KR101629202B1 - Ship for removing green or red tides using plasma - Google Patents

Abstract

An object of the present invention is to provide a green or red tide removing apparatus having a structure capable of effectively treating red tide or green tide occurring in a wide area such as a sea, a lake, and a river in a short time. Accordingly, the greenhouse or red tide removing apparatus using the plasma according to the present invention is characterized by comprising a vessel and a plasma water treatment system which is fixed to the vessel and which is located in the water below the vessel and destroys the organisms causing green alga or red tide in the fresh water or seawater, Wherein the plasma water treatment apparatus includes a tubular body having an inlet through which fresh water or seawater is introduced and an outlet through which the fresh water or the seawater is introduced and having a flow path connecting the inlet and the outlet thereof and the inlet facing the front of the vessel, And a plasma processor for converting the plasma-reacted air or gas into a plurality of bubbles and discharging the bubbles in the fresh water or seawater flowing in the flow path.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a plasma-

The present invention relates to a green tide or a red tide removing apparatus using plasma. More particularly, the present invention relates to a green tide or a red tide removing apparatus using a plasma, in which a water treatment apparatus generating plasma is installed at a lower portion of a ship, thereby killing plankton, To a device for removing.

In rivers and lakes where water retention time is long, eutrophication conditions are likely to occur due to changes in surrounding conditions, and such conditions cause water-bloom, which is an overgrowth of phytoplankton. Such a green algae phenomenon causes deterioration of water quality of rivers and lakes, deterioration of water availability, odor generation around lakes, and death of aquatic creatures.

On the other hand, in the coastal waters, due to the development of coastal cities and industries, various pollutants have been infused into the waters, causing rapid growth of red tide creatures, seriously affecting fish farms and fishing activities. In recent years, phytoplankton is mainstream in the occurrence of red tide, and it is in a trend of high density and multiple phenomenon.

1 shows a red tide processing apparatus using a conventional plasma as disclosed in Korean Patent Laid-Open No. 10-2006-0080487.

Pulse power is applied to the electrodes 3a and 3b through the pulse power supply means 1 capable of injecting high voltage pulse power and the switching device 2 capable of controlling the supply of pulse power. Accordingly, the high voltage pulse power is directly applied to the inside of the reactor 4 to cause the arc discharge 5 in the water. When arc discharge (5) is generated in the water, a strong shock wave of several thousand atmospheric pressure or more is generated, and the plankton causing the red tide can be effectively destroyed and treated.

However, the arc discharge in water is unstable in its state of occurrence, and the discharge between the electrodes 3a and 3b can be prevented. When the interval is large, there is a problem that discharge is difficult to occur.

As a result, the effect of treating the red tide is not stabilized, and there is a limit to water treatment of a large amount of seawater in a large area where red tide occurs. It is also possible to install a large amount of red tide or green tide It is not suitable for use in applications.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a green or red tide removing apparatus having a structure capable of effectively treating red tide or green tide occurring in a wide area such as sea, .

Accordingly, the greenhouse or red tide removing apparatus using the plasma according to the present invention is characterized by comprising a vessel and a plasma water treatment system which is fixed to the vessel and which is located in the water below the vessel and destroys the organisms causing green alga or red tide in the fresh water or seawater, Wherein the plasma water treatment apparatus includes a tubular body having an inlet through which fresh water or seawater is introduced and an outlet through which the fresh water or the seawater is introduced and having a flow path connecting the inlet and the outlet thereof and the inlet facing the front of the vessel, And a plasma processor for converting the plasma-reacted air or gas into a plurality of bubbles and discharging the bubbles in the fresh water or seawater flowing in the flow path.

The plasma processor may further include a dielectric tube installed in the flow path so as to extend in a direction perpendicular to the longitudinal direction of the flow path and in which air or gas flows inside and a discharge electrode is provided therein, A power supply applying means for generating a plasma in the dielectric tube by applying power to the discharge electrode and the counter electrode so as to be electrically connected to the fresh water or seawater flowing through the dielectric tube; Or a bubble generator in which the air or gas is converted into a large number of bubbles and discharged from among the fresh water or seawater flowing through the flow path while passing through the air or gas while being supplied with a gas, Are all supported by the walls of the tubular body.

According to another aspect of the present invention, there is provided an insulation head fixed to a wall of the tubular body at one end of the dielectric tube, and one end of the dielectric tube is inserted into the insulation head, And the other end of the dielectric tube is supported by the wall of the tubular body by coupling the other end of the dielectric tube to the fixture fixed to the wall of the tubular body at the other end of the dielectric tube.

Further, the present invention is characterized in that the bubble generator is coupled to the fixture and the air or gas is injected into the flow path, and a gas passage through which the air or gas flows from the other end of the dielectric tube to the bubble generator, As shown in FIG.

Further, the present invention is characterized in that a cover for protecting the dielectric tube from the fresh water or seawater flowing from the inlet of the flow path is provided in front of the dielectric tube, And an outer surface which is in contact with the fresh water or seawater flowing in a cross section perpendicular to the longitudinal direction is arc-shaped having a curvature similar to that of the dielectric tube, and covers the front of the dielectric tube along the longitudinal direction of the dielectric tube And is fixed by a wall of the tubular body.

According to another aspect of the present invention, the cover body is provided with a mirror surface on the inner surface facing the dielectric tube, and reflects ultraviolet rays generated from the dielectric tube.

The present invention is further characterized in that it further comprises an agitator installed in the flow path so that the plurality of bubbles can be mixed with the fresh water or seawater in the flow path.

The bubble collecting tube is connected to the vessel so that a large number of bubbles generated in the plasma processor can be collected while rising toward the rear side of the tubular body at the rear end of the tubular body, And an activated carbon filter for purifying ozone contained in the bubbles is installed.

According to another aspect of the present invention, the outlet of the tubular body is provided in a downwardly inclined direction to discharge the fresh water or seawater introduced into the inlet downward.

According to another aspect of the present invention, there is provided a plasma water treatment system comprising: a vessel; and a plasma water treatment apparatus fixed to the vessel to kill living organisms causing green alga or red tide in fresh water or seawater introduced into the vessel below the vessel, The water treatment apparatus includes a support provided in the water in an annular shape so that a through hole is directed to the front of the ship, and a desalination unit that converts air or gas, which is installed in the support and reacts with plasma, into a large number of bubbles, And a plasma processor for discharging the plasma in the seawater.

In the plasma processing apparatus, the plasma processor extends in a direction perpendicular to the direction in which the through-hole faces the fresh water or seawater flowing through the through-hole, and has both ends fixed to the support. Air or gas flows inside, A power supply applying means for applying a power to the discharge electrode and the counter electrode to generate plasma in the dielectric tube, a power supply applying means for applying a power to the discharge electrode and the counter electrode to generate plasma in the dielectric tube, And a bubble generator connected to the dielectric tube and converting the air or gas into a plurality of bubbles and discharging the bubbles from fresh water or seawater flowing through the through holes while passing the air or gas, And the other end are supported by the support Other features.

The greenhouse or red tide removing apparatus according to the present invention is configured to convert air or gas that has been plasma-reacted in a flow path of a tubular body fixed to a ship into a large number of bubbles and discharge it into fresh water or seawater.

Accordingly, since the tubular body forms a reaction space in which minute bubbles containing ozone and the like generated in the plasma processor stay in a limited space for a predetermined time, the tubular body is frequently brought into contact with living organisms causing green or red tides contained in fresh water or seawater There is an effect that contact can be made with a high density and surely can be killed.

In addition, according to the present invention, a plasma processing apparatus is installed in a tubular body to discharge plasma-reacted air or gas in a fluid flowing in a flow path, and transmit ultraviolet rays into water in a flow path to more effectively perform water treatment.

In addition, since the dielectric tube of the plasma processor is installed in the tubular body, the dielectric tube may be damaged by the hydraulic pressure of the flowing fluid. However, since the tubular body is supported at both ends of the dielectric tube, Can be prevented or minimized.

In addition, in the present invention, a cover body is provided to prevent breakage of the dielectric tube due to water pressure, and the cover body is arranged to cover the front of the dielectric tube along the longitudinal direction of the dielectric tube. Accordingly, since the cover receives the drag force by the water pressure, the drag force directly received by the dielectric tube is reduced, and the cover having the arc-shaped outer surface encloses the dielectric tube. Thus, the cross- So that the drag coefficient can be minimized and the drag caused by the fluid can be minimized. This is a structure that prevents breakage of the dielectric tube. Further, a mirror surface is formed on the inner surface of the cover body to prevent ultraviolet rays emitted from the transparent dielectric tube from covering the cover body so that the effect such as the reduction of the plankton caused by the red tide or the green tide is not halved. Thus, by reflecting the ultraviolet rays on the mirror surface, it is possible to make full use of the effect of killing the ultraviolet rays or killing plankton which is the cause of the algae.

In addition, in the present invention, the outlet of the tubular body is installed in an oblique direction directed downward, so that fresh water or seawater introduced into the inlet can be discharged downward. This allows flow to occur in the lower stream of rivers and lakes, so that the causative organisms such as green tides in the lower layer float to the upper layer near the water level and mix evenly.

Further, the present invention further includes a stirrer so that a plurality of bubbles can be mixed with fresh water or seawater in the flow path of the tubular body. Accordingly, the rotating stirring vane allows a large amount of minute bubbles to be mixed evenly with fresh water or seawater, and increases the frequency with which microbubbles containing ozone, radical, etc. come into contact with the causative organism of a green or red tide, It is possible to further improve the effect of killing the organism causing the green tide or red tide.

1 is a block diagram of a conventional red tide processing apparatus
2 is an overall configuration diagram of a green or red tide removing apparatus using plasma according to the first embodiment of the present invention
3 is a perspective view of a plasma water treatment apparatus in a green or red tide removing apparatus using plasma according to the first embodiment of the present invention.
4 is a cross-sectional view of a plasma water treatment apparatus in a green or red tide removing apparatus using plasma according to the first embodiment of the present invention
5 is an overall configuration diagram of a green or red tide removing apparatus using plasma according to the second embodiment of the present invention
6 is an overall configuration diagram of a green or red tide removing apparatus using plasma according to a third embodiment of the present invention
7 is an overall configuration diagram of a green or red tide removing apparatus using plasma according to a fourth embodiment of the present invention
8 is a perspective view showing a cover body and a dielectric tube in a green or red tide removing apparatus using plasma according to the fourth embodiment of the present invention;
9 is an explanatory view for explaining the installation state and operation of the cover body and the dielectric tube in the green or red tide removing apparatus using the plasma according to the fourth embodiment of the present invention
10 is a diagram showing a front mounting state of a stirrer in a green or red tide removing apparatus using plasma according to a fourth 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 a view showing the overall configuration of a green or red tide removing apparatus using plasma according to a first embodiment of the present invention. FIG. 3 is a schematic view showing a plasma or red tide removing apparatus using plasma according to the first embodiment of the present invention. Fig.

2 and 3, a green or red tide removing apparatus using plasma according to the first embodiment of the present invention comprises a ship 10 and a ship 10 which is fixed to the ship 10, And a plasma water treatment apparatus 20 for killing the organisms causing green alga or red tide in the fresh water or seawater introduced into the apparatus.

The plasma water treatment apparatus 20 fixed to the ship 10 kills the algae or red tide creatures in the fresh water or seawater flowing into the plasma water treatment apparatus 20 while proceeding with the progress of the ship 10 have. In the plasma water treatment apparatus 20, a large amount of fine bubbles containing ozone, radicals, and the like are generated by plasma treatment in order to kill the greenhouse or the creatures causing red tide.

The plasma water treatment apparatus 20 has an inlet 211 into which fresh water or seawater flows and an outlet 212 through which it is discharged and has a flow path 213 connecting the inlet 211 and the outlet 212, And a plasma torch 211 for converting the plasma reacted air or gas into a large number of bubbles and discharging the plasma or the gas in fresh water or seawater flowing through the flow path 213, And a processor 23.

The tubular body 21 is formed of a hollow tube and is formed with a flow path 213 through which fluid flows between the inlet 211 and the outlet 212. An inlet 211 is formed in front of the vessel . Accordingly, when the ship 10 progresses slowly, fresh water or seawater of river or lake flows into the inlet 211 and is discharged to the outlet 212 through the flow path 213.

In the tubular body 21, the minute bubbles containing ozone or the like generated in the plasma processor 23 are frequently brought into contact with living creatures of green or red tide contained in fresh water or seawater, Thereby forming a reaction space for staying therein. That is, in the flow path 213 of the tubular body 21, the minute bubbles containing ozone and the like can stay in contact with the causative organisms of the green or red tide for a predetermined period of time and can surely kill it.

The plasma processor 23 may be installed in the tubular body 21 to discharge only air or gas that is plasma-reacted in the vessel 10 to the flow path 213 of the tubular body 21, It is effective to spray the air or gas that has undergone plasma reaction in the fluid flowing in the flow path 213 and to transmit the ultraviolet ray into the water in the flow path 213 to perform water treatment.

The plasma processor 23 generates plasma or the like, thereby generating air or gas in which ozone and OH radicals are generated, such as ozone and OH radicals, in the form of bubbles in fresh water or seawater passing through the flow path 213, And further purifies the water quality by oxidizing and decomposing pollutants. In addition, the plasma generated in the water generates ultraviolet rays, shock waves, etc., and transmits them to the water, thereby killing the algae or red tide creatures in the water.

The plasma processor 23 is preferably arranged such that a plurality of plasma processors 23 are disposed along the longitudinal direction of the tubular body 21 in order to increase the efficiency of the plasma water treatment.

4, each of the plasma processors 23 is installed in the flow path 213 so as to extend in a direction perpendicular to the longitudinal direction of the flow path 213, and air or gas flows in the inside thereof A counter electrode 233 provided so as to be in electrical contact with fresh water or seawater flowing in the flow path 213 and a counter electrode 233 provided to the discharge electrode 232 and the counter electrode 233 A power supply unit 234 for generating plasma in the dielectric tube 231 by applying power to the dielectric tube 231 and a water supply unit 234 connected to the dielectric tube 231 to supply fresh water or sea water And a bubble generator 236 in which air or gas is converted into a plurality of bubbles and discharged. The dielectric tube 231 is supported at one end and the other end by walls of the tubular body 21.

The dielectric tube 231 is used for discharge and the wall of the tube is a dielectric located between the discharge electrode 232 and the counter electrode 233 so that plasma can be generated at the discharge electrode 232. As a concrete material, a transparent quartz tube is the most preferable, and the transparent quartz tube penetrates ultraviolet rays generated from the plasma, and kills the algae or red-tide creatures in the fluid.

Air or gas is supplied to the dielectric tube 231 by the compressor 235 so that the air or the gas flows through the dielectric tube 231 with a constant pressure and passes through the bubble generator 236.

Since the dielectric tube 231 can be damaged by the fluid pressure in the flow path 213 in which the flow is continuously generated, both ends of the dielectric tube 231 are supported by the wall of the tubular body 21.

An insulating head 238 fixed to the wall of the tubular body 21 is installed at one end of the dielectric tube 231 and one end of the dielectric tube 231 is inserted into the insulating head 238, Is supported by the wall of the tubular body (21).

The other end of the dielectric tube 231 is coupled to a fixture 237 fixed to a wall of the tubular body 21 so that the dielectric tube 231 can be supported by the wall of the other tubular body 21.

The fixture 237 is a part fixed to the tubular body 21 and is provided with a bubble generator 236 exposed to the flow path 213 in the tubular body 21, A gas passage 237a communicating with the stage is formed inside to guide the air or gas to flow into the bubble generator 236. [

The fixture 237 is provided with an insulating discharge electrode gripper 237b for supporting the lower end of the discharge electrode 232. [ The material of the discharge electrode clippers 237b is most preferably ceramic.

The discharge electrode 232 is installed in a straight rod shape and extends to the discharge electrode gripping member 237b and the discharge electrode gripping member 237b is held and fixed so that the discharge electrode 232 can be positioned at the center of the dielectric tube 231 Thereby preventing the discharge electrode 232 from being deflected.

When the discharge electrode 232 provided inside the dielectric tube 231 generates a plasma discharge in the dielectric tube 231 between the discharge electrode 232 and the counter electrode 233, When the position is deflected, a portion where the plasma discharge locally concentrates on the dielectric tube 231 occurs, and the dielectric tube 231 breaks down.

Therefore, by fixing the discharge electrode 232 located at the center of the dielectric tube 231 by fixing the fixing member 237, it is possible to prevent the occurrence of the deflection of the plasma.

The counter electrode 233 is a conductive material and is installed in the fluid in the tubular body 21. The conductive counter electrode 233 may function as water as a whole, so that the conductive counter electrode 233 can be provided in contact with the dielectric tube 231 when installed adjacent to the dielectric tube 231. The wall surface of the tubular body 21 may be used as the counter electrode 233 without providing the counter electrode 233 separately.

The power applying unit 234 uses a commercial electronic neon transformer having a high voltage pulse AC power source at a frequency of 22.5 to 23 kHz as a power source connected to the discharge electrode 232 and the counter electrode 233 to generate plasma therebetween .

The bubble generator 236 is connected to a lower portion of the dielectric tube 231 and receives the plasma-treated air or gas to discharge the air or gas in the form of fine bubbles in the flow path 213. When the air or gas is discharged into the water as it passes through the bubble generator 236, the air or gas is ejected through the nozzle hole in the form of fine bubbles. The bubble generator 236 may be a known porous bubble generator having a porous structure and capable of generating a large number of bubbles when air passes through the bubble generator 236.

The bubble generator 236 is coupled to the fixture 237 and guides a gas passage 237a formed in the fixture 237 to flow air or gas from the other end of the dielectric tube 231 to the bubble generator 236 have.

The greenhouse or red tide removing apparatus of the present embodiment described above is configured to convert air or gas that has been plasma-reacted in the flow path of a tubular body fixed to a ship into a large number of bubbles and discharge it into fresh water or seawater.

Accordingly, since the tubular body forms a reaction space in which minute bubbles containing ozone and the like generated in the plasma processor stay in a limited space for a predetermined time, the tubular body is frequently brought into contact with living organisms causing green or red tides contained in fresh water or seawater There is an effect that contact can be made with a high density and surely can be killed.

In addition, according to the present invention, a plasma processing apparatus is installed in a tubular body to discharge plasma-reacted air or gas in a fluid flowing in a flow path, and transmit ultraviolet rays into water in a flow path to more effectively perform water treatment.

Meanwhile, FIG. 5 shows a green or red tide removing apparatus using plasma according to a second embodiment of the present invention.

5, in the present embodiment, the tubular body 21 of the plasma water treatment apparatus 40 of the above-described first embodiment is arranged so that the through hole 413 is annularly shaped in the water To the support 41 provided on the support base 41. As shown in Fig.

The supporting body 41 has a structure corresponding to a tubular body 21 having a short length and a plurality of plasma processing units 43 can be installed at a lower portion of the vessel 10, Since the size and weight of the device 40 are small, it is easy to install the device 40 in the field.

The configuration of the plasma processor 23 of the present embodiment is the same as that of the first embodiment described above.

Meanwhile, FIG. 6 shows a green or red tide removing apparatus using plasma according to the third embodiment of the present invention.

6, the tubular body 51 on which the plasma processor 53 is installed is fixed to the vessel 10, and on the upper side of the rear end of the tubular body 51, The bubble collecting pipe 517 is connected to the ship 10 so that a large number of bubbles generated in the bubble collecting pipe 53 can flow upward to be collected and collected.

The outlet 512 of the tubular body 51 is provided so as to face downward in an inclined direction so as to discharge the fresh water or seawater introduced into the inlet 511 downward.

The bubble collecting pipe 517 is connected to the ship 10 on the upper side of the rear end of the tubular body 51 and is formed by a large amount of minute bubbles generated in the plasma processor 53 flowing slowly toward the rear of the flow path 513 And collects the microbubbles in the region and delivers the microbubbles to the vessel 10.

The vessel 10 is provided with an activated carbon filter 120 connected to the bubble collecting pipe 517 for purifying the ozone contained in the bubbles. The collected fine bubbles are purified by the activated carbon filter 120, Lt; / RTI >

Accordingly, since the bubbles containing ozone are not directly discharged to the atmosphere, adverse effects that ozone may have on the ship's ship or the surrounding area can be eliminated or minimized.

The outlet (512) of the tubular body (51) is disposed in a downward sloping direction, so that fresh water or seawater introduced into the inlet (511) can be discharged downward. This allows flow to occur in the lower part of the river or lake, so that the causative organisms such as green algae in the lower layer are floated to the upper layer near the water surface and mixed evenly, so that water treatment can be performed evenly in the whole river and lake.

Meanwhile, FIG. 7 illustrates a green or red tide removing apparatus using plasma according to the fourth embodiment of the present invention.

7, in this embodiment, a cover body 60 for protecting the dielectric tube 231 from fresh water or seawater flowing from the inlet 511 of the flow path 513 is provided in front of the dielectric tube 231 Respectively.

The outer surface 61 of the cover body 60, which is spaced apart from the front surface of the dielectric tube 231 and strikes against fresh water or seawater flowing in a cross section perpendicular to the longitudinal direction, Is curved and is arranged to cover the front of the dielectric tube 231 along the longitudinal direction of the dielectric tube 231 and is fixed by the wall of the tubular body 51.

The cover body 60 is configured to reflect ultraviolet rays generated from the dielectric tube 231 by providing a mirror surface 62 on the inner surface facing the dielectric tube 231.

Fig. 8 is a perspective view showing the cover body 60 and the dielectric tube 231 according to the present embodiment. Fig. 9 is a perspective view showing the state and action of the cover body 60 and the dielectric tube 231 according to the present embodiment Fig.

8 and 9, a cover body 60 for protecting the dielectric tube 231 from the fluid flowing from the inlet 211 of the flow path 213 is provided in front of the dielectric tube 231 .

In general, a quartz tube is often used as the dielectric tube 231, but the fluid flowing in the flow path 213 has a water pressure, so that there may occur a case where the stone connection is broken due to the fluctuation of the water pressure.

The cover body 60 has an outer surface 61 which is spaced apart from the front surface of the dielectric tube 231 and which collides with a fluid flowing in a cross section perpendicular to the longitudinal direction of the dielectric tube 231, And is arranged to cover the front of the dielectric tube 231 along the longitudinal direction of the dielectric tube 231 and is fixed by the tubular body 51.

Accordingly, the drag force directly received by the dielectric tube 231 can be reduced by the cover body 60 taking charge of the drag force that the dielectric tube 231 receives by the water pressure. Particularly, since the cover body 60 having an arc-shaped cross section covers the dielectric tube 231 from the front, the combined cross section of the cover body 60 and the dielectric tube 231 is kept close to the circular shape, And minimizes the drag force acting on the dielectric tube 231 or the cover body 60, thereby preventing breakage of the dielectric tube 231.

On the other hand, a mirror surface 62 is provided on the inner surface of the cover body 60, that is, the surface facing the dielectric tube 231. This is because the ultraviolet rays emitted from the transparent dielectric tube 231 are blocked by the cover body 60 so that the killing effect of the plankton is not reduced by half, And the ultraviolet rays of the green tide or the red-blooming killing effect can be utilized as much as possible.

It is preferable that the mirror surface 62 has a reflection surface on which a plurality of planes are combined rather than a curved surface of the dielectric tube 231 on the inner surface of the cover body 60.

This is because when the mirror surface 62 is formed on the inner surface of the cover body 60 as a curved surface of the dielectric tube 231, a focus is formed on the inner surface of the dielectric tube 231 so that ultraviolet rays will be concentrated only in the local area, So that ultraviolet rays reflected as much as possible can be spread to the surroundings so as to enhance the effect of ultraviolet rays on the greenery or red-blooming.

The present embodiment further includes an agitator 70 installed in the flow path 513 so that a plurality of bubbles can be mixed with the fresh water or seawater in the flow path 513. [

The agitator 70 is preferably installed in the tubular body 51 behind the plasma processor 53.

7 and 10, a large number of minute bubbles can be mixed evenly with fresh water or seawater by the rotation of the stirring blades 72 by the electric motor 74, and fine bubbles including ozone, radicals, The frequency of contact with the causative organism can be increased and the reaction in the flow path 513 can be made uniform, which can further improve the effect of killing the organism causing the green alga or red tide.

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; Ship 110; Connector
120; Activated carbon filter 20; Plasma water treatment system
21; Tubular body 211; Entrance
212; Exit 213; Flow path
23; A plasma processor 231; Dielectric tube
232; A discharge electrode 233; Opposite electrode
234; Power applying means 236; Bubble generator
237; Fixture 237a; Gas passage
237b; Discharge electrode gripper 41; Support
511; Inlet 513; Flow path
517; Bubble collection tube 60; Cover body
61; Outer surface 62; Mirror face
70; Stirrer 72; Stirring wing
74; Electric motor

Claims (11)

A ship 10,
And a plasma water treatment device which is fixed to the vessel 10 and which is located in the water, and which kills the organisms causing green alga or red tide in the fresh water or seawater flowing in,
The plasma water treatment apparatus includes:
(211) having an inlet (211) and an outlet (212) through which fresh water or seawater flows and connecting the inlet (211) and the outlet (212) A tubular body 21 installed to face the front of the tubular body 21,
And a plasma processor (23) for converting the plasma-reacted air or gas into a plurality of bubbles and discharging the bubbles in the fresh water or seawater flowing in the flow path (213)
On the upper side of the rear end of the tubular body 21,
A bubble collecting pipe 517 is connected to the ship 10 so that a large number of bubbles generated in the plasma processor 23 can be collected while rising toward the rear side,
In the vessel 10,
And an activated carbon filter (120) connected to the bubble collecting pipe (517) for purifying ozone contained in the bubbles is installed. The method according to claim 1,
The plasma processor (23)
A dielectric tube 231 installed in the flow path 213 so as to extend in a direction perpendicular to the longitudinal direction of the flow path 213 and having air or gas flowing therein and having a discharge electrode 232 therein,
An opposite electrode 233 provided to be in electrical contact with the fresh water or seawater flowing in the flow path 213,
A power applying means 234 for applying a power to the discharge electrode 232 and the counter electrode 233 to generate plasma in the dielectric tube 231,
The air or gas is converted into a plurality of bubbles and discharged from among the fresh water or seawater flowing through the flow path 213 while being passed through the dielectric tube 231 and receiving the air or gas. Bubble generator 236,
Characterized in that the dielectric tube (231) has one end and the other end supported by walls of the tubular body (21) A ship 10,
And a plasma water treatment device which is fixed to the vessel 10 and which is located in the water, and which kills the organisms causing green alga or red tide in the fresh water or seawater flowing in,
The plasma water treatment apparatus includes:
(211) having an inlet (211) and an outlet (212) through which fresh water or seawater flows and connecting the inlet (211) and the outlet (212) A tubular body 21 installed to face the front of the tubular body 21,
And a plasma processor (23) for converting the plasma-reacted air or gas into a plurality of bubbles and discharging the bubbles in the fresh water or seawater flowing in the flow path (213)
The plasma processor (23)
A dielectric tube 231 installed in the flow path 213 so as to extend in a direction perpendicular to the longitudinal direction of the flow path 213 and having air or gas flowing therein and having a discharge electrode 232 therein,
An opposite electrode 233 provided to be in electrical contact with the fresh water or seawater flowing in the flow path 213,
A power applying means 234 for applying a power to the discharge electrode 232 and the counter electrode 233 to generate plasma in the dielectric tube 231,
The air or gas is converted into a plurality of bubbles and discharged from among the fresh water or seawater flowing through the flow path 213 while being passed through the dielectric tube 231 and receiving the air or gas. Bubble generator 236,
One end and the other end of the dielectric tube 231 are supported by walls of the tubular body 21,
An insulating head fixed to a wall of the tubular body 21 is installed at one end of the dielectric tube 231 and one end of the dielectric tube 231 is inserted into the insulating head, Is supported by the wall of the tubular body (21)
The other end of the dielectric tube 231 is coupled to the fixing member 237 fixed to the wall of the tubular body 21 at the other end of the dielectric tube 231 so that the other end of the dielectric tube 231 is connected to the tubular body 21 ) Of the greenhouse or the redeye removing apparatus using plasma The method of claim 3,
The bubble generator 236 is coupled to the fixture 237 to inject the air or gas into the flow path 213,
And a gas passage 237a through which the air or gas flows from the other end of the dielectric tube 231 to the bubble generator 236 is formed in the fixture 237. [ 3. The method of claim 2,
A cover body 60 for protecting the dielectric tube 231 from the fresh water or seawater flowing from the inlet 211 of the flow path 213 is provided in front of the dielectric tube 231,
The cover body (60)
And has a predetermined gap from the front surface of the dielectric tube 231,
An outer surface 61 which is in contact with the fresh water or seawater flowing in a cross section perpendicular to the longitudinal direction is arc-shaped having a curvature similar to that of the dielectric tube 231,
And is arranged to cover the front of the dielectric tube (231) along the longitudinal direction of the dielectric tube (231)
Characterized in that it is fixed by a wall of the tubular body (21) 6. The method of claim 5,
The cover body (60) is provided with a mirror surface (62) on the inner surface facing the dielectric tube (231), and reflects ultraviolet rays generated from the dielectric tube (231) Device delete delete 7. The method according to any one of claims 1 to 6,
Wherein the outlet (212) of the tubular body (21) is installed in an oblique downward direction to discharge the fresh water or seawater introduced into the inlet (211) downward. delete delete

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