KR20150000005U - electrode using a static mixer on water treatment discharge cell - Google Patents

Abstract

The present invention relates to a water treatment discharge cell employing a spiral static mixer as an electrode, and is intended to make the electrolysis treatment of flowing effluent more efficient and less expensive than the conventional one. More specifically, a conventional spiral static mixer structure And a spiral static mixer structure electrode made of a conductive material or a nonconductive material and constituting a pipe type electrode for accommodating and corresponding to the spiral static mixer structure electrode and an outer periphery of the helical static mixer structure electrode Is connected to a power supply line which is connected to a helical static mixer structure electrode and a piping type electrode and is connected to a power supply line and is insulated from the outer surface of the piping type electrode to be used for a metal piping or directly to an insulation piping Adopt and connect to each, each electrode Power supply means connected to the power supply line is drawn out to the outside of the pipe so that DC or AC power can be applied to the electrode.
According to the present invention, it is possible to solve the resistance problem of the flow rate which is a disadvantage of the conventional plate type electrolytic cell, to reduce the energy and the installation cost, as well as to be used for connecting with the existing water treatment pipe, It is effective.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a discharge cell having a spiral static mixer,

Water underwater discharge cell for water treatment

Water treatment technology is a global concern to predict and prepare for future water shortages, and Fortune magazine is an important technology area as it expects the water treatment industry to overtake the 20th century oil industry.

Currently, the need for water treatment affects from home to industry and nature. Many techniques have been proposed and used for each application.

Recently, as one of the water treatment techniques, water is decomposed by applying electrical energy to water, and a lot of techniques for treating organic matter and microorganisms in water are used.

And the electrodes are made to correspond to each other with an interval therebetween, and electric power is applied to pass the water to obtain an electrochemical reaction.

In order to cope with the flow rate of water, the corresponding distances between the electrodes disturb the flow of water. There has been a disadvantage that the process installation cost and the energy consumption applied to many electrodes are large.

Meanwhile, a static mixer is a structure having a function of mixing a flowing fluid installed in a passage through which a fluid flows for mixing of fluids. Most of them are used most commonly. A typical mixer is a helical static mixer. 2. As shown in Fig. 2, the nodes are twisted and connected to each other to cross each other, so that the fluid is divided into two, crossed, merged, and crossed again.

In order to solve the above disadvantages, a conventional static mixer having only a mixing function is changed into an electrode so as to electrolyze the flowing water and apply a single power source to a single electrode to reduce energy consumption and to inhibit the flow rate of water And to solve the problem of handling a large amount of water in a short period of time.

The conventional spiral static mixer structure is made to be a helical static mixer structure electrode of a conductor material or a nonconductive material, and a pipe type electrode is formed so as to accommodate and accommodate the helical static mixer structure electrode, and that the respective electrodes are not energized Spiral Static Mixer Structure The outer surface of the electrode is insulated and used inside the pipe type electrode. The power line connecting the spiral static mixer structure electrode and the pipe type electrode is connected and connected. A direct current or alternating current power can be applied to the electrode by applying a power applying means connected to a power line connected to each of the electrodes of each of the electrodes to an outside of the pipe so as to adopt a helical static mixer as an electrode Thereby providing an oil-water treatment discharge cell.

It has the effect of solving the resistance problem of the flow velocity which is a disadvantage of the conventional plate type electrolytic cell and saving energy and installation cost as well as quick and large water amount treatment with versatility and small cost which can be directly connected to existing water treatment piping.

1 is a structural view of a conventional electrolysis discharge cell.
Figure 2 shows the structure of a helical static mixer.
Fig. 3 is an explanatory diagram in which the exterior and the interior of the present invention are insulated.
Fig. 4 shows the configuration of the present invention
5. Fig. 5 is a schematic diagram of the inner electrode of the present invention.
Figure 6 is a drawing of the present invention

The present invention will now be described in detail with reference to the accompanying drawings.

FIG. 1 shows a conventional configuration of a conventional electrolytic cell. As shown in FIG. 1 (a), the flat plate electrodes 101 horizontally correspond to each other in the direction of water flow, And the area is flat. When the flow rate of the water increases as the direction of flow of water increases, the reaction rate of the electrolysis can not cope with the flow rate. Therefore, the distance between the flat plate electrodes 101 and the volume of the water passing therethrough A plurality of electrodes are arranged to correspond to the flowing water, so that a plurality of electrodes and a plurality of power sources to be applied to the plurality of electrodes are required. Such a conventional electrolytic cell has a drawback in that it causes a lot of resistance at the running speed and high installation and maintenance costs.

2. FIG. 2 is a representative example of a helical static mixer. An artificial structure (201) for repeating the flow of water flowing in one direction into two bifurcations and crossing them repeatedly is installed in the passage of the fluid. It is a mixer. The construction of the conventional helical static mixer structure 201 as a helical static mixer structure electrode B of a conductive material can simultaneously pass and electrolyze the flowing water so that even if the corresponding distance between the electrodes is not equal, So that the decomposition is uniformly effected. Further, it can be seen that the distance deviation between the electrode B of the helical static mixer structure and the pipe-type electrode A is constant as in the case of the electrode 101 of the conventional flat plate electrolysis cell. This is because the central axis of the helical static mixer structure electrode (B) and the inner wall of the pipe-type electrode (A) passage, which is the corresponding electrode, are parallel to each other. Therefore, even when a single power source is used, the charge applied to the cell is maintained until the end of the cell is charged. Therefore, compared to the conventional electrolytic cell using a plurality of power sources and a plurality of electrodes, the installation cost and energy can be reduced, . In order to implement the helical static mixer structure electrode B as described above, the material of the electrode may be a conductive metal or a conductive nonmetal, and a nonconductive material may be a material. In the case of a conductor, a structure having the same shape as the spiral static mixer structure 201 is made of a material, the outer edge is insulated, and the outgoing line 301 is connected to allow power to be applied from the outside of the pipe, ). In case of the non-conductive chain material, the conductive core material is wound around the center of the structure in a twisted direction and fixed, and a method of attaching the power supply lead wire 301 and a conductive paste instead of the core material, So that a spiral static mixer structure electrode (B) can be manufactured. At this time, there is no need to insulate the outer edge of the helical static mixer structure electrode (B), but when the conductors are the material, the outer edge of the helical static mixer structure electrode (B) So that it is not energized with the tubular electrode A. When the electrode (B) is made of a conductive metal or a conductive non-metal material, when the diameter is less than or equal to 30 mm, the electro- It is made of nonmetal of nonconductive conductor. The reason for this is that if the diameter is small, the rim insulation region becomes narrower as well, so that the insulating region may be damaged due to the smaller and smaller boundaries of insulation. In this case, the material itself is made of a nonconductive material, and the conductive core material is rolled up to make an electrode, so that it is not necessary to insulate the rim. However, when the diameter is large, the width of the insulated portion of the rim is widened, and the insulation can be securely made. Also, since the corresponding area between the electrodes is increased, the material is made of a conductive metal or a conductive nonmetal. To correspond to the reaction area as large as possible. The diameter of the spiral static mixer structure electrode (B) is determined considering the insulation of the outer rim. Considering that the insulation is insulated with a thickness of 1mm to 2mm when the diameter is 150mm or less, it is considered to be 2mm or more when it is 150mm or more . The length of the spiral static mixer electrode (B) is between 1 and 2.5 times the diameter of the electrode, and the diameter and the amount of the treatment are small and the length is small and long.

The piped electrode A described in the next step corresponds to the length of the helical static mixer structure electrode B, which is formed of a conductive material in a cylindrical shape. As shown in FIG. 4 (e), the helical static mixer structure electrode B is mounted and the inner diameter is determined according to the outer diameter of the helical static mixer structure electrode B. When the helical static mixer structure electrode B is received, The inner diameter of the pipe-type electrode A is formed so as not to cause a clearance of 2 mm or more. When the diameter of the piped electrode (A) is not more than 150 mm, it is suitable for 1 mm to 2 mm, and when the diameter is 150 mm or more, the thickness is 2 mm or more. If the thickness is too thin compared to the diameter, the strength corresponding to the pressure of the flowing water is weak, so that deformation can occur. If the thickness of the insulation is too thin, the pressure of the water may also destroy the insulation. Another important part that should not be energized is between the power lead-out lines 301 and 302, which allow power to be applied to the ends of the respective electrodes. The power line 301 is drawn out to the helical static mixer structure electrode B and the power line 302 is connected to the pipeline type electrode A to be drawn out. The drawn out power lead lines 301 and 302 are exposed to the outside of the outermost pipe C as shown in FIGS. 4 (b) and 4 (g). At this time, The outer pipe (C) may be a metal pipe or may be a pipe made of a polymer resin material having no conductivity. Thus, the portion where the electrode is exposed is insulated and waterproofed (303).

When the site condition of the water treatment is to adopt the metal pipe, the outer diameter rim of the pipe-type electrode (A) is insulated or the pipe-like electrode (A) is inserted into the insulating tube as shown in Fig. If the site conditions of water treatment are piping of nonconductive polymer of non-conductive polymer material or inorganic material of nonconductive material, piped electrode (A) should be installed in the outermost pipe (C) It is not possible to insulate the outside or insulate the insulated tube and directly adopt it, and there is no risk of electric shock because the outside is insulated. The present invention's outmost pipe (C) (A) of FIG. 7 is a plan view and a front view, and FIG. 7 (c) is a cross-sectional view showing a cross- Side view.

Since the present invention is to treat water streams, it is possible to store separate water and treat them without a separate treatment device. Therefore, a small-sized water treatment for treating a very small amount of water as in Example 1 below, If there is a pipe with water flowing like a large system that requires a large amount of water treatment as in the case of a large quantity of water, it is versatile and scalable to be directly connected to the pipe. Electrochemical decomposition of water is one of the most widely used methods in the world as a water treatment method.

(Example)

Example 1)

A water treatment discharge cell employing a helical static mixer as an electrode was attached to an internal piping (12.5 mm pipe) having a 10 mm outer diameter on a common foot bath in the market, and DC 3 kV and 0.2 mA were applied at a plasma applied voltage for 10 minutes As a result of the bacterial reduction test with Escherichia coli and Pseudomonas aeruginosa, a reduction rate of 99.9% was confirmed.

Example 2)

In order to test the equilibrium water treatment capability of vessels, a water treatment discharge cell employing a helical static mixer as an electrode was manufactured with an outer diameter of 75 mm, and a DC 12 V voltage and a power source of 5 A were applied. As a result of sampling several nodules of the place where they are combined and passing them, the results shown in the following Table 1 were obtained.

      MV TEST (Microbial Activity) TIME DATE RLU SAMPLE FROM 18/04/2012 14.10pm 1750 BOTTOM 14.40pm 1646 TOP 19/04/2012 08.30am 54 MIDDLE 09.00am 28 MIDDLE 09.20am 168 TOP 09.40am 69 TOP 09.45am 0 BOTTOM 19/04/2012 10.10am 911 MIDDLE 10.40am 1609 TOP 10.45am 878 MIDDLE 11.15am 1387 TOP 11.20am 376 MIDDLE 11.36am 1289 TOP 11.40am 737 MIDDLE 12.03pm 984 TOP 12.07pm 129 MIDDLE 12.30pm 894 TOP 12.34pm 317 MIDDLE 14.50pm 235 TOP 14.54pm 161 MIDDLE 16.00pm 251 TOP 16.05pm 81 MIDDLE 20/04/2012 08.00am 16 TOP 5am 7 MIDDLE

The present invention is applicable to many industrial applications such as microbial removal use, removal of harmful organic matter, ionization process, pre- and post-treatment process in organic processing, organic farming and fisheries, animal husbandry industry and marine environment industry by connecting to piping of industrial water treatment facility .

(end). Conventional electrode structure of conventional electrolysis cell
(I). Conventional Electrolysis Multiple Electrode Arrangement Structure
(All). Insulation process in this article
(la). Insulation process in this article
(hemp). The form in which the internal electrode is inserted
(bar). Internal electrode inserted
(four). Finished appearance
(A). Perspective view
(character). Floor plan
(K). Side view

Claims (5)

The conventional spiral static mixer structure is made to be a helical static mixer structure electrode of a conductor material or a nonconductive material, and a pipe type electrode which accommodates and accommodates the helical static mixer structure electrode is constructed, and that the respective electrodes are not energized Spiral Static Mixer Structure The outer surface of the electrode is insulated and used inside the pipe type electrode. The power line connecting the spiral static mixer structure electrode and the pipe type electrode is connected and connected. A direct current or alternating current power can be applied to the electrode by applying a power applying means connected to a power line connected to each of the electrodes of each of the electrodes to an outside of the pipe so as to adopt a helical static mixer as an electrode An oil-water treatment discharge cell The spiral static mixer structure electrode according to claim 1, wherein the electrode has a shape as shown in (201), (3), (3), Discharge cell The conductive material in claim 1 is at least one of a conductive metal, a conductive nonmetal, and a nonconductive metal or a nonmetal coated on a surface of the conductor. The spiral static mixer is used as an electrode. The process discharge cell Wherein the non-conductive material is at least one of resin, ceramic, wood, and an inorganic material capable of being molded. In the spiral static mixer of the present invention, When the nonconductive material is used as the material as described in the above-mentioned claim 4, the conductive core material is wound around the center of the structure in the twisting direction, or is printed with a conductive paste instead of the core material to form a spiral static mixer structure electrode. A water treatment discharge cell employing a helical static mixer as an electrode

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