KR20140101114A - Water treating apparatus using plasma - Google Patents

Abstract

The present invention is to provide a water treatment apparatus using plasma, which has a structure capable of enhancing the treatment efficiency of contaminated water while increasing the utility of generated ozone gas by plasma. Accordingly, the water treatment apparatus using plasma according to the present invention comprises an inlet pipe for flowing in contaminated water by a pump; a first reaction bath receiving the contaminated water from the inlet pipe, and having the inside blocked from the air and a plasma generator receiving the air, and discharging the air which has been reacted with plasma in a bubble form in the water; a second reaction bath connected to the first reaction bath, receiving the treated water treated in the first reaction bath, and having the inside blocked from the air and a plasma generator receiving the air and discharging the air which has been reacted with plasma in a bubble form in the water; and a discharge bath for collecting the treated water successively passed through the first reaction bath and the second reaction bath, and discharging the treated water. The first and second reaction baths are mutually connected by a lower fluid path where the treated water in the first reaction bath moves to the second reaction bath under the first reaction bath, and an upper fluid path where the treated water in the first reaction bath, and ozone move together to the second reaction bath above the first reaction bath.

Description

[0001] WATER TREATING APPARATUS USING PLASMA [0002]

The present invention relates to a plasma water treatment apparatus, and more particularly, to a plasma water treatment apparatus capable of effectively treating ozone or the like while flowing polluted water through a multi-stage reaction water tank, thereby improving treatment efficiency and continuously treating water.

Recently, researches on water treatment apparatus using plasma have been actively carried out to purify wastewater.

The water treatment apparatus reacts gas such as ozone and active radical generated by plasma with contaminants in water to induce decomposition and oxidation of contaminants and improve water quality.

FIG. 1 is a view illustrating an example of a conventional water treatment apparatus using plasma as disclosed in Korean Patent Laid-Open Publication No. 10-2011-0109111.

Referring to FIG. 1, a conventional water treatment apparatus includes a plurality of plasma guns 1, a gas inlet 2, a reaction tank 3, and a porous plate 4 that generates bubbles. The porous plate 4 is installed at the lower end of the plasma gun 1 to increase the contact efficiency between the gas including the chemically active species generated by the plasma gun 1 and the wastewater, thereby generating fine bubbles.

The plasma gun 1 applies a voltage to the discharge electrode 5 and the ground electrode 6 through the power supply device when the inflow gas is supplied through the gas inlet 2. [ The plasma gun 1 generates a plasma discharge in the reaction space 8 between the discharge electrode 5 and the dielectric tube 7 when a voltage is applied. Through the discharge of the plasma gun 1, chemically active species such as ozone are generated and the generated chemically active species react with the wastewater to purify the wastewater.

In the course of such action, as the contact time of ozone with the contaminant in the water is increased and the stirring process is repeated, an effective reaction occurs and energy and water treatment efficiency can be increased.

However, in the case of the plasma water treatment apparatus, since the generated ozone does not have a separate structure for efficiently reacting with the contaminants in the water, a sufficient time can not be secured for the generated ozone to react with contaminants in the water .

In addition, the water treatment apparatus has a difficulty in continuously and continuously processing wastewater flowing through an inlet and an outlet due to the risk of leakage of ozone or the like. That is, since the wastewater can be leaked to the outside together with the treated water discharged from the ozone generated during the plasma treatment, it is necessary to realize the configuration in which the treated water is stagnated to discharge the ozone.

SUMMARY OF THE INVENTION The present invention provides a plasma water treatment apparatus having a structure capable of increasing the utilization efficiency of ozone gas generated by plasma and treating the contaminated water.

According to an aspect of the present invention, there is provided a plasma water treatment apparatus comprising: an inlet pipe through which polluted water is introduced by a pump; A first reaction water tank provided with a plasma generator for receiving the contaminated water from the inflow pipe and shutting off the air in the atmosphere and discharging the air reacted with the plasma in the bubble state in water; A plasma generator connected to the first reaction water tank and supplied with the treated water treated in the first reaction water tank, the inside of which is shielded from the atmosphere, and which receives air and reacts with the plasma in a bubble state A second reaction water tank provided with the first reaction tank; And a discharge water tank for collecting and discharging the treated water successively in the first reaction water tank and the second reaction water tank, wherein the first reaction water tank and the second reaction water tank are connected to each other in the lower part of the first reaction water tank Wherein the treated water in the first reaction water tank moves to the second reaction water tank, and the upper flow tube in which the treated water in the first reaction water tank and the ozone move to the second reaction water tank, And an ozone treatment section for purifying the air by absorbing ozone, wherein the ozone introduced into the treated water collecting space is connected to the ozone treatment device And the air absorbed and purified by the treatment section is discharged into the atmosphere.

Further, in the present invention, the treated water treated in the second reaction water tank flows into the treated water collecting space via the third reaction water tank, and the third reaction water tank is connected to the second reaction water tank, And a plasma generator for receiving the treated water in the first reaction tank and receiving the air and reacting with the plasma and discharging the air in a bubble state in the water, Wherein the water tank comprises a lower flow tube in which the treated water of the second reaction water tank moves to the third reaction water tank in the lower part of the second reaction water tank and a lower flow tube in which the treated water of the second reaction water tank and ozone, And the upper flow tube is moved to the third reaction tank.

The treatment water collecting space is provided at a lower position than the first to third reaction water tanks and has a treatment water capacity larger than that of each of the first to third reaction water tanks, The reaction water tank and the treated water collecting space are connected to each other by a lower flow pipe through which the treated water moves to the treated water collecting space and an upper flow pipe through which the treated water and the ozone move together, The upper flow tube connected to each other has an upper flow tube for connecting the first reaction water tank and the second reaction water tank to each other and a larger diameter than the upper flow tube for connecting the second reaction water tank and the third reaction water tank to each other Other features.

Further, the present invention is characterized in that the lower flow tube and the upper flow tube that connect the first reaction water tank and the second reaction water tank, and the lower flow tube and the upper flow tube that connect the second reaction water tank and the third reaction water tank, And a bypass valve capable of directly discharging treated water or treated water and ozone to the treated water collecting space, respectively.

According to another aspect of the present invention, there is provided a plasma water treatment apparatus comprising: an inlet pipe through which polluted water is introduced by a pump; A first reaction water tank provided with a plasma generator for receiving the contaminated water from the inflow pipe and shutting off the air in the atmosphere and discharging the air reacted with the plasma in the bubble state in water; A plasma generator connected to the first reaction water tank and supplied with the treated water treated in the first reaction water tank, the inside of which is shielded from the atmosphere, and which receives air and reacts with the plasma in a bubble state At least one intermediate reaction water tank; And a plasma generator connected to the intermediate reaction water tank to receive the treated water from the intermediate reaction water tank, the inside of which is shielded from the atmosphere, and the air supplied to the intermediate reaction water tank is reacted with the plasma, Final reaction water tank; And a discharge water tank for collecting and discharging the treated water successively from the first reaction water tank, the intermediate reaction water tank and the final reaction water tank, wherein the first reaction water tank and the intermediate reaction water tank, Between the water tank and the final reaction water tank, a lower flow pipe through which the treated water moves and an upper flow pipe through which the treated water and the ozone move together are connected to each other, and the discharge water tank is provided with a treatment water collecting space And an ozone treatment unit for absorbing ozone to purify the air, the ozone introduced into the treatment water collecting space is absorbed by the ozone treatment unit and the purified air is discharged to the atmosphere, The intermediate reaction water tank, and the final reaction water tank, respectively.

In the above-described configuration, the final reaction water tank and the treated water collecting space are connected to each other by a lower flow pipe through which the treated water moves to the treated water collecting space and an upper flow pipe through which the treated water and the ozone move together, The upper flow tube connecting the treated water collecting spaces to each other includes an upper flow tube for connecting the first reaction water tank and the intermediate reaction water tank to each other and a lower flow pipe for connecting the intermediate reaction water tank and the final reaction water tank, .

In another aspect of the present invention, the treated water collecting space is installed at a lower position than the first reaction tank to the third reaction tank, and all the upper flow tubes are installed in a horizontal state.

The plasma water treatment apparatus according to the present invention has the following effects.

First, since the polluted water flowing through the inflow pipe is discharged to the outside through the first reaction tank, the intermediate reaction tank, the final reaction tank, and the discharge water tank through the discharge pipe, , It is possible to maximize the water treatment capacity and to perform the rapid purification treatment as compared with other water treatment apparatuses which repeat the process of stagnating and discharging the contaminated water having a limited capacity.

Secondly, in the case where the reference water quality can be reached without passing through all of the plurality of reaction water tanks, the present invention can pass only a part of the reaction water tank through the bypass valve and directly flow into the discharge water tank. The generation of ozone can be reduced.

Third, since the ozone gas and the treatment water are moved together through the upper flow tube and stirring is actively performed in the process of moving the ozone gas and the treatment water, the decomposition and oxidation of the contaminants can be maximized, Is continuously moved to the final reaction water tank together with the treated water, so that the utilization efficiency of the produced ozone gas can be maximized.

Fourth, when the ozone gas generated by the plasma reaction is recycled and the plasma reaction is performed again, there is an experimental result that ozone and NOX series generated by the plasma increase TN in the water. However, It is possible to prevent the occurrence of such a problem because it is a method of continuously stirring for a long time with the treated water without being re-introduced into the plasma reactor.

1 is a block diagram of a conventional water treatment apparatus using plasma
2 is an overall perspective view of a water treatment apparatus using plasma according to an embodiment of the present invention.
FIG. 3 is a diagram showing the constitution of the first reaction tank and the second reaction tank in the water treatment apparatus using plasma according to the embodiment of the present invention
4 is a diagram showing a plasma generator in a water treatment apparatus using plasma according to an embodiment of the present invention
5 is a cross-sectional view showing the structure of a discharge water tank in a water treatment apparatus using plasma according to an embodiment of the present invention
6 is an explanatory view for explaining an action of an upper flow tube in which ozone and treated water move from a first reaction tank to a second reaction tank in a water treatment apparatus using plasma according to an embodiment of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 2 is an overall perspective view of a water treatment apparatus using plasma according to an embodiment of the present invention. FIG. 3 is a cross-sectional view illustrating a connection structure between a first reaction tank and a second reaction tank in a water treatment apparatus using plasma according to an embodiment of the present invention. .

2 and 3, the water treatment apparatus using plasma according to an embodiment of the present invention includes an inflow pipe 10 through which contaminated water is introduced by a pump, A first reaction tank 20 having a plasma generator 21 whose interior is blocked from the atmosphere and which discharges air in the form of a bubble in the air which has been reacted with the plasma and is supplied with air; A plasma generator 21 connected to the first reaction water tank 20 for receiving the treated water treated therein and having its inside shut off from the atmosphere and discharging the air reacted with the plasma in a bubble state The first reaction tank 20 and the second reaction tank 30 are provided with a first reaction tank 30 and a second reaction tank 30. 20 and the second reaction water tank 30, And a discharge tank (60) having a receiving capacity of the risu.

In the first reaction water tank 20, an inflow pipe 10 is installed at a lower side of the first reaction tank 20, and polluted water to be treated flows into the first reaction tank 20 and is subjected to a primary purification treatment by plasma. The inflow pipe 10 is provided with a pump 12 to feed the polluted water to the first reaction tank 20 so that polluted water can be supplied to the first reaction tank 20 and the second reaction tank 20 connected to the first reaction tank 20, (30).

The first reaction water tank 20 is provided with a plurality of plasma generators 21 for generating fine bubbles including ozone and the like in the water of contaminated water to decompose and remove contaminants.

FIG. 4 shows the construction of one plasma generator 21. FIG. The plasma generator 21 includes a support head 216 fixed to the upper plate 11 of the water tank, a quartz tube 212 fixed to the lower portion of the support head 216, Generator 215 is installed. A discharge electrode 213 is provided inside the quartz tube 212 and a counter electrode 214 connected to a power source such as a neon transformer is installed in the water outside the quartz tube 212 together with the discharge electrode 213 And an air supply pipe 217 for supplying air to the inside of the quartz tube 212 is installed on the side of the support head 216.

Accordingly, when air having a predetermined pressure is supplied from the air supply pipe 217, a flow of air is generated in the downward direction inside the quartz tube 212, the inflow of polluted water outside is blocked, and the air is supplied to the bubble generator 215 And then discharged in the form of fine bubbles 251 in water. The bubble generator 215 is made of a porous material such as a sponge, which can be divided into minute bubbles through air flowing from the lower end of the quartz tube 212.

When the discharge electrode 213 generates plasma in the quartz tube 212, the air passing through the inside of the quartz tube 212 reacts with the plasma to generate ozone, active radicals, etc. and flows into the bubble generator 215, In the form of fine bubbles.

The inside of the second reaction water tank 30 is sealed by being shut off from the atmosphere and the ozone gas (more precisely, air containing ozone, active radical, etc.) in the water as in the first reaction water tank 20, (Hereinafter referred to as " ozone gas "), and receives treatment water treated in the first reaction tank 20 to perform purification treatment. The pollutants in the polluted water are decomposed and oxidized while the first reaction water tank 20 and the second reaction water tank 30 are sequentially passed, and the water quality is gradually improved.

The second reaction water tank 30 includes a lower flow pipe 23 in which the treated water of the first reaction water tank 20 moves to the second reaction water tank 30 at a lower portion of the first reaction water tank 20, The upper part of the reaction water tank 20 is connected to the first reaction water tank 20 by the upper flow pipe 22 in which the treated water of the first reaction water tank 20 and ozone move together to the second reaction water tank 30 have.

When the contaminated water flows into the first reaction water tank 20 by the pump 12 of the inlet pipe 10, the upper flow pipe 22 is provided at the upper part of the first reaction water tank 20, And the water level rises above the lower flow tube 23 in the upper flow pipe 20. Therefore, the lower flow tube 23 is a passage through which the treated water treated in the first reaction tank 20 moves to the second reaction tank 30. [

When the water level of the first reaction water tank 20 is raised by the pump 12 of the inflow pipe 10, the water level may rise above the height of the upper flow pipe 22, And the ozone gas is continuously supplied from the plasma generator 21, so that the air in the upper layer can not escape. Therefore, the water level changes at any time from about the same height as the height of the upper flow tube 22. As a result, the ozone gas in the upper layer continuously supplied through the upper flow tube 22 and the treatment water treated in the first reaction tank 20 move together as shown in Fig.

In the present embodiment, the third reaction water tank 40 and the fourth reaction water tank 50 are further included. The third reaction water tank 40 and the fourth reaction water tank 50 are also hermetically closed as in the second reaction water tank 30 so that the ozone gas is continuously supplied in the water by the plasma generator 21 .

An upper flow pipe 32 and a lower flow pipe 33 for connecting the second reaction water tank 30 and the third reaction water tank 40 and an upper flow pipe 32 and a lower flow pipe 33 for connecting the third reaction water tank 40 and the fourth reaction water tank 50, The configuration of the flow tube and the lower flow tube is the same as that of the upper flow tube 22 and the lower flow tube 23 that connect the first reaction water tank 20 and the second reaction water tank 30. However, since the upper flow tubes 22, 32, and 52 are formed to have a larger diameter toward the rear reaction water tank, the pressure of the ozone gas accumulated from the first reaction water tank 20 is relieved, Move smoothly.

For this reason, the upper flow tube 52 connecting the fourth reaction tank 50 and the treated water collecting space 61 of the discharge water tank 60 is connected to each of the upper flow tubes 22 and 32 And has been expanded to a larger diameter.

If the fourth reaction water tank 50 is removed and the third reaction water tank 40 is connected to the control water discharge tank 60 as the final reaction water, An upper flow tube 52 connecting the first reaction tank 20 and the second reaction tank 30 to each other and an upper flow tube 22 connecting the first reaction tank 20 and the second reaction tank 30 to each other, Will have a larger diameter than the upper flow tube 32 connecting the two flow tubes 40 to each other.

Bypass pipes 225, 235, 325 and 335 are connected to the bypass pipes 72 and 73 and connected to the upper flow tubes 22 and 32 and the lower flow tubes 23 and 33 connecting the reaction water tanks, The treated water and the ozone can be discharged directly to the treated water collecting space 61 of the discharge water tank 60.

For example, when it is possible to improve the quality of the water by the plasma treatment only up to the second reaction water tank 30, the bypass valves 325 and 335 are operated to the bypass pipes 72 and 73 so that the second reaction water tank 30, The treated water and the ozone are not supplied to the third reaction water tank 40, and the treated water can be discharged to the discharge water tank 60 to discharge the treated water.

Such a bypass configuration can be directly discharged to the discharge water tank 60 according to the state of being purified in each of the reaction water tanks when the polluted water having different pollution degrees or different pollution characteristics is treated by the water treatment apparatus of this embodiment , It is possible to further reduce the treatment time and to appropriately adjust the amount of ozone generated since some reaction water tanks unnecessarily located on the rear side may not be operated further.

5 is a sectional view showing the structure of the discharge water tank 60 according to the present embodiment.

The discharge water tank 60 temporarily stores the treated water purified through the first to fourth reaction water tanks 50 and discharges the treated water through the discharge pipe 70. The treated water collecting space 61 And an ozone treatment section 62 for absorbing ozone to purify the air is provided in the upper part.

The capacity of the treated water collection space 61 is set to be larger than that of each of the first to fourth reaction water tanks 50, so that the process water moving in the final reaction water tank is temporarily stored and discharged. This secures the time for the treatment water to stay so that ozone contained in the treated water can escape from the water to the upper layer.

The ozone treatment section 62 is provided above the treated water collection space 61 and the ozone treatment section 62 is capable of absorbing ozone by being loaded with the activated carbon particles 621. The ozone treatment unit 62 forms a porous bottom plate 622 such as a wire net on the floor and receives ozone from the lower treated water collecting space 61 by accommodating the activated carbon particles 621 into the holes of the porous bottom plate 622 And the ozone treatment section 62 is configured such that the ozone-removed air is discharged to the atmosphere through the exhaust hole 623 on the upper side.

The treated water collecting space 61 is installed at a position lower than the first to third reaction water tanks 20 to 40 (final reaction water tank) to facilitate the introduction of treated water from the final reaction water tank , The final reaction water tank and the treated water collecting space 61 are connected to each other by a lower flow pipe 53 in which the treated water moves to the treated water collecting space 61 and an upper flow pipe 52 in which the treated water and the ozone move together . The upper flow pipe and the lower flow pipe are connected horizontally at the height of the upper and lower portions of the final reaction water tank, like the other reaction water tanks.

The final reaction water tank is the third reaction water tank 40 when only the first to third reaction water tanks 40 are installed.

The upper flow tube 52 preferably connects the final reaction water tank and the treated water collection space 61 in a horizontal state and the upper flow tubes 22 and 32 and the lower flow tubes 23 and 33 connecting the reaction water tanks are also horizontally connected Thereby facilitating the flow of ozone gas and treated water.

It is needless to say that an additional reaction tank may be provided between the fourth reaction tank 50 and the discharge water tank 60. [

The second reaction water tank 30 and the third reaction water tank 40 described in the above embodiments are the intermediate reaction water tank described in the claims, the fourth reaction water tank 50 is the final reaction water tank, When the water tank is three, the second reaction water tank 30 is the intermediate reaction water tank and the third reaction water tank 40 is the final reaction water tank.

The following describes the operation of the plasma water treatment apparatus according to the embodiment of the present invention.

2 and 3, when the contaminated water pressurized by the pump 12 through the inflow pipe 10 is supplied to the first reaction tank 20, the water level of the first reaction tank 20 rises. At this time, a plasma is generated in the plasma generator 21, and ozone gas generated by the plasma reaction of the air is discharged in the form of fine bubbles in water.

In the first reaction water tank 20, the contaminated water continues to flow in the inflow pipe 10 so that the water level is increased. However, in the first reaction water tank 20 sealed with air, The water is continuously discharged and filled in the upper portion of the first reaction water tank 20, whereby the rise of the water level is prevented. That is, when the water level rises higher than the upper flow tube 22, the ozone gas is trapped in the closed space, the water level can not rise further, and the ozone gas is continuously filled up in the water. The upper flow tube 22 is opened to allow the ozone gas to flow.

When the upper flow pipe 22 is sufficiently opened, the ozone gas is discharged through the upper flow pipe 22, and the pressure of the ozone gas is lowered, so that the level of the polluted water fed to the first reaction tank 20 is increased .

In the process of repeating the above-mentioned operations, as shown in FIG. 6, the water level can be maintained at a level at which treated water treated with contaminated water and ozone can flow together in the upper flow pipe 22.

Accordingly, the water level in the first reaction water tank 20 can be appropriately maintained, so that the ozone or the like can sufficiently react with contaminants in the water, and the treated water and ozone traveling on the upper flow tube 22 It is possible to increase the reaction time of the ozone and the contaminant and accelerate the decomposition and oxidation of the pollutant. The disturbance of the treatment water is severely generated as the ozone gas is aerated in the reaction water tank, so that the treatment water moving inside the upper flow pipe 22 flows under severe disturbance and agitation with ozone gas.

The above-mentioned operation is also the same in the second and third reaction water tanks 40 having the same structure as the first reaction water tank 20.

The treated water in the fourth reaction tank 50 which is the final reaction water tank flows into the treated water collection space 61 of the discharge water tank 60 through the lower flow pipe 53 and the upper flow pipe 52. At this time, the treated water and the ozone gas move together through the upper flow tube 52.

When the treated water and the ozone gas are introduced into the treated water collecting space 61, the treated water is temporarily stored in the lower part and the ozone gas is gathered in the upper part of the treated water as shown in FIG. The collected ozone gas is then removed through the activated carbon particle layer 621 through the porous bottom plate 622 of the ozone treatment unit 62 to remove ozone. Since the treated water collecting space 61 has a large capacity, the treated water is temporarily stored and a certain amount can be continuously discharged through the discharge pipe 70.

According to this embodiment, the polluted water flowing through the inflow pipe 10 passes through the discharge pipe 70 through the first reaction tank 20, the intermediate reaction tank, the final reaction tank and the discharge water tank 60, The process of discharging to the outside can be performed in the process of flowing the polluted water without interrupting the operation, so that the water treatment capacity can be maximized.

Further, when the reference water quality can be reached without passing through all of the plurality of reaction water tanks, only a part of the reaction water tanks can be introduced by the bypass valves 225, 235, 325, and 335 and then directly introduced into the discharge water tanks 60, And the generation of unnecessary ozone can be reduced.

In addition, since the ozone gas and the treatment water move together through the upper flow tubes 22, 32, and 52 and agitate actively during the movement, the decomposition and oxidation of pollutants can be maximized.

In addition, ozone gas generated in the first reaction water tank 20 is continuously reacted with the treated water through the intermediate reaction water tank to the final reaction water tank, so that utilization of ozone gas can be maximized.

In addition, in the case where ozone gas generated by plasma reaction is recycled and plasma reaction is performed again, there is an experimental result that ozone and NOX series generated by plasma increase TN in water. However, in the present invention, It is possible to prevent the occurrence of such a problem because it is a method of continuously moving for a long time together with treated water without re-entering the reactor.

The contaminated water is received in the treated water collecting space 61 of the discharge water tank 60 and then the inflow pipe 10 is disposed in the treated water collecting space 60. In this case, (61), it is possible to carry out purification treatment while circulating the polluted water.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limited to the particular embodiments set forth herein. It goes without saying that other modified embodiments are possible.

10; An inlet pipe 11; Top plate
12; Pump 20; The first reaction tank
21; Plasma generators 22, 32, 52; Upper flow tube
23, 33, 53; A lower flow tube 30; The second reaction tank
40; A third reaction bath 50; The fourth reaction tank
60; A discharge water tank 61; Treated water collection space
62; An ozone treatment unit 70; discharge pipe
72, 73; Bypass piping 225, 235, 325, 335; Bypass valve
212; Quartz tube 213; Discharge electrode
214; An opposite electrode 215; Bubble generator
216; Support head 217; Air supply pipe
251; Fine bubbles 621; Activated carbon particle
622; Bottom plate 623; Exhaust ball

Claims (7)

An inflow pipe 10 into which the contaminated water flows by the pump 12;
And a plasma generator (21) which is supplied with the contaminated water from the inflow pipe (10) and whose inside is shielded from the atmosphere and which has been supplied with air and reacted with the plasma, A water tank 20;
The first reaction water tank 20 is connected to the first reaction water tank 20 and is supplied with treated water. The inside of the first reaction water tank 20 is shielded from the atmosphere. A second reaction water tank (30) having a plasma generator (21) for discharging the bubbles out of the plasma generator (30); And
And a discharge water tank (60) for collecting and discharging the roughly treated water in the first reaction water tank (20) and the second reaction water tank (30)
The first reaction water tank (20) and the second reaction water tank (30)
A lower flow tube in which the treated water of the first reaction water tank 20 moves to the second reaction water tank 30 at a lower portion of the first reaction water tank 20,
The treated water of the first reaction water tank 20 and the ozone gas are connected to each other by the upper flow pipe moving to the second reaction water tank 30 at the upper part of the first reaction water tank 20,
The discharge water tank (60) includes a treatment water collecting space (61) at a lower part thereof, and a ozonation treatment part (62) for purifying the air by absorbing ozone at the upper part and discharging the air to the atmosphere. The method according to claim 1,
The treated water in the second reaction tank 30 flows into the treated water collecting space 61 through the third reaction tank 40,
The third reaction water tank (40)
The first reaction water tank 20 is connected to the second reaction water tank 30 to receive the treated water treated therein and is intercepted from the atmosphere and receives air and reacts with the plasma, And a plasma generator (21)
The second reaction water tank (30) and the third reaction water tank (40)
A lower flow tube in which the treated water of the second reaction water tank 30 moves to the third reaction water tank 40 in the lower part of the second reaction water tank 30,
Characterized in that the treated water of the second reaction water tank (30) and the ozone are connected to each other by an upper flow tube which moves to the third reaction water tank (40) above the second reaction water tank (30) 3. The method of claim 2,
The treated water collecting space 61 is installed at a lower position than the first to third reaction water tanks 20 to 40 and the first to third reaction water tanks 20 to 40 Has a larger capacity of water treatment capacity,
The third reaction water tank 40 and the treated water collection space 61 are connected to each other by a lower flow pipe through which the treated water moves to the treated water collecting space 61 and an upper flow pipe through which the treated water and the ozone move together,
The upper flow tube connecting the third reaction water tank (40) and the treated water collection space (61)
An upper flow tube for connecting the first reaction water tank 20 and the second reaction water tank 30 to each other and an upper flow tube for connecting the second reaction water tank 30 and the third reaction water tank 40 to each other Characterized in that the plasma water treatment apparatus The method according to claim 2 or 3,
The lower flow tube and the upper flow tube connecting the first reaction water tank 20 and the second reaction water tank 30,
The lower flow pipe and the upper flow pipe, which connect the second reaction water tank 30 and the third reaction water tank 40,
And a bypass valve (225, 235, 325.335) capable of directly discharging treated water or treated water and ozone to the treated water collecting space (61). The plasma water treatment apparatus An inflow pipe 10 into which the contaminated water flows by the pump 12;
And a plasma generator (21) which is supplied with the contaminated water from the inflow pipe (10) and whose inside is shielded from the atmosphere and which has been supplied with air and reacted with the plasma, A water tank 20;
The first reaction water tank 20 is connected to the first reaction water tank 20 and is supplied with the treated water. The inside of the first reaction water tank 20 is shielded from the atmosphere. The air, which has been reacted with the plasma, At least one intermediate reaction tank having a plasma generator (21) for discharging the gas to the reaction chamber;
A plasma generator connected to the intermediate reaction water tank for receiving treated water treated in the intermediate reaction water tank and having an interior shut off from the atmosphere and discharging ozone gas generated by reacting with the plasma with air in a bubble state, (21); And
And a discharge water tank (60) for collecting and discharging the treated water in the first reaction water tank (20), the intermediate reaction water tank and the final reaction water tank sequentially,
Between the first reaction water tank (20) and the intermediate reaction water tank, and between the intermediate reaction water tank and the final reaction water tank,
The lower flow tube through which the treated water moves and the upper flow tube through which the treated water and the ozone gas move together are connected to each other,
The discharge water tank (60) includes a treatment water collection space (61) at a lower portion thereof and a ozonation treatment unit (62) for purifying the air by absorbing ozone at an upper portion thereof and discharging the purified water to the atmosphere.
Characterized in that the treated water collecting space (61) has a capacity of treatment water larger than that of each of the first reaction tank (20), the intermediate reaction tank and the final reaction water tank 6. The method of claim 5,
The final reaction water tank and the treated water collecting space 61 are connected to each other by a lower flow pipe through which the treated water moves to the treated water collecting space 61 and an upper flow pipe through which the treated water and the ozone move together,
The upper flow tube connecting the final reaction water tank and the treated water collection space (61)
And an upper flow tube connecting the first reaction water tank (20) and the intermediate reaction water tank, and an upper flow pipe connecting the intermediate reaction water tank and the final reaction water tank to each other. The method according to any one of claims 1 to 3, 5, and 6,
The treated water collecting space 61 is installed at a lower position than the first to third reaction water tanks 20 to 40,
Wherein all the upper flow tubes are installed in a horizontal state.

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