KR20050057742A - Apparatus for electro-coagulative treatment with spring electrode - Google Patents

Abstract

According to the present invention, the wastewater introduced through the lower inlet 11 of the housing 10 composed of an insulating cylindrical body passes through the outer electrode 15 and the inner electrode 16 in the form of spring to generate an oxidizing material by electrolysis. The present invention relates to an airtight electroaggregation apparatus using a spring-shaped electrode which oxidizes pollutants in the inside and causes a chemical reaction by agglutination of metal ions eluted from the electrode to agglomerate suspended solids and colloidal particles to facilitate removal of pollutants. .

Description

Apparatus for electro-coagulative treatment with spring electrode}

According to the present invention, the wastewater introduced through the lower inlet 11 of the housing 10 composed of an insulating cylindrical body passes through the outer electrode 15 and the inner electrode 16 in the form of spring to generate an oxidizing material by electrolysis. The present invention relates to an airtight electroaggregation apparatus using a spring-shaped electrode which oxidizes pollutants in the inside and causes a chemical reaction by agglutination of metal ions eluted from the electrode to agglomerate suspended solids and colloidal particles to facilitate removal of pollutants. .

In general, various industrial wastewater and sewage treatment methods include physical treatment using sedimentation and filtration, chemical treatment using chemical reactions by adding chemicals, and biological treatment using organic microorganisms to decompose organic matters. The method prevails.

Such a conventional wastewater treatment apparatus has a large installation scale, a complicated installation structure, and a high installation cost, and a large installation area is required due to the size of the installation scale. There is a problem in that the processing technology is required, and thus, the processing apparatus cannot be normally operated due to immature operation and lack of expertise.

In view of these points, an electroaggregation treatment method using electrolysis, which makes it easier to operate the wastewater treatment apparatus, has been used.

Such a conventional electrocoagulation treatment method is to treat the waste water due to the electrical reaction between the positive, negative ions and the waste water generated in the electrode plate by precipitating the electrode plate of the plurality of cathode and anode in the waste water storage reactor, oil, inorganic Effective in removing contaminants, organic contaminants and colloidal contaminants, and has the advantage of treating high concentration of contaminated wastewater compared to the size of the device.

However, this method of electroaggregation requires the replacement of electrodes because the electrodes are consumed after a certain time has elapsed. However, since the electrode assembly is composed of a plurality of electrode plates, it takes a lot of time and money to replace the electrode plates. In order to increase the processing efficiency, the electrode area should be applied to the maximum, but it is difficult to mount a large number of electrode plates in a limited device, and the electrode part is exposed as an open part rather than a pressurized type in which the device is sealed. There was a disadvantage that can cause a safety accident when driving.

In order to solve the above problems, the present invention is the wastewater flowing through the lower inlet 11 of the housing 10 consisting of an insulating cylindrical body to the outer electrode 15 and the inner electrode 16 of the spring form Spring that makes it easy to remove contaminants by generating oxidizing substances by electrolysis while oxidizing contaminants in water, and chemical reactions by electroaggregation by metal ions eluted from the electrode to agglomerate suspended solids and colloidal particles. The use of shaped electrodes increases the area of the electrodes to increase efficiency, minimizes the number of electrodes so that the electrodes can be easily replaced when the electrodes are consumed, and the electrodes are located in a sealed interior to prevent the danger of the electrodes during operation. Hermetic electrocoagulation plant using spring electrodes that can continuously treat wastewater under pressure In the providing it is an object.

In order to achieve the above object, in the present invention, an outer electrode 15 made of a spring having a large diameter is positioned on an inner wall of the housing 10 composed of an insulating cylindrical body, and an inner electrode 16 having a small diameter is formed therein. Is provided, the electrode contact guard 18 is provided between the inner electrode 16 and the outer electrode 15 to prevent contact between the electrodes, the inner space below the housing 10 is equally distributed in the fluid Lower plate 13 is located for, the inner electrode 16, the inner support rod 17 is located to support the inner electrode 16, the outer electrode 15 and the end of the inner electrode 16 Is fixed to the upper cover 14 and is connected to a power supply (not shown), the upper cover 14 is connected by a fastening means such as the housing 10 and the bolt nut 19, the lower portion of the housing 10 Wastewater flowing into the inlet 11 is electrically coagulated Housing 10 is accomplished, characterized in that adapted to be discharged to the upper outlet (12).

In the apparatus of the present invention, a plurality of outer electrodes 15 and inner electrodes 16 are provided in the housing 10 to configure the apparatus.

Hereinafter, described in detail by the accompanying drawings of the present invention. 1 is a cross-sectional view of an electroaggregation apparatus using electrolysis according to the present invention, FIG. 2 is a plan view of an intermediate portion of the electroaggregation apparatus according to the present invention, and FIG. 3 is an outline view of the electrode of the present invention.

The apparatus of the present invention is a device capable of continuously coagulating wastewater using electrolysis, and includes outer electrodes 15 and inner electrodes connected to positive and negative power applied from a power supply (not shown). When the wastewater is introduced through the inlet port 11 located below the housing 10 and the wastewater is introduced into the housing 10, the wastewater is evenly distributed by the lower plate 13 so that the outer electrode 15 is disposed. By passing between the inner and the inner electrode 16, the wastewater is electroaggregated by the cation metal and anion generated from the outer electrode 15 and the inner electrode 16 and discharged to the outlet 12 provided on the housing 10. It is a device for continuous flocculation of wastewater. It has excellent performance in removing high concentrations and hardly decomposable substances, which are the limitations of biological treatment, and can be applied to leachate, livestock wastewater, and chemical plant wastewater.

That is, the housing 10 provided in the electrocoagulation processing apparatus has a cylindrical shape or a polygonal cylinder shape so that the waste water pumped from the pump (not shown) may be electrocoagulated, and the waste water may be introduced into the housing 10 at the lower portion thereof. The inlet 11 is provided so that the outlet 12 is formed in the upper portion to discharge the wastewater reacted in the housing 10.

In the device made in this way, the outer electrode 15 is positioned inside the housing 10 and the part connected to the power source is fixed to the electrode holder 20 by protruding to the outside of the upper cover 14.

On the other hand, the outer electrode 15 and the end portion connected to the power source of the inner electrode 16 positioned inward at intervals of 1 mm to 10 mm is fixed to the center of the upper cover 14 by the electrode holder 20, the power supply (Not shown).

In this case, the above-described outer electrode 15 and the inner electrode 16 may be a metal wire made of iron or aluminum, and a metal wire made of any material of iron wire or aluminum wire may be used, and the upper cover 14 and the bottom of the housing 10 may be used. Partial plate 13 is preferably formed of an insulating material that is not energized.

The inner electrode 16 and the outer electrode 15 located in the housing 10 are metal wires made of iron or aluminum, and preferably metal wires having a diameter of 1 mm or more and 10 mm or less. However, depending on the configuration, one of the inner electrode 16 and the outer electrode 15 may be applied to stainless steel or titanium wire, not iron wire or aluminum wire. In this case, both the inner electrode 16 and the outer electrode 15 are applied with stainless steel or titanium wire and a metal wire coated with a precious metal such as platinum, iridium, or ruthenium to the metal wire.

When the wastewater is to be treated using the electrocoagulation treatment device according to the present invention, the wastewater is first disposed through the inlet 11 located below the housing 10 using a pump (not shown). Flow into. Wastewater introduced into the housing 10 is treated while contacting the electrode while passing between the outer electrode 15 and the inner electrode 16 and discharged to the outlet 21 located above the housing 10.

In this case, when the power is applied to the outer electrode 15 and the inner electrode 16 by distinguishing the cathode and the anode, the metal is dissolved and metal cations are generated in the electrode applied as the anode, so that metal hydroxide is generated and flocculates with the suspended matter in the waste water. Reaction occurs, and the size of the electrode decreases with time, water contacting the anode decomposes to produce oxygen and hydrogen ions, chlorine ions in the waste water is dissolved in water with chlorine gas to become HOCl to oxidize organic matter, At the electrode applied to the cathode, water is decomposed to generate hydrogen gas and OH- ions.

The metal hydroxide and metal cation generated from the positive electrode and the organic and anion components in the waste water combine and adhere to the negative electrode. The electrode turns to the positive electrode, and as a result, foreign matters attached to the negative electrode fall off, which prevents the reduction of current efficiency due to foreign matter attachment such as scale.

Inflowed wastewater is caused by coagulation and oxidation reactions by metal cations, metal hydroxides and oxygen generated through the dissolution of the anode electrode while passing through the electrode charged with the cathode and the electrode charged with the anode. Coagulated sludge and by-products are discharged to the outlet 12 together with the waste water. The device is configured to circulate several times in succession depending on the nature of the wastewater, and is also used by connecting one or several devices in series or in parallel.

On the other hand, when the electrode is dissolved and consumed according to the operation time, the upper cover 14 is opened and replaced with a new electrode. When replacing the electrodes, the replacement time is shortened and the replacement is easy because the number of electrodes is small.

In order to compare the area in contact with the fluid in the spring electrode using the metal wire of the present invention and the electrode made of a conventional metal plate, the area is calculated when a cylindrical electrode of 10 cm in diameter and 10 cm in height is made with a 3 mm diameter metal wire and a 3 mm thick metal plate. The area of the spring electrode made of 3mm diameter metal wire is 977cm2 and the area of cylindrical electrode made of 3mm thick metal plate is 628cm2.

Therefore, the total area of the electrode made of metal wire is 55% wider than the cylindrical electrode made of metal plate. This can increase the electrode area by 55% when fabricating the same size device, and the resistance is proportionally smaller because the area in contact with the fluid is 55% larger, and the current (I) = voltage (V) / resistance (R) equation In order to obtain the same current according to Ohm's law, since the resistance is low, a low voltage may be applied, and the amount of electricity consumed decreases according to the result of the formula (W) = current (I) x voltage (V). It uses less electricity than the device, resulting in lower operating costs.

In the device of the present invention, a plurality of outer electrodes 15 and inner electrodes 16 may be used. When two outer electrodes 15 and two inner electrodes 16 are used, the largest outer diameter spring outer electrode 15 is located at the outermost side, and a smaller diameter spring electrode is located at the inner electrode 16. ), The spring electrode having a smaller diameter is the outer electrode 15, and the smallest spring electrode is the inner electrode 16. In this case, two outer electrodes 15 are connected to each other, and two inner electrodes 16 are also connected to each other to constitute the apparatus of the present invention.

The apparatus of the present invention may be installed vertically or may be installed horizontally.

Waste water treated through the apparatus of the present invention is discharged through the discharge port 12 is connected to the flotation tank, sedimentation tank or filter is separated into solid. In this case, the solid-liquid separation is easily solid-liquid separated without chemical input, and unlike the case where the solid-liquid agglomerates with general chemicals, the electro-aggregated material has excellent filterability.

The present invention described above is not limited to the accompanying drawings, and various substitutions, modifications, and changes are possible without departing from the technical spirit of the present invention. It will be obvious to you.

Such a present invention,

First: the number of electrodes used is reduced, so it is easy to replace the electrodes, and because the electrodes are made in the form of springs with metal wires, it is easy to manufacture electrodes and devices, thus reducing the device cost and maintenance cost.

Second: Increased current flow and processing efficiency by increasing the area of electrodes used than conventional devices, and also reduced operating costs.

Third: In the conventional device, the electrode is exposed to the outside and there is a danger of electric shock during operation. However, the device is hermetically sealed and the electrode is not exposed to the outside, thereby increasing safety.

1 is a cross-sectional view of the electroaggregation apparatus according to the present invention

Figure 2 is a plan view of the middle portion of the electrocoagulation processing apparatus according to the present invention

3 is a spring electrode outline of the present invention

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

10: housing 11: inlet

12: outlet 13: lower part distribution

14: upper cover 15: outer electrode

16: inner electrode 17: inner support rod

18: Electrode contact protector 19: Bolt nut

20: electrode holder 21: O-ring

Claims (3)

A discharge port 12 is provided at the upper portion of the housing 10, an inlet 11 is provided at the lower portion thereof, and a spring-shaped outer electrode 15 and an inner electrode 16 are provided at the inner side of the housing 10. The electrode contact guard 18 is provided between the 15 and the inner electrode 16, the lower plate 13 is provided in the inner space below the housing 10, the inner side located in the central portion of the housing 10 An inner support rod 17 is provided inside the electrode 16, and ends of the outer electrode 15 and the inner electrode 16 are fixed to the upper cover 14 by an O-ring 21 and an electrode holder 20. The upper cover 14 is connected to the housing (10) by a fastening means such as bolt nut (19), the electro-aggregation processing apparatus, characterized in that configured to be able to flow the fluid continuously by the electrical coagulation process. The method of claim 1, The outer electrode 15 and the inner electrode 16 are electrocoagulation processing apparatus, characterized in that the electrode having a spring shape made of a metal line. The method of claim 1, Electro-aggregation processing apparatus, characterized in that the interval between the outer electrode 15 and the inner electrode 16 is greater than 1mm and less than 10mm.