KR100304460B1 - Apparatus cleaning water - Google Patents

Abstract

PURPOSE: Provided is an apparatus for treating wastewater, which is characterized in that wastewater is treated by plasma and high voltage pulse. CONSTITUTION: The apparatus includes a plasma generation part(200) installed inside a wastewater treatment tank(600); an air intake formed at the bottom of the wastewater treatment part; an air supply part(300) for introducing air into the wastewater treatment tank; screen electrodes(220,221) which are at both upper sides of the air intake at a fixed interval; and electrode frames(210,211) which are connected to the screen electrodes, and to which high voltage pulse is applied.

Description

Sewage purification device {APPARATUS CLEANING WATER}

The present invention relates to a wastewater purification apparatus for purifying wastewater using plasma, and more particularly, to purify wastewater by generating a large amount of plasma using a screen discharge (SD) and high voltage pulses to generate plasma. Relates to a device.

In general, wastewater and sewage treatment methods include cultivating microorganisms in an aerobic state caused by forced aeration using various oils and inorganic substances contained in wastewater and sewage, and circulating the microorganisms and wastewater so circulated in the wastewater and sewage. Most biological treatment methods using microorganisms which remove various organic and inorganic substances through gradual processes such as oxidation, decomposition, coagulation, adsorption, and precipitation have been adopted.

There are two methods for treating such biological wastewater: active sludge method, biofilm method, and a mixture of these methods. Among them, organic matter mainly takes up bacteria and fungi, whereas biofilm method has overwhelmingly large numbers of protozoa, especially ciliary oil. It plays an important role in wastewater treatment.

However, the biological wastewater treatment method has a problem that the efficient use of dissolved oxygen is inhibited because the microorganisms are collected in the carrier in a steady state.

In addition, the biological wastewater treatment method has a problem that it is difficult to remove various heavy metals contained in the wastewater.

In order to solve the above problems, an object of the present invention is to provide a wastewater purification apparatus for removing and purifying heavy metals in wastewater by generating a large amount of plasma using a network discharge and a high voltage pulse.

In order to achieve the above object, the present invention is provided with a high voltage pulse generator to generate a plasma according to the high voltage pulse generated by the high voltage pulse generator in the sewage purification apparatus, which is installed in the sewage tank into which the sewage flows A plasma generator for generating plasma by charging and discharging corresponding screen electrodes according to a high voltage pulse supplied from the high voltage pulse generator; And an air supply unit for supplying air containing a predetermined gas to the plasma generating unit to generate bubbles between both reticles so as to generate plasma in the filthy water.

1 is a block diagram of a sewage purification apparatus according to the present invention

2 is a detailed structural diagram of the plasma generation unit of FIG.

2A is a side view of the plasma generating unit

2B is a front view of the plasma generating unit

2C is a plan view of the plasma generation unit

Explanation of symbols on the main parts of the drawings

100: high voltage pulse generator 200: plasma generator

210, 211: electrode frame 220, 221: mesh electrode

230: support 240: air inlet

250: space 260: body

300: air supply unit 400: control unit

500: circulation 510: circulation pump

600: holding tank 700: plasma

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

In general, the plasma is highly ionized, so that the (+) and (-) ions are present at the same density and are electrically balanced and neutral.

Sewage purification apparatus according to the present invention for generating such a plasma to purify the sewage, as shown in Figure 1 is composed of a high voltage pulse generator 100 for generating a high voltage pulse, a screen (plasma) to generate a plasma The generator 200, the air supply unit 300 for supplying air, the circulation unit 500 for circulating the sewage in the sewage tank 600 by using the circulation pump 510, and the high voltage pulse generator 100 And a controller 400 for controlling the air supply unit 300 and the circulation pump 500.

The high voltage pulse generator 100 generates a high voltage pulse, that is, a high voltage pulse having a frequency of 10 Hz to 250 Hz and composed of a voltage of 20 KV to 60 KV, and supplies it to the plasma generator 200.

The plasma generator 200 is installed in the sewage tank 600 into which the sewage flows, and both screen electrodes corresponding to the high voltage pulses supplied from the high voltage pulse generator 100 are charged and discharged to generate plasma. It is.

As shown in FIG. 2, the plasma generator 200 has an air inlet 240 formed at a lower end thereof so that the air injected from the air supply unit 300 is introduced therein, and a predetermined interval (upper) at both ends of the air inlet 240. d) connected to the screen electrodes 220 and 221 and the screen electrodes 220 and 221 which are disposed to correspond to each other and are charged and discharged, respectively, and are fixed and supported from the high voltage pulse generator 100. Both electrode frames 210 and 211 to which the high voltage pulse to be output is applied.

Here, the mesh electrodes 220 and 221 are disposed to correspond to the upper portion of the air inlet 240 at 0.5-1 cm intervals d, and the support 230 is placed on the electrode frames 210 and 211 to provide a high voltage. It is attached to the body 260 to facilitate the fixing and support while facilitating the connection with the pulse generator 100. Here, the body 260 is made of an insulator such as ceramic.

The air supply unit 300 supplies air to the plasma generator 200 to generate bubbles between both reticles so as to generate plasma in the sewage.

Here, the air supply unit 300 injects air containing a specific gas into the plasma generator 200 to generate a large amount of plasma in the sewage. At this time, the specific gas is a gas that generates plasma with nitrogen dioxide gas, helium gas, argon and chlorofluorocarbon gas mixture, chlorofluoro carbon gas, or a methane gas mixture of argon and hydrogen.

The circulation unit 500 is to circulate the sewage in the sewage tank 600 to increase the amount of oxygen in the sewage, through the sewage discharge pipe 520 from the sewage discharge port 620 in the sewage tank 600 Outflow and circulating pump 510 for introducing the sewage through the sewage inlet 630 and the sewage inlet 630 in the sewage tank 600.

The operation of the wastewater purification apparatus according to the present invention thus made will be described in detail with reference to FIGS. 1 and 2.

First, the wastewater is inserted into the wastewater tank 600 through the wastewater inlet 610 of the wastewater tank 600, and then the high voltage pulse generator 100 and the air supply unit 300 are operated by the controller 400 to operate the 10 Hz. Nitrogen dioxide gas, helium valence, argon and chlorofluorocarbon gas mixture, chloro, while supplying a high voltage pulse having a frequency of ˜250 Hz and a voltage of 20 KV to 60 KV to the electrode frames 210 and 211 of the plasma generator 200. The air including the fluorocarbon gas or the mixture of argon and hydrogen and methane gas through the air inlet 240 through the air inlet tube 310 between the network electrodes 220 and 221. Inflow between.

In this case, the plasma generator 200 charges and discharges the surfaces of the electrode frames 210 and 211 and the mesh electrodes 220 and 221 according to the high voltage pulse supplied from the high voltage pulse generator 100 and the introduced air. It generates a plasma.

The process of generating the plasma as described above in detail with reference to FIG.

Air containing the gas or gas mixture to generate a plasma is introduced into the air inlet 240 through the air inlet tube 310 and the air is discharged to the space portion 250 between the network electrodes 220 and 221 so that the network electrode Insulation capacitors are formed in the space 250 between them. That is, an insulation capacitor is formed in the space 250 between the network electrodes 220 and 221 by the air discharged in a state where the insulator is not formed by the sewage 710.

At this time, the high voltage pulse is continuously applied to both electrode frames (210, 211) to be delivered to the mesh electrodes (220, 221) while the air is introduced into the space portion 250 through the air inlet tube 310 and the mesh electrode 220 , The capacitor is formed by the air bubbles formed in the space 250 between the 221, the continuous charge and discharge is made, thereby generating a plasma.

That is, when the high voltage pulse is applied to the positive electrode frames 210 and 211, respectively, and the high voltage pulse is applied, the same high voltage pulse is also applied to the network electrodes 220 and 221 connected to the positive electrode frames 210 and 211, respectively. In this case, when the air, which is an insulator, is introduced into the space 250 through the air inlet 240, an insulating capacitor is formed between the two poles to act as a capacitor.

Therefore, when the high voltage pulse is continuously applied by the high voltage pulse generator 100, charging and discharging is performed by a capacitor formed by the insulating air of the space part 250 between the network electrodes 220 and 221. 700) is generated. That is, when a high voltage pulse is generated for the first time, a plasma is generated near the air inlet 240 at the bottom of the positive electrode frames 210 and 211, and when a high voltage pulse is generated gradually, the discharge is activated, and the discharge is activated to the electrode frames 210 and 211. Is made from above.

The discharged air not only increases the amount of free electrons and easily ionizes, but also reduces the air density in the expanded air bubbles.

At this time, the plasma generated by the air flowing into the air inlet 240 is free to move in the water of the sewage tank 600 to purify the sewage.

Meanwhile, the air supply unit 300 includes a gas or gas mixture that generates plasma, that is, air containing nitrogen dioxide gas, helium gas, argon and chlorofluorocarbon gas mixtures, chlorofluorocarbon gas, or argon and methane gas mixtures. When introduced into the air inlet 240 is the air containing the plasma is discharged to the sewage. The plasma of the plasmonic metal discharged here becomes a metallic plasma.

At this time, since the gas or the gas mixture for generating a plasma is distributed in the air inlet 240, a large amount of plasma may be generated accordingly.

The discharged plasma is combined with the heavy metal in the sewage to fall to the bottom surface of the sewage tank 600 in the form of sludge, such heavy metal sludge may be removed separately.

On the other hand, the control unit 400 operates the circulation pump 500 to circulate the sewage in the sewage tank 600 to increase the amount of oxygen in the sewage. That is, the circulating pump 510 operates the sewage from the sewage discharge port 620 in the sewage tank 600 through the sewage discharge pipe 520, and the sewage inlet pipe 530 and the sewage inlet 630 in the sewage tank 600. By increasing the amount of dissolved oxygen by flowing through the sewage inlet 630 in the) to facilitate the sewage purification.

In addition, when plasma is generated, ultraviolet rays are simultaneously generated, thereby generating ozone. That is, as the air bubbles including the plasma are destroyed, the surrounding water is ionized and intense ultraviolet rays are emitted, so that the sewage is purified. In other words, the generation of plasma results in intense ultraviolet radiation and cavitation with sound waves, chemically active radicals are produced, and new materials, such as H ₂ O ₂ and O ₃ , are produced.

Therefore, the amount of oxygen in the sewage increases, the amount of dissolved oxygen increases, the sewage is sterilized by ultraviolet rays, and ions are generated at the same time.

If a plurality of such plasma generators 200 are installed in the sewage tank 600, rapid purification may be achieved.

As described above, the wastewater purification apparatus according to the present invention has the following effects.

First, since a large amount of plasma is continuously generated, the heavy metal can be easily separated and removed from the wastewater contaminated with heavy metal. It is also possible to remove harmful mixtures such as phenols, formals and the like.

Second, since ultraviolet rays are emitted along with the plasma, disinfection in drinking water or sewage is naturally performed, and thus another contamination by chlorine disinfection can be removed.

Third, since ozone is released, the amount of dissolved oxygen is increased, thereby enabling faster purification.

Fourth, the water is sterilized without separate disinfection by chlorine, etc., when it is necessary to disinfect a large amount of water, such as a swimming pool, it is possible to easily remove bacteria to prevent eye diseases, etc. Purification can be done to keep clean water all day long.

Fifth, because the structure is simple, the production is easy, and can be used for a long time.

Sixth, power consumption is low by generating high voltage pulse signal periodically.

Seventh, the oil can be activated for medical use.

Claims (7)

A high voltage pulse generator for generating a pulse; A plasma generator for generating plasma by discharging according to a high voltage pulse supplied from the high voltage pulse generator; In the sewage purification apparatus comprising an air supply for supplying air to the plasma generating unit, An air inlet 240 formed at a lower end of the plasma generator 200 in the sewage tank 600 to discharge the air injected from the air supply 300; Screen electrodes 220 and 221 disposed on the upper ends of the air inlets 240 at a predetermined interval d to be charged and discharged; And both electrode frames (210, 211) connected and fixed to the network electrodes (220, 221), respectively, and to which a high voltage pulse output from the high voltage pulse generator (100) is applied. delete delete delete delete delete The sewage treatment apparatus according to claim 1, wherein the screen electrodes (220, 221) are disposed on the upper ends of the air inlets (240) so as to correspond at intervals of 0.5 to 1 cm (d).