matter. To treat the waste water.

At this time, the scale removing blade 46 is in close contact with the outer surface of the rotary drum 38 in the longitudinal direction of the rotary drum 38 to remove the scale attached to the surface of the rotary drum 38 during the treatment of waste water. The scale removing blade 46 is configured to be in close contact with the outer surface of the rotating drum 38 at an angle so that the scale peeled off by the scale removing blade 46 falls downward due to its own weight. .

In addition, at the lower end of the descaling blade 46, a scale transfer path 48 having an upper portion is provided so that the fallen scale is collected and moved by its own weight so that the scale can be discharged to the outside of the apparatus. At this time, the scale transfer path 48 is preferably configured such that the bottom surface is inclined at a predetermined angle so that the scale dropped to the bottom surface of the scale transfer path 48 can be discharged to the outside by its own weight. .

In addition, a treatment water discharge passage 36 connected to the outside is formed at a lower end of the treatment water storage chamber 26 so that the treated water temporarily stored in the treatment water storage chamber 26 is discharged to the outside through the treatment water discharge passage 36. Will be.

On the other hand, the wastewater treatment chamber 24 provided by this invention is not single, but it is also possible to comprise several wastewater treatment chamber 24 according to the use and the pollution degree of wastewater.

With reference to the accompanying drawings, the function and action of the wastewater treatment apparatus equipped with a scale removing means according to an embodiment of the present invention of the above configuration will be described in detail.

First, the sewage introduced through the sewage inlet 31 is introduced into the wastewater treatment chamber 24 through the sewage inlet 32, and the introduced sewage is rotated with the rotating drum 38 axially coupled to the wastewater treatment chamber 24. It is filled between the positive electrode plate 28 attached to the bottom surface.

At this time, the wastewater stored in the wastewater treatment chamber 24 by the flow rate adjusting jaw 34 which is a partition between the wastewater treatment chamber 24 and the neighboring treatment water storage chamber 26 is always maintained at a constant water level.

At the same time, the negative electrode plate 44 and the positive electrode plate 28 attached to the side of the rotating drum 38 generate OH radicals while being energized, and the OH radicals are applied to the positive electrode plate 28 or the rotating drum 38 which are the anode plates. Sludge from sewage is attached to it, causing oxidation. Thus, the sewage is completely decomposed by the oxidation of strong radicals and attached to the positive electrode plate 28 or the rotating drum 38 in the form of scale.

If the attached scale is greater than or equal to a certain amount, the user rotates the rotating drum 38. Then, the scale removing blade 46 causes the scale of the rotating drum 38 to deviate from the surface, and the detached scale is scaled. It is discharged to the outside of the device through the transport passage (48).

On the other hand, the wastewater treatment apparatus provided with a scale removing means according to an embodiment of the present invention is not limited to the above embodiments, but various modifications can be made without departing from the technical gist of the present invention.

As described above, the wastewater treatment apparatus equipped with the scale removing means according to the present invention generates the OH radicals in the sewage through the conduction of the semi-cylindrical positive electrode plate formed on the lower portion of the rotating drum and the negative electrode plate formed on the side of the rotating drum. Powerful oxidation of radicals makes it easy to treat sewage, and the scale attached to the rotating drum is automatically displaced by the descaling blade, minimizing the operating force, which is very economically advantageous.

Claims (3)

A rectangular parallelepiped housing having a plurality of compartments divided therein to receive filthy water and to process filthy water in multiple stages; It is configured on one side of the housing, the oxidation process through the OH radical generated by energization is made, the bottom surface is made of semi-cylindrical shape is attached to the semi-cylindrical positive electrode plate on the bottom surface, the sewage from the bottom with the positive plate A wastewater treatment chamber in which a wastewater inflow path is introduced, and a plurality of shaft seating jaws are formed on upper surfaces of both edges; A treatment water storage chamber configured to be adjacent to the wastewater treatment chamber, wherein the wastewater treated from the wastewater treatment chamber is temporarily stored, and a discharge path for discharging the treatment water is formed in the lower portion; A flow rate adjustment jaw formed between the wastewater treatment chamber and the treatment water storage chamber lower than the edge jaw of the housing so that the wastewater flowing into the wastewater treatment chamber maintains a constant water level at all times; The shaft is seated on the shaft seating jaw of the wastewater treatment chamber, and the motor is axially coupled to the shaft so as to rotate at a predetermined distance from the positive electrode plate, and one side of the shaft has a negative electrode plate with a predetermined length in the radial direction thereof. An attached rotating drum; A descaling blade configured to be in close contact with the outer surface of the rotating drum in the longitudinal direction of the rotating drum to remove the scale attached to the surface of the rotating drum when the waste water is treated; The waste water treatment apparatus provided with the scale removal means characterized in that the scale is dropped to the lower end of the descaling blade is collected and moved by its own weight so that the scale is discharged to the outside of the apparatus, the scale transfer path is open at the top . According to claim 1, wherein the scale conveying path tm is characterized in that the bottom surface is formed in an inclined shape by a certain angle so that the scale dropped to the bottom surface of the scale conveying path can be discharged to the outside by its own weight Wastewater treatment device provided with a kale removal means. The wastewater treatment apparatus according to claim 1, wherein the wastewater treatment chamber may be configured such that a plurality of wastewater treatment chambers are adjacent to each other according to its use or pollution degree of the wastewater.