KR20130026344A - Plasma sterilization method - Google Patents

Abstract

PURPOSE: A plasma sterilization method is provided to improve the survival rate of the young of fishes, to grow high-quality fishes, and to recycle a waste nutrient solution. CONSTITUTION: A plasma sterilization method includes: a plasma generator case(200) installed inside a plasma case(100); plural plasma generators installed inside the plasma generator case; and an air generator(110) installed closely to the plasma generator case. Water is supplied into the plasma generator case using a water inlet pipe for purifying the water using the plasma generators and discharging through a water collection pipe. A corrugated pipe(130) is connected to the upper side of the plasma generator case, and an activated charcoal case(140) and an exhaust fan(120) are installed on the corrugated pipe.

Description

Plasma sterilization method

The present invention relates to a plasma sterilization method, and more particularly, to a plasma sterilization method for installing a plurality of plasma generators inside a plasma case to sterilize bacteria in a fish farm, tuna, fish farm, hydroponic waste culture solution, and the like. will be.

In farms, medicines and sterilizers are used to keep fish healthy. Recently, many sterilization apparatuses for preventing environmental pollution have been developed. As a device for sterilizing bacteria in the water as described above in the prior art Patent Publication No. 10-2010-0003341, the water introduced from the outside or the storage water circulated in the device cotton, microfiber fiber, charcoal fiber, Water flows for primary treatment while meandering through a layer or storage case of at least one selected from silver nanofibers, ocher fibers, charcoal, sand, gravel, jade, elvan, zeolite, germanium, chitosan, and reed wood A storage water pretreatment filtration device having a partition wall and at least one selected from among ultraviolet sterilization lamps, ozone generators, and ultrasonic generators installed on the side or bottom by receiving the storage water passing through the storage water pretreatment filtration device through the partition wall are installed. Detoxification device for oxidizing and decomposing heavy metals and residual pesticides in water and sterilizing germs, and through the filter and detoxification device. To the, characterized in that consisting of the discharge pipe and the shut-off valve member to enable the external exhaust, circulation motor for circulating supply the number stored in the pre-filtering device again with water, filtered and Admiral device is disclosed.

     In addition, Patent Publication No. 10-0932377 (December 16, 2009) discloses a water treatment technique using plasma as a background art of the invention, generally water treatment technology is largely physical Can be divided into chemical treatment, biological treatment and multi-stage treatment. However, a lot of researches are currently being carried out to see a better water treatment effect beyond these technologies, and a lot of research is being conducted around a so-called advanced water treatment technology. In view of the above-described types of advanced water treatment technology, there are 1) an electrochemical method, 2) an electric and magnetic water treatment technology, 3) an ultraviolet water treatment technology, and 4) a plasma water treatment technology. It belongs to water treatment technology using plasma, and it is possible to treat harmful substances in water as well as harmful gases and odors in the atmosphere.

On the other hand, the conventional water treatment technology is agglomeration treatment, ozone oxidation treatment using ozone, activated carbon adsorption to adsorb soluble organic compounds and compounds, biological treatment by microorganisms, fenton oxidation process and the like are widely used. Among them, ozone is the most commonly used, and efforts are being made to apply ozone to environmental improvement and disease prevention in workplaces such as industrial wastewater and landfill leachate. This is because ozone has strong oxidizing power, which theoretically has the potential to completely decompose organic matter into CO ₂ and H ₂ O, and produces no by-products. However, the chemical characteristics and decomposition mechanism of ozone are gradually revealed. It is known that the reaction between ozone and some organic matters is selective or the reaction rate is slow.

     In order to overcome the shortcomings of the ozone treatment and the limitations of the conventional oxidation treatment process, an advanced oxidation treatment method which promotes the generation of OH radicals having much more powerful oxidizing power in water than the general oxidizing agent to purify contaminated water The Advanced Oxidation Process (AOP) is considered to be very effective for water treatment.

     Advanced oxidation process goes beyond the limitation of the conventional treatment method that directly decomposes organic substances from oxidant injected directly such as ozone, hydrogen peroxide, ultraviolet ray, etc., and combines several unit processes to combine artificially oxidizing OH radicals in water. It is an advanced oxidation treatment that produces and expects water treatment effects. OH Radical is an intermediate produced during the decomposition of ozone, and has a higher redox potential difference (2.80 [V]) than ozone itself. It readily targets unsaturated hydrocarbons and aromatic compounds, and in the case of halogenated compounds, replaces halogen elements. It may also be involved in degradation via pathways. After all, the ultimate goal of AOP is to maximize the concentration of these OH Radicals.

In addition, the types of AOP that can be applied to water treatment in a complex process include O ₃ / highpH, O ₃ / H ₂ O ₂ (Peroxone), O ₃ / UV, H ₂ O ₂ / UV, and the like. Underwater high voltage plasma discharge is being actively researched.

In addition, among the advanced water treatment technologies, water treatment technology using plasma is mainly used for removing harmful gases in the air environment field in the past as a low temperature plasma process. Recently, a new concept of water treatment technology has emerged as an advantage that does not occur, and discharges forming low temperature plasma include pulse streamer discharge, silent discharge, partial discharge, creepage discharge and corona discharge. Electric discharge research for water pollutant treatment has been actively conducted in the United States, Japan, the Netherlands, the Czech Republic, Russia and Canada since the late 1980s. The generation of high voltage pulse discharges in water or on the water surface initiates a variety of physical and chemical processes that produce UV, shock waves, and chemically active species such as H, O, OH, and H ₂ O ₂ , which occur close to the water surface. In the gas discharge, it is known that when oxygen is present in the background gas, high concentrations of ozone and active radicals are generated and easily dissolved in water to participate in the process of removing pollutants.

In particular, when air is used as the inlet gas of the plasma generator, the main reaction equation expected in the plasma generator is as follows, and radicals such as O ₃ , O, OH, H, N, and HO ₂ are generated and these unstable products are secondary. By reacting with pollutants or oxygen to form peroxide or a new type of radical, a chain oxidative decomposition reaction proceeds. Such oxidation reactions are difficult to decompose materials, harmful gases and odors in the air, sterilization of color and wastewater, etc. It can be widely applied to water purification.

N ₂ + e → N + N + e Equation 1

N ₂ + e → N ₂ ^- Equation 2

O ₂ + e → 2O + e Equation 3

O ₂ + e → O ₂ ^- Equation 4

H ₂ O + e → H + OH + e Equation 5

O + e → O ^- equation 6

O ₂ + H → HO ₂ Formula 7

H ₂ O + O → 2OH Equation 8

O + O ₂ → O ₂ Equation 9

N ₂ + O ₂ → N ₂ + ₂ O Equation 10

     At present, the plasma discharge technique for water treatment has been studied so much, and it is already proved by many academic experiments that it is very good effect when the plasma is added to the water has been recognized.

     However, to date, almost all technologies are very difficult to generate plasma due to the conductivity of water when plasma is generated in water, and short-circuit prevention technology must be applied. Electrodes on the surface of the surface for water surface discharge or electrodes coated with a coating film.

     These devices are difficult to install due to their large size and heavy weight, and have disadvantages due to high power consumption, high price, and difficulty in operation and maintenance.

     In addition, recently, techniques for generating discharge in water using various dielectrics have been studied, but problems such as short circuit or sudden decrease in discharge efficiency due to failure to maintain stable discharge in water are still occurring.

Accordingly, Patent Publication No. 10-0932377 relates to a water purification method using a high density underwater plasma torch as a solution thereof. As described in the Abstract, a plasma reactor is introduced into water to prevent deterioration of the reactor. In the water purification method using a high density underwater plasma torch to effectively transmit plasma energy by forming a strong electric field in the water surface and water, the method has an inner diameter of 1.0 ~ 20mm, an outer diameter of 5 ~ 20mm and a thickness of 0.5 ~ 5mm A transparent quartz tube having a length longer than the diameter of phosphorus standard, a conductive discharge electrode having a diameter inserted into the transparent quartz tube to secure an inner diameter and a discharge gap of the quartz tube, and an outer surface of the transparent quartz tube Meshes that form a high-density plasma region by contacting with and concentrating the maximum potential hardness at the conductive discharge electrode Underwater including a conductive counter electrode, an electrode tip assembled on top of the transparent quartz tube to fix the conductive discharge electrode to the inner central axis of the transparent quartz tube to maintain the gap distance, and a radial torch head having a gas inlet and a high voltage cable inlet. A first step of building a plasma reactor; A second step of increasing the fluidity of the plasma to be used by controlling the position and distance of the conductive discharge electrode and the mesh type conductive counter electrode inserted into the transparent quartz tube; A third step of stably generating and maintaining a plasma in water by blocking a converter with water by air or gas pressure injected through a regulator connected to the gas inlet; The conductive discharge electrode and the mesh type conductive counter electrode are connected to a terminal of a commercial electronic neon transformer to apply a power of 7 [kV] to 15 [kV] and 21.0 [kHz] to 23 [kHz] to generate a high density streamer plasma. A fourth step; And a fifth step of immediately injecting the air or gas injected in the third step into the water immediately after being activated in the high density plasma region, and at the lower end of the transparent quartz tube, activated radicals and gases emitted through the high density plasma region. And a sixth step of purifying the contaminated water quality by increasing the contact time and surface area of contact with the water through a dense porous bubble device generating micron-sized bubbles in order to increase the diffusion effect and the catalytic oxidation reaction. A water purification method using a high density underwater plasma torch is provided.

     However, the sterilization method by the ultraviolet sterilization lamp, ozone generator, and ultrasonic generator as described above does not exhibit sufficient and stable sterilization effect as desired in aquaculture farms, and conventional sterilization methods using plasma are also activated in the plasma region. Radicals, gases, and the like do not have good diffusion, and the catalytic oxidation reaction does not increase as much as desired, so that it is difficult to easily and reliably remove environmental pollutants.

Therefore, the present invention has been invented to solve the above problems, by sterilizing bacteria such as fish farms, sex fish, fry farms, hydroponic cultivation waste culture fluids, can raise high-quality fish, increase the survival rate of fry, and egg load is possible And, to provide a plasma sterilization method that can recycle all the waste nutrient solution.

The present invention relates to a plasma sterilization method, in the plasma sterilization method, the sterilization method is provided with a plasma generator cylinder 200 inside the plasma case 100, a plurality of plasma generators in the plasma generator cylinder 200 Install the air generator 110 adjacent to the plasma generator cylinder 200, supply water through the water supply pipe to the inside of the plasma case 100, purify by the plasma generator, and Characterized in that the purified water is discharged again through the water collection pipe.

The present invention can raise quality fish by sterilizing bacteria such as fish farms, sea urchins, fish farms, hydroponics waste culture liquids, increase the survival rate of fish, load eggs, and recycle all waste culture fluids. It works.

1 is a perspective view of the present invention plasma sterilizer
2 is a plan view of FIG. 1
Fig. 3 is a front view of Fig. 1
4 is a side view of FIG. 1
5 is a plasma torch photo of the present invention underwater installation
Figure 6 is the present invention underwater installation plasma torch cap cap
Figure 7 is a photograph of the present invention underwater installation plasma torch cap

The present invention relates to a plasma sterilization method, in the plasma sterilization method, the sterilization method is provided with a plasma generator cylinder 200 inside the plasma case 100, a plurality of plasma generators in the plasma generator cylinder 200 Install the air generator 110 adjacent to the plasma generator cylinder 200, supply water through the water supply pipe to the inside of the plasma case 100, purify by the plasma generator, and Characterized in that the purified water is discharged again through the water collection pipe.

In addition, a corrugated pipe 130 is connected to an upper portion of the plasma generator barrel 200 in the plasma case 100, and an active carbon tube 140 and an exhaust fan 120 are installed at the corrugated pipe 130, thereby providing the plasma generator. Filtering ozone from the air discharged from the, characterized in that it further comprises a method for discharging to the outside by the exhaust fan (120).

The present invention will be described in detail with reference to the accompanying drawings. 1 is a perspective view of the present invention plasma sterilizer, Figure 2 is a plan view of Figure 1, Figure 3 is a front view of Figure 1, Figure 4 is a side view of Figure 1, Figure 5 is a photograph of the plasma torch installed underwater, Figure 6 Inventive underwater installation plasma torch cap whole picture, Figure 7 is a photograph of the present invention underwater installation plasma torch cap.

     The present invention sterilizes bacteria by killing Escherichia coli, common bacteria, other bacteria and bacterial viruses in fish farms, larval farms, egg hatcheries, hydroponic cultivation liquor, etc. It can make a great contribution to the fisheries industry and horticultural crops by increasing the survival rate of fry, loading of eggs, and recycling of the whole nutrient solution.

By sterilizing germs that are deadly to fish, you can eat sterile meat. By treating nutrient solution, which is a chemical fertilizer, you can treat all waste nutrient solution that is water pollution, reduce eutrophication of water quality, and sterilize germs. Can be blocked by default.

     In the present invention, the sterilization method is provided with a plasma generator cylinder 200 inside the plasma case 100. The case is mainly in the shape of a square cylinder, and wheels are installed at the bottom and are movable. In addition, a plurality of plasma generators are installed in the plasma generator cylinder 200. And the air generator 110 is installed adjacent to the plasma generator cylinder 200.

In addition, an exhaust fan 120 is installed at an outer upper portion of the plasma case 100, and a corrugated pipe 130 connected to the exhaust fan 120 is connected to an upper portion of the plasma generator cylinder 200 inside the plasma case 100. And, the corrugated pipe 130 is activated carbon barrel 140 is installed to remove the ozone from the discharged air.

     Plasma generator (plasma torch) used in the present invention is a transparent quartz tube is installed inside, and the conductive discharge electrode 20 is inserted into the transparent quartz tube 10, the conductive discharge electrode 20 is transparent in diameter It is made smaller than the quartz tube to have a discharge electrode gap.

     The conductive counter electrode 30, which forms a high density plasma region by concentrating the maximum potential hardness of the conductive discharge electrode 20, is spaced apart from the transparent quartz tube 10.

     In addition, a torch cap 40 is installed at an upper end of the transparent quartz tube 10, and an electrode tip hole 41 for fixing the conductive discharge electrode 20 to the inside of the transparent quartz tube 10 is provided in the torch cap, and a gas is provided. An injection hole 42 and a counter electrode inlet 43 through which the conductive counter electrode 30 is introduced are formed.

     In particular, the gas inlet 41 is composed of a vertical hole communicated to the lower side of the torch cap after the horizontal hole is drilled to the side of the torch cap. In the torch cap, three screw assembly holes penetrating the upper and lower surfaces are radially drilled.

     In addition, the conductive counter electrode 30 has a linear shape and is disposed in parallel to the transparent quartz tube 10 in which the conductive discharge electrode 20 is inserted, thereby forming a plasma region.

     And the lower end of the transparent quartz tube 10 is coupled to the air stone 50 for generating air.

     In addition, the core technical configuration of the water purification method using the high density underwater plasma torch of the present invention is a water plasma reactor (torch) of a simple structure, a regulator for injecting and regulating air or gas, and a high voltage, low power and low cost plasma It consists of a commercial electronic neon transformer for generation and a dense porous bubble device to promote the oxidation reaction.

     The underwater plasma reactor is a reactor means for generating a plasma in water, the torch is a transparent quartz tube 10 having a length longer than a diameter of a predetermined standard, and the quartz tube is inserted into the transparent quartz tube 10 A conductive discharge electrode 20 having a diameter capable of securing an inner diameter and a discharge gap of the conductive discharge electrode 20, and the outer surface of the transparent quartz tube 10 in contact with the outer surface of the conductive discharge electrode 20 to concentrate the maximum potential hardness at the conductive discharge electrode 20 A pair of electrodes serving as a conductive counter electrode 30 forming a plasma region, and assembled on top of the transparent quartz tube 10 to fix the conductive discharge electrode 20 to an internal central axis of the transparent quartz tube to reduce the gap distance. And a radial torch head having an electrode tip for holding and an air or gas inlet and a high voltage line inlet.

     The transparent quartz tube 10 is used for satisfying the required mechanical strength and emitting ultraviolet rays generated from insulation, and all the tubular bodies made of an insulating material can be used in place of the transparent quartz tube. In particular, acrylic tubes can be used. Of course, the use of quartz tube is more suitable for ultraviolet emission, and the inner diameter is around 1.0 ~ 20 [mm] (preferably 6mm), the outside diameter is about 5 ~ 20 [mm] (preferably 8mm) and the thickness is 0.5 ~ 5 [mm] inside and outside (preferably 2mm) was used, the length can be adjusted according to the environment, there is no limit of length and of course there is no particular limitation of size.

     Therefore, it can be used even when the quartz tube is smaller or larger.

     In addition, the conductive discharge electrode 20 and the conductive counter electrode 30 can be used as long as the conductive material, the conductive counter electrode 30 is made of a corrosion-resistant metal material, 10 [cm] to increase the discharge efficiency A length of about 25 [cm] (preferably 15 [cm]) is most suitable.

     Here, the voltage applied to the conductive discharge electrode 20 and the conductive counter electrode 30 may be used as long as it is a power source capable of generating a higher withstand voltage starting from about 7 [kV]. It can be applied freely within its scope. In addition, the 7 [kV] may adjust the size of the device to enable operation even below. This allows for custom fabrication to match the power capacity and requirements.

     In addition, in order to prevent electric field concentration at the tip end of the conductive discharge electrode 20 and generate stable and high-density plasma, the height of the conductive counter electrode 30 is set to 2 to the tip end of the conductive discharge electrode 20. It is preferable to locate at the top of 7 [mm].

     In addition, the diameter of the conductive discharge electrode 20 should be smaller than the inner diameter of the transparent quartz tube 10, but the relationship between the radius r of the conductive discharge electrode 20 and the radius R of the inner diameter of the transparent quartz tube R / r ≒ 3 or more. This is because the electric field strength of the inner electrode surface changes according to the inner radius of the outer electrode and the size of the radius of the inner electrode, and is intended to stably generate streamer discharge via the corona.

     In addition, the radial torch head 40 is located on the top of the transparent quartz tube 10, and should be used as an insulating material capable of cushioning to prevent breakage of the transparent quartz tube. In addition, through the electrode tip 41 and the regulator for fixing the conductive discharge electrode 20 to the inner central axis of the transparent quartz tube 10 to adjust the insertion length to form an even discharge region in the reactor A gas inlet 42 for injecting gas or air into the space between the conductive discharge electrode 20 and the inner diameter of the transparent quartz tube 10, and a high voltage cable inlet for applying power to the conductive counter electrode 30 in water. have. The distance between the conductive wire discharge electrode 20 and the high voltage cable inlet port is at least 15 [mm] or more to prevent loss of output voltage, short circuit and corona loss.

     On the other hand, a useful feature of the present invention, first, the insertion length of the conductive discharge electrode 20 in the transparent quartz tube 10 and the position and distance of the conductive counter electrode 30 can be adjusted to the density of the plasma or generation of plasma The generation area can be kept constant by making the type, intensity, and generation in a straight line. That is, there is no restriction in the plasma generation region because the high density plasma region is kept constant, and the discharge line is also applicable to the use environment or situation, so the fluidity in use is large.

     Next, when the high-density underwater plasma torch of the present invention is applied to water treatment, a high density porous bubble device may be installed at the lower end of the transparent quartz tube 10 to rapidly increase the water purification effect. The dense porous bubble device generates a micron-sized bubble, so long as it can increase the contact surface area with water, it can be used or manufactured in the existing products, and the type of gas that can be used in the present invention is also special. There is no limit

Since it can be used appropriately according to the environment, there is an advantage that various changes can be made depending on the use situation.

     Next, the main active mechanism of the plasma in the present invention, the conductive discharge electrode 20 inside the transparent quartz tube 10 and the conductive counter electrode provided on the outer surface of the transparent quartz tube 10 and in direct contact with water The transparent quartz tube 10 is present between the 30 and the inside of the transparent quartz tube 10, that is, the inner diameter of the transparent quartz tube 10 and the transparent quartz tube 10 and are inserted into the transparent quartz tube 10. Injecting gas or air into the space formed between the outer diameter of the conductive discharge electrode 20 located in the center of the inner diameter by the pressure of the inside of the transparent quartz tube 10 and the conductive discharge electrode 20 By blocking the converter by creating a space between the lower end and the water, it prevents a short circuit between the conductive discharge electrode 20 and the water and at the same time generates a plasma in the space.

At this time, plasma is generated in the transparent quartz tube 10.

     First, since the conductive counter electrode 30 provided on the outer surface of the transparent quartz tube 10 is in direct contact with water, a material body plays a role of one conductive electrode, so that charging occurs and discharges in the air. One of the glows or streamers is formed. It is not necessary to activate a gas or air injected into the space between the transparent quartz tube 10 and the conductive discharge electrode 20.

     The regulator is a means for injecting and regulating air or gas, and adjusting and injecting gas or air into the space between the transparent quartz tube 10 and the conductive discharge electrode 20 of the underwater plasma reactor.

     In addition, the commercial electronic neon transformer is a high voltage applying means for generating a plasma, and the conductive discharge electrode 20 and the conductive counter electrode 30 are 7 [kV]-15 [kV], 20.0 [kHz]-23 [ kHz].

     Hereinafter, the action to stably generate the high density plasma of the present invention in water will be described in more detail. The power source used in the present invention is a commercial electronic neon transformer having a high frequency of 20.0 [kHz] to 23 [kHz]. Pulse AC power supply. When a power is applied between the conductive discharge electrode 20 and the conductive counter electrode 30 with a dielectric tube (transparent quartz tube 10) applied, the charge is caused by the capacitance of air and the dielectric tube (transparent quartz tube 10). Current, leakage current due to insulation resistance, and current for supplying dielectric loss are important in this case. The dipole conduction current generated by the phenomenon in which the dipole molecules try to turn in the direction of the electric field is important. This current does not flow with respect to the DC voltage when the dipole molecules are turned in the direction of the electric field, but when the power supply used in the present invention is applied, the dipole molecules correspond to the power source frequency by switching the polarity of the alternating field. It is turned in that direction and a current flows in the dielectric, and since the dipole molecules vibrate, friction and electric field effects with adjacent water molecules occur. In addition, when the height of the conductive counter electrode 30 is present at the lower end of the tip of the conductive discharge electrode 20, an electric field is concentrated at the tip of the conductive discharge electrode 20 and the arc discharge occurs. In addition, the efficiency of the non-discharge area increases, and the efficiency decreases. When exposed to the water or water particles and the liquid level introduced into the transparent quartz tube 10, the vibration of the liquid level, a portion of the surface rises or recesses, and the insulation is easily broken. Therefore, by placing the height of the conductive counter electrode 30 at the top of 2 [mm] to 7 [mm] at the tip end of the conductive discharge electrode 20, the electric field concentration coefficient is alleviated to maintain a stable discharge area.

     Therefore, a conductive phenomenon occurs between the conductive discharge electrode 20 and the conductive counter electrode 30 to generate a high density plasma and to form a strong electric field in water to efficiently inject plasma energy into water.

     In addition, the conventional technique of generating plasma in water is a very inefficient treatment method because a short circuit occurs due to conductive water when the electrode is submerged in water or a discharge space is limited in the case of water surface discharge. Insulation breakage occurs due to inconsistent length, so use a very expensive pulse power supply or dielectric coated electrode. Due to the expensive equipment and difficulty of operation and installation, it is not generalized, whereas in the present invention, the conductive discharge electrode 20 and the electric path between the water are blocked to stably generate a high density plasma, and are generated by streamer discharge. Since only the amount of charged charge transfers plasma energy to the water, a short circuit does not occur, and only the amount of charge generated in the streamer discharge saturates the current, thereby generating a stable plasma that does not exceed the capacity of the power supply. This allows continuous plasma energy transfer.

     On the other hand, the pressure of the air or gas and the magnitude of the voltage is a very important factor because it greatly affects the intensity of the plasma. That is, on the basis of Passen's law and towngent theory, the number of collisions and the pressure of the particles and the distance between the electrodes (the conductive discharge electrode 20 and the conductive counter electrode 30) must be very important factors for plasma generation. The distance between the electrodes (the conductive discharge electrode 20 and the conductive counter electrode 30) is simply controlled and the plasma intensity can be adjusted by appropriately adjusting the distance of the electrodes (the conductive discharge electrode 20 and the conductive counter electrode 30) as necessary. It is natural to be able to control. On the other hand, the separation distance between the quartz tube and the counter electrode is about 15 ~ 35mm. In addition, since plasma is strictly natural energy, it is difficult to assume that it is an engineering because it is not linear as in power engineering or electromagnetics.

Therefore, controlling the intensity of the plasma by adjusting the strength of the voltage, air, and gas pressure can be very flexible, so that the user must adjust the intensity of the voltage and gas pressure appropriately to obtain the appropriate intensity of the plasma.

In addition, the present invention generates a mixture of H +, O ₃ , radicals, and ions and these by-products are directly injected into the water to generate a large amount of active species, such as high concentrations of OH, H ⁺ , H ₂ O ₂ , halo and various radicals In addition, ultraviolet rays and plasma energy radiated between the transparent quartz tube 10 and the conductive counter electrode 30 may be directly irradiated to the object to be treated.

     The dense porous bubble device is a means for promoting an oxidation reaction, which is connected to the lower end of the transparent quartz tube 10 and generates bubbles of a micron size in order to increase the contact oxidation reaction by increasing the contact time and the contact surface area with water. Let's do it. In other words, bubbles containing a large amount of highly active radicals generated through high-density plasma do not clump together and are finely divided to drift in water.

Therefore, the contact time with water and the surface area is increased, so that the dissolution rate and the catalytic oxidation of high concentration active species can be greatly increased, so the treatment time is very fast and excellent effect in the treatment of environmental pollutants.

     The water purification method of the present invention is directed to the above-described preferred embodiment of the present invention, in which the plasma reactor is directly introduced into water to prevent deterioration of the reactor, and a strong electric field is formed on the water surface and in water to effectively transfer plasma energy. To build an underwater plasma reactor included in the high density underwater plasma torch generator according to.

     In addition, the fluidity of the plasma to be used is increased by controlling the position and distance of the conductive discharge electrode 20 and the conductive counter electrode 30 inserted into the transparent quartz tube 10.

     In addition, by blocking the path to the water by the air or gas pressure injected through the regulator connected to the gas inlet 42 to maintain a stable plasma generation in the water.

     In addition, the conductive discharge electrode 20 and the conductive counter electrode 30 are connected to a terminal of a commercial electronic neon transformer to apply power of 7 [kV] to 15 [kV] and 20.0 [kHz] to 23 [kHz] to achieve high density. It generates a streamer plasma.

     In addition, when the air or gas injected in the previous step is activated in the plasma region is injected into the water immediately.

     In addition, at the lower end of the transparent quartz tube 10, the contact time with water through a dense porous bubble device that generates bubbles of micron size in order to increase the diffusion effect and the contact oxidation method of the radicals and gases from the high density plasma. And increasing the contact surface area to purify the contaminated water.

As described above, the water purification method using the high density underwater plasma torch according to the preferred embodiment of the present invention includes an underwater plasma reactor having a simple structure, a regulator for injecting and regulating air or gas, and a commercial electronic for generating high voltage, low power, and low cost plasma. By constructing a compact porous bubble device that promotes the neon trans and oxidation reaction, it minimizes the cost of power and devises an underwater plasma reactor with a simple structure, making it easy to operate and install as well as easy to repair and repair in the event of failure. In addition, by generating the plasma by directly contacting the underwater plasma reactor with water, it is possible to prevent the deterioration of the reactor and to form a strong electric field in the water surface and the water to efficiently transmit plasma energy. In addition, by installing the high density porous bubble device 400 at the lower end of the transparent quartz tube 10, by increasing the contact time and the surface area of the contact with water, the diffusion effect of activated radicals and gases, etc., which have passed through the high-density plasma of the reactor And the catalytic oxidation reaction can be significantly increased.

     Therefore, the present invention sterilizes germs such as larval farms, sea urchins, larval farms, and hydroponic cultivation waste liquids, so it is not necessary to use a disinfectant, so that high-quality fish can be raised, survival of fry and hatching of eggs are possible. There is a remarkable effect to recycle all the waste nutrient solution.

100: plasma case 200: plasma generator barrel
110: air generator 120: exhaust fan
130: corrugated pipe 140: activated carbon barrel
44: screw assembly hole

Claims (2)

In the plasma sterilization method, the sterilization method is provided with a plasma generator cylinder 200 inside the plasma case 100, a plurality of plasma generators are installed inside the plasma generator cylinder 200, the plasma generator cylinder 200 The air generator 110 is installed adjacent to the filter, and the water is supplied through the water supply pipe to the inside of the plasma case 100, and after purification by the plasma generator, the purified water is discharged again through the water recovery pipe. Plasma sterilization method characterized in that According to claim 1, wherein the corrugated pipe 130 is connected to the upper portion of the plasma generator cylinder 200 in the plasma case 100, the activated carbon cylinder 140 and the exhaust fan 120 is installed in the corrugated pipe 130 Plasma sterilization method, characterized in that it further comprises a method for filtering ozone from the air discharged from the plasma generator, the exhaust fan 120 is discharged to the outside by the exhaust fan 120

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