KR20220058726A - Quantum energy generator equipped with discharge function for gas, liquid and fluid treatment - Google Patents

Abstract

Disclosed is a quantum energy generating device with an embedded discharge function for gas, liquid, and fluid processing. The quantum energy generating device includes an additive supply unit, an electric dust collection unit, a quantum energy generating unit, a heat exchange unit, a quantum energy irradiation unit, and a control panel. Contaminants are removed and purified, and germs and harmful viruses are sterilized.

Description

Quantum energy generator equipped with discharge function for gas, liquid and fluid treatment}

The present invention relates to the treatment of gaseous materials including air and liquid materials including water with a built-in quantum energy generator, and more particularly, to a device consisting of an additive supply unit, an electric dust collector, a heat exchange unit, a quantum energy irradiation unit, and a control panel to the FAN. External air that is sucked in and pressurized and flows into the device or semiconductor, LED TV, PCB, home appliance manufacturing facility, petroleum refining facility, chemical fiber, textile dyeing and processing facility, livestock facility, slaughtering process, aquatic product processing facility, basic organic matter Process exhaust gas from compound manufacturing facilities, food waste treatment facilities, and wastewater treatment plant exhaust gas, engine (generator, ship, automobile) exhaust gas, combustion facility (boiler, incinerator, heat treatment furnace) exhaust gas, smart farm, glass greenhouse , applied to all ventilation facilities in large factories, air conditioning facilities and drinking water in large public facilities, industrial wastewater, livestock wastewater, river water, seawater, and ship ballast water, cooling water that cause green algae and red tide, etc. After suction and pressurization of polluted air, supply it to the first stage dust collector to remove the first dust, and then spray the additive supplied from the additive supply unit into the dusted air to mix and supply it to the second stage dust collector, after the secondary dust removal and discharge It is transferred to a quantum energy generator with a built-in function and irradiated with quantum energy to the high-voltage discharge part, dissociating the high-voltage discharge process, purifying airborne pollutants through electrochemical reactions such as excitation, ionization, oxidation, and reduction reactions, and airborne bacteria And ionized air irradiated with quantum energy to sterilize viruses and purified air containing various active radicals such as OH-Radicale and singlet oxygen ( ¹ O ₂ ) are supplied to the heat exchange unit and flow into the device from the heat exchange unit. After being cooled to an appropriate temperature through indirect heat exchange with air, the air and gaseous substances and water and liquid substances of the quantum energy irradiation unit are supplied to the aeration pipe installed in the flow path through which external air or pollution containing pollutants flows into the flow path. Spraying and mixing with air, gaseous substances including air, and liquid substances including drinking water, purified water, drinking water, and contaminated seawater, river water, farm drainage, drinking water, swimming pool water, and water. Sterilize bacteria and airborne viruses in the air and polluted air introduced through an oxidation, reduction reaction, electrolysis reaction, or electrochemical reaction such as dissociation, excitation, ionization, oxidation, reduction reaction, and purify by removing contaminants; or Gases, liquids, which remove and purify pollutants contained in water or pollutants, gaseous substances including air and air that sterilize bacteria and harmful viruses in water, and liquid substances including water and water; It relates to a quantum energy generator generator with a built-in discharge function for fluid treatment.

Process exhaust gas from semiconductors, LED TVs, PCBs, home appliance manufacturing facilities, petroleum refining facilities, chemical fibers, textile dyeing and processing facilities, livestock facilities, slaughter processing, aquatic products processing facilities, basic organic compound manufacturing facilities, food waste treatment facilities, etc. And wastewater treatment plant exhaust gas, engine (generator, ship, automobile) exhaust gas, exhaust gas and wastewater treatment of combustion facilities (boiler, incinerator, heat treatment furnace), contaminated drinking water, ballast water treatment of ships, river water, seawater treatment, process Water and coolant include ammonia, hydrogen sulfide, methyl mercaptan, methyl sulfide, methyl isobutyl ketone, propionic acid, acetaldehyde, methyl ethyl ketone, methyl amine, triethyl amine, acetic acid, valeric acid, dimethyl sulfide butyl aldehyde, Ethylbenzene, xylene, carbon disulfide, sulfur oxides (SOx), organic solvent soluble fractions (Soluble Organic Fractions, SOF), nitrogen oxides (NOx), fluorine compounds (PFCs, HFCs), acid gases (Hcl, HNO ₃ , H ₂ SO ₄ ), gaseous substances such as volatile organic compounds (VOCs) and wastewater with high chromium (Cr), ammonia nitrogen, nitrate nitrogen, normal nucleic acid, COD, and BOD contain various pollutants, , Liquid substances such as ballast water, purified water, RO water, and ultrapure water that need to be treated with aquatic bacteria, avian influenza (AI), foot-and-mouth disease (FMD), swine fever (ASF) in livestock facilities, Edward Sieella tarda in aquaculture Tarda), Streptococcus iniae or Vibrio ichtyoenteri, molds in food processing facilities and living spaces, Pseudomonas aeruginosa, Staphylococcus aureus, pneumococcus, Legionella, and other bacteria and MRSA [meti] Sylin-resistant S. aureus], MRSE [methicillin-resistant S. epidermidis], etc., Mycobacterium tuberculosis (Mycobacterium tuberculosis), Mycobacteria Mycobacterium avium, drug-resistant P. aeruginosa, enterotoxin E. coli ( E. coli), enterohaemorrhagic E. coli, Klebsiella pneumoniae, Clostridium difficile, Heliobacter pylori, Legionella pneumophila, Entero Coccus faecalis, Enterobacter cloacae, Salmonella typhimurium, Proteus vulgaris, Vibrio enterocolitica, cholerae), and Shigella Flexneri, mutated virus (MRSA), MERS-COV, Ebola virus, SARS-COV, bacteria, etc. are suspended in the air. Air Harmful bacteria and airborne viruses floating in the air can infect the air as a medium, and aquatic bacteria such as Bacillus, anthrax, Bacillus Cereus, Bacillus Coagulans, etc. Since it has resistance to disinfectants and disinfectants by building a biofilm, reliability of sterilization cannot be secured.

Conventional techniques for removing the contaminants include a water washing method that physically absorbs contaminants by dissolving them in water by gas-liquid contact, a chemical solution washing method that absorbs contaminants into a chemical solution by gas-liquid contact and chemically neutralizes them, sodium hypochlorite, etc. There is a chemical liquid oxidation method in which an aqueous solution containing an oxidizing agent and contaminants are brought into gas-liquid contact to oxidatively decompose; an adsorption method in which contaminants are adsorbed and removed by an adsorbent such as activated carbon, silica gel, zeolite, etc. There is an ion exchange resin method that uses the ion exchange resin method, and there is a biofixed deodorization method that removes pollutants by adsorption, decomposition and washing by accreting microorganisms on the filler, and burning combustible gas such as LNG to heat the inside of the device to a high temperature of 700℃ or higher. There is a direct combustion method that burns and decomposes contaminants and removes them, and a catalytic combustion method that oxidizes and decomposes contaminants at a low temperature of 250 to 350°C using a platinum or palladium-based catalyst layer. Various technologies such as the plasma deodorization method in which the generated high voltage is applied to the discharge electrodes to remove the pollutants passing between the discharge electrodes with the plasma generated in the discharge process are applied and used in each industry.

In addition, the sterilization method of bacteria is a method of using a sterilizing agent such as sefilpyridinium chloride, chlorine-based disinfectant, butylene oxide, isothiocyanate, peracetic acid, hydrogen peroxide, a heat sterilization method using high temperature water and steam, and ethylene oxide Ultraviolet sterilization (UV) has been used as an alternative to (EO), ozone gas sterilization, and chlorine-based sterilization. A sterilization method using

Bacterial sterilization using chlorine-based disinfectants includes sterilization of drinking spring water, animal and food, and food contamination indicators such as low- and medium-temperature heat-resistant bacteria, Escherichia coli, enterococci, etc. It has been widely used to sterilize food poisoning causative bacteria such as Staphylococcus aureus, and the sterilization method using ethylene oxide (EO) and ozone gas has been sterilizing medical devices that cannot be sterilized with high-temperature steam, but is harmful to the human body (carcinogenesis, lung cells). damage), the use is decreasing, the plasma discharge sterilization method is effective for sterilizing the surface of medical containers or other instruments, but there is a ventilation problem inside the chamber after use. It is effective in inactivating pathogens as a sterilization method, but it is expensive, and the device is large, so there is a restriction on movement, and there is a risk of exposure of the user to radiation. Electron beam sterilization is a method of sterilizing implantable medical devices such as bioactive coated surfaces, medical devices containing coatings, and catheter tissue processing supports by irradiating electron beams. There is a problem in that the activity of the molecule is destroyed or reduced.

In order to solve the above pollutant removal and bacterial sterilization problems, Korean Patent Publication No. 10-1456611 (PM, SO _X , NO _X removal device in ship exhaust gas) includes a scrubber, a purifier, It is composed of an ozone generator and a PH mixer and supplies and sprays the cleaning water pressurized by the pump to the exhaust gas containing PM, SO _X , NO _x , and OIL flowing into the scrubber to the nozzles to produce PM, SO _X , NO _X , OIL substances. After absorbing the PM and OIL in the purifier, the ozone generated from the ozone generator is supplied to separate the SO _x and NO _x substances adsorbed in the washing water, and the washing water acidified by adsorbing the SO _x and NO _x substances. This technology re-uses the washing water by supplying a neutralizing agent stored in the PH mixer to the washing water to adjust the pH of the washing water. and treatment of secondary pollutants such as wastewater generation.

1. In Korean Patent Publication No. 10-1096596 (Volatile Organic Compound Adsorption Tower), the adsorbent in contact with the exhaust gas by the shaking fluidized bed is continuously installed on the shaking fluidized bed in a state in which adsorbents such as activated carbon and zeolite are fixed and installed in multiple stages in the adsorption tower. As a structure that adsorbs organic compounds while moving radially and downward, this technology requires periodic replacement of the adsorbent, cannot remove nitrogen oxides (NO _X ), and has no sterilization function of bacteria.

2. In Republic of Korea Patent Publication No. 10-1542177 (VOC adsorption and concentration catalytic oxidation treatment device), the desorbed organic compound (VOC) is desorbed using hot air to supply the desorbed organic compound (VOC) to the catalytic oxidation unit. This is a technology that removes organic compounds (VOCs) through oxidation reaction with catalyst materials. The device is huge, the fuel cost increases according to the concentration of organic compounds (VOC), and when there are unignited organic compounds (VOCs) in the combustion chamber There is a risk of fire due to spontaneous ignition due to heat storage, prevention of catalyst poisoning is required, and maintenance costs are high.

3. In Korean Patent Publication No. 10-1567334 (plasma adsorption deodorizer), ozone and hydrogen peroxide are supplied to the polluted air flowing into the mixer, mixed for a certain period of time, and then transferred to the plasma reactor to produce low-temperature plasma and catalyst by glow discharge. It is oxidized with an adsorbent to purify polluted air and passes unreacted surplus ozone and hydrogen peroxide through an adsorbent loaded with aluminum silicate, zeolite, and manganese compounds to remove excess ozone and hydrogen peroxide and exhaust. As a result, secondary waste is generated by replacing the adsorbent, and there is a risk of photochemical smog when surplus ozone and hydrogen peroxide are not removed and discharged to the atmosphere.

4. In Korean Patent Publication No. 10-1253259 (disinfectant composition and sterilization method using the same), any one or more substances from among hexamethylamine, dodecaamine, triethylene glycol diamine, polyoxypropylene diamine, and polyoxyethylene diamine are included and , hydrochloric acid, hydrobromic acid, iodic acid, nitric acid, carbonic acid, sulfuric acid, phosphoric acid, acetic acid, benzoic acid, dehydrogenacetic acid, propionic acid, gluconic acid, sorbic acid, fumaric acid, maleic acid, lactic acid, malic acid, citric acid, succinic acid, oxalic acid, tartaric acid, formic acid , a bactericidal agent composed mainly of polyalkylene guadidine salt and sodium pyrithione prepared by selecting any one material from among , glycolic acid. Escherichia coli), Micrococcus, Pseudomonas aeruginosa, Klebsiella pneumoniae, Staphylococcus aureus, Bacilllus subtilis ), Aspergilus niger, etc. can be sterilized, but the sterilization range is limited, and in order to effectively sterilize, the concentration of the drug with respect to the sterilization object must be maintained at 1 to 10,000 PPM, so the drug consumption is high.

5. In Korean Patent Publication No. 10-0728308 (High-speed pasteurization and sanitation apparatus and method), a container for storing health functional food or pharmaceutical is loaded inside the mixing chamber, and the steam containing hydrogen peroxide produced by the steam peroxide generator sterilizes the spores of Bacillus subtillis var.globigii and ascomycetes of yeast yeast (Saccharomvcescerevisiae) attached to the surface of the container by spraying the After collecting the steam contained in the container, it is sent to the catalytic reactor to remove hydrogen peroxide through a catalytic reaction. After removing moisture from the moisture trap, it is passed through a HEPA filter to remove fine dust. It is a technology in which the process of washing off the disinfectant by spraying it into the container loaded in the mixing chamber is repeatedly performed. This technology has a complicated structure and insufficient cleaning, so that health functional food or pharmaceutical products stored in the container in the presence of hydrogen peroxide and hydrogen peroxide The composition may be altered by oxidation.

6. In Korean Patent Publication No. 10-1819108 (composition for removing biofilm containing eugenol and emulsifier as active ingredients, preservation method from biological weathering of masonry using the same), Clove, syzygium aromaticum, Wormwood, Milk derived from cinnamon, sweet basil (Ocimum basillicum), star anise, lemon balm, vanilla, celery, ginger, or synthetic milk derived from other substances Alkaline metal salts such as sodium salt and potassium salt and alkaline earth metal salts such as calcium salt and magnesium salt are contained in nol, and an emulsifier is mixed to improve dispersibility. It is a technology to prevent bioweathering of masonry by removing the biofilm. This technology has limitations in removing the biofilm attached to the inside of the pipe through which water or water-containing liquid flows.

7. In Republic of Korea Patent Publication No. 10-11296207 (inline treatment device for ballast water with circulation type piping installed for suppression of biofilm formation), seawater is sucked and pressurized using a pump, and the filter or centrifuge installed inside the treatment device is Transfer to a pre-treatment device with either one of them, remove relatively large zooplankton, microorganisms, and foreign substances using filtration or centrifugal force, and send it to an electrolysis device. It is a technology to remove biofilm and microorganisms in water after generating sodium hypochlorite by electrolysis of seawater by supplying Sodium chlorate itself is a corrosive substance, so there is a risk of corrosion of equipment and ballast water storage tanks.

8. In Korean Patent Publication No. 10-1629202 (a device for removing green algae and red algae using plasma), a circular flow path at the bottom of the vessel is fixed to the vessel using a support, and a dielectric tube passes through the upper side of the flow path to the lower part of the flow path Extends to the bubble generator installed in the This is a technology that allows ozone and hydroxyl radicals (OH-Radical) generated in the process of underwater plasma discharge to be dispersed and contacted with water containing red and green algae flowing into the flow path to kill them. There is a problem that not only requires a separate bubble generator, but also requires a lot of time to treat red and green algae due to non-uniform discharge when the surface of the dielectric is contaminated.

9. U.S. Patent No. 5,135,850 describes a method for evaluating or measuring the antioxidant properties of an organism using free radicals. However, although cell lysis using free radicals has been described, there is no description of cell lysis using an electrochemical method.

10. U.S. Patent No. 6,150,148 describes an electroporation instrument for temperature control during the process by generating and applying a magnetic field according to a custom pulse and temperature profile diagram.

11. U.S. Patent No. 6,096,020 describes an electroporation method and apparatus for generating and applying a magnetic field according to a user-specified pulse diagram.

As seen above, the exhaust gas of conventional engines (generators, ships, automobiles), combustion facilities (boilers, incinerators, heat treatment furnaces) industrial processes and wastewater treatment plants exhaust, livestock breeding facilities and processing facilities to purify exhaust gases The prior art is insufficient to effectively treat various contaminants at the same time due to the above-mentioned problems, and the sterilization of airborne bacteria, viruses, and biofilms and bacteria in water is insufficient in terms of efficiency due to the above-mentioned problems. However, it is not possible to present a method for removing green algae and red algae having a wide application range while ensuring stability and durability.

1. Korean Patent Publication No. 10-1096596 (Volatile Organic Compound Adsorption Tower) 2. Republic of Korea Patent Publication No. 10-1542177 (VOC adsorption concentration type catalytic oxidation treatment device) 3. Korean Patent Publication No. 10-1567334 (plasma adsorption deodorizer) 4. Korean Patent Publication No. 10-1253259 (Disinfectant composition and sterilization method using the same) 5. Korean Patent Publication No. 10-0728308 (High-speed pasteurization and sanitizing apparatus and method) 6. Korean Patent Publication No. 10-1819108 (composition for removing biofilm containing eugenol and emulsifier as active ingredients, preservation method from biological weathering of masonry using the same) 7. Republic of Korea Patent Publication No. 10-11296207 (In-line treatment device for ballast water with circulation type piping installed to suppress biofilm formation) 8. Korean Patent Publication No. 10-1629202 (A device for removing green algae and red algae using plasma) 9. U.S. Patent No. 5,135,850 (Method for Evaluating or Measuring Antioxidant Properties of Organisms Using Free Radicals) 10. U.S. Patent No. 6,150,148 (Custom Pulse and Temperature Profile) 11. U.S. Patent No. 6,096,020 (electroporation method and apparatus for generating and applying a magnetic field according to a user-specified pulse diagram)

The technical problem to be achieved by the present invention is that external air or semiconductors, LEDs that are sucked in and pressurized by a FAN into a device consisting of an electric dust collector, an additive supply part, a quantum energy generator, a heat exchange part, a quantum energy irradiation part, and a control panel and flow into the device. Process exhaust gas and wastewater treatment facilities such as TV, PCB, home appliance manufacturing facilities, petroleum refining facilities, chemical fibers, textile dyeing and processing facilities, livestock facilities, slaughter processing facilities, aquatic products processing facilities, basic organic compound manufacturing facilities, food waste treatment facilities, etc. Exhaust gas, exhaust gas from engines (generators, ships, automobiles), and exhaust gas from combustion facilities (boilers, incinerators, heat treatment furnaces) are supplied to the first-stage electric dust collector to irradiate quantum energy while applying high direct current to the discharge electrodes and dust collecting electrodes. After applying the application, the dust is first removed in the corona discharge process and dust collection process, and the additive is sprayed into the first dust-removed air to react ionic, chemical, and agglomeration between the additive and the pollutants in the first dust-removed air, 2 While irradiating quantum energy by supplying it to a single dust collector, a high DC voltage is applied to the discharge electrode and the dust collecting electrode to secondary dust during the corona discharge process and dust collection process, and the removed air is supplied to the quantum energy irradiation unit with a built-in discharge function. While irradiating quantum energy into the incoming air, the high voltage generated by the high voltage generator is applied to the discharge electrode and the ground electrode of the high voltage discharge unit to purify pollutants through electrochemical reactions such as dissociation, excitation, ionization, oxidation, and reduction reactions. Active radicals such as singlet oxygen and hydroxyl ions generated during the discharge process sterilize or sterilize by perforating the biological foil of bacteria and viruses in the air. The purified air containing active radicals is indirectly heat-exchanged with the polluted air flowing into the device from the heat exchanger and cooled to an appropriate temperature. Polluted air containing pollutants, gaseous substances including air, and clean water such as drinking water, purified water, and drinking water, and polluted water such as contaminated seawater, river water, farm drainage, drinking water, and swimming pool; By spraying and mixing with liquid substances including water, it sterilizes bacteria and airborne viruses in the air and polluted air that are introduced through oxidation, reduction or electrolysis reactions, or electrochemical reactions such as dissociation, excitation, ionization, oxidation, and reduction reactions. A built-in discharge function for gas, liquid, and fluid treatment that purifies by removing contaminants or purifies by removing contaminants in water or pollutants contained in water or pollutants, and sterilizes and sterilizes bacteria and harmful viruses in water To provide a quantum energy generator.

City water storage tank 101, additive storage tank 102a-e, additive stock solution supply pipe 103, city water supply pipe 104, agitator 105, pump 106, additive supply pipe 107, solenoid valve 107a, 107b), the heating chamber 108, the electric heater 109, the nozzle 110, the heater power supply 111, the venturi 112, the air compressor 113 is composed of the additive storage tank (102a, 102b, 102c, 102d, 102e) any one or more of a reducing agent for removing nitrogen oxides (NO _X ), a sulfur oxide (SO _X ) remover, an oxygen scavenger, a hydroxyl group (OH-radical) releasing agent, and a particle coagulant are selected and stored in 102d, 102e) An appropriate amount is supplied to the city water storage tank 101 through the supply pipe, and after stirring for a certain time with the stirrer 105, the heating chamber 108 heated to a high temperature by the electric heater 109 using the pump 106 is heated. After being sprayed and vaporized, it is sucked and pressurized by the air compressor 113 and installed between the first-stage electric dust collector 210 and the second-stage electric dust collector 220 of the electric dust collector 200. In the neck 12a of the venturi ejector 112 The additive supply unit 100 for supplying and spraying the connected air nozzle 203a; and

Both ends are conical and the central part is cylindrical, the left end surface is connected to the fan 204 and the right end surface is connected to the venturi ejector 203, the main body 201, the outer left side of the main body 201 and the inner one side A first partition plate (not shown) in which the first and second quantum energy generating coils 211a and 211b and the discharge electrode 211 are installed are installed, and the third and fourth quantum energy is provided on the outer right side and inner side of the main body 201 . The second partition plate in which the generating coils 212a and 212b and the dust collecting electrode 212 are installed is installed, and the power supply 214 is installed on one side of the outer side of the main body 201, and the -power generated by the power supply 214 is supplied. When supplied to the first and second quantum energy generating coils 211a and 211b and the discharge electrode 211 through the conducting wire 213, the winding directions of the first and second quantum energy generating coils 211a and 211b are opposite to each other. As the magnetic field and pulsating quantum energy in the opposite direction are irradiated, dust and heavy metals in the polluted air are ionized by corona discharge from the discharge electrode 211, and the + power generated by the power supply 214 is passed through the wire 213. When supplied to the third and fourth quantum energy generating coils 212a and 212b and the dust collecting electrode 212, in the third and fourth quantum energy generating coils 211a and 211b whose winding directions are opposite to each other, pulse form in opposite directions A first stage dust collector 210 for removing dust by irradiating the magnetic field and pulsating quantum energy of + power to the dust collecting electrode 212 so that the material ionized in the discharge electrode 211 is attached to the dust collecting electrode 212 by electrical attraction; Wow

The first quantum energy generating coil 221a is installed on the left outer side of the main body 202, the left end surface of which is connected to the venturi ejector 203, and the second quantum energy generating coil 221b on the inner side, and A first partition plate (not shown) on which the discharge electrode 221 is installed is installed, and a third quantum energy generating coil 222a is installed on the outer right side of the main body 202 . A fourth quantum energy generating coil 212b is installed on one side of the outside of the plurality of cylinders 222c, a plurality of RF coils are formed on the inner circumferential surface of the cylinder 222c, and a fifth quantum energy generating coil composed of a cover plate on the top A second partition plate (not shown) on which the dust collecting electrode 212 is installed is installed, a power supply 224 is installed on one side of the outer side of the main body 202, and the -power generated by the power supply 224 is connected to a conductive wire 223 When supplied to the first and second quantum energy generating coils 221a and 221b and the discharge electrode 221 through As the pulsed magnetic field and pulsating quantum energy are irradiated, dust and heavy metals in the polluted air are ionized by corona discharge from the discharge electrode 221, and the + power generated from the power supply 224 is applied to the third, When supplied to the fourth quantum energy generating coils 222a and 222b and the fifth coil and dust collecting electrode 222, the third and fourth quantum energy generating coils 22a and 222b whose winding directions are opposite to each other are pulses in opposite directions. A state in which + power is supplied to the dust collecting electrode 222 while irradiating a magnetic field and pulsating quantum energy in the form of a pulse, and a plurality of fifth coils are irradiated with a pulsed magnetic field in the opposite direction and the magnetic field in the opposite direction overlaps and disappears. an electric dust collector 200 comprising a two-stage dust collector 210 that removes dust by making the material ionized on the discharge electrode 221 adhere to the dust collecting electrode 222 while irradiating the pulsating quantum energy generated from the electric dust collector;

A cylindrical or rectangular parallelepiped-shaped body 301, an insulator 302 applied to the outer circumferential surface of the main body, a trigger coil or solenoid coil shape with a certain distance from the inner surface of the body, and a discharge needle 311e on the inner and outer circumferential surfaces A first quantum energy generating coil and discharge electrode 311 attached (processed) is installed, and the discharge needle ( 312e) is provided with a second quantum energy generating coil and ground electrode 312 attached (processed) with an interval therebetween. A pulsed power supply 313 is installed on one side of the outside of the main body, and the first quantum energy generating coil 314 is connected to the conducting wire 314. The energy generating coil/discharge electrode 311 and the second quantum energy generating coil/ground electrode 312 are connected, and the pressurized fan 204 of the electric dust collecting unit 200 is operated so that the inhaled and pressurized polluted air is converted into the first quantum energy At the same time as being introduced into the body 301 of the generator 310, the power generated by the pulsed power supply 313 passes through the conducting wire 313 as one quantum energy generating coil and discharge electrode 311, and the second quantum energy generating coil. When supplied to the ground electrode 312, the first quantum energy generating coil and discharge electrode 311 and the second quantum energy generating coil ground electrode 312 in the shape of a trigger coil or solenoid coil wound in opposite directions 90 degrees of current flow Pulsed magnetic field is irradiated at an angle, and pulsed magnetic fields in opposite directions are superimposed and destroyed at the center distance to generate and irradiate pulsating quantum energy in a zero magnetic field state, and discharge starts between discharge electrodes 311 and 312 and high field electrons Singlet oxygen and singlet oxygen and A first quantum energy generator 310 with a built-in discharge function for sterilizing and sterilizing by perforating the biofilm of bacteria and viruses suspended in the air by active radicals such as nitric oxide and hydroxyl ions; and

Cylindrical or rectangular parallelepiped-shaped body 301, the inner surface of the body is insulated, and two fixing rods (not shown) are installed therein with a certain distance from each other, and the winding directions of the coils are opposite to each other and spaced apart from each other on the installed fixing rod. A first gradient saddle coil (322-1a) and a first discharge electrode (322-2a) and a second gradient saddle coil (322-1b) and a first discharge electrode ( 322-2b) is installed so that the discharge needles are directed toward the inner center and face each other, and then the first gradient saddle coil 322-1a and the first discharge electrode 322-2a and the second gradient saddle coil 322-1b are installed. ) and the first discharge electrode 322-2b at intervals inside, the discharge needles having a cylindrical shape and having one end of a certain length processed into a cone shape are spaced apart and a plurality of ground electrodes 323 installed with a fixed base (not shown) It is installed in the ground electrode 323 at intervals inside the screw shape, one end of a certain length is processed into a cone shape on the outer circumferential surface, a plurality of third discharge electrodes 324 are installed at intervals. When the pulsed power generated from the power supply 328 installed on the outside of the main body 301 is supplied (not shown), the first gradient saddle coil 322-1a and the winding direction are wound in opposite directions. At the first discharge electrode 322-2a and the second gradient saddle coil 322-1b and the second discharge electrode 322-2b, a magnetic field in the form of a pulse in opposite directions is irradiated to the body 301 and pulses in opposite directions In a state in which the magnetic field in the form of a magnetic field is superimposed and extinguished, multiple discharges are initiated between the first and second discharge electrodes 322-1a and 322-1b, the ground electrode 323 and the third discharge electrode 324 as pulsating quantum energy is irradiated. And a high field electron energy band is formed, and high field electron energy is irradiated to the air components introduced by the FAN 204 passing through this band, odor causing substances and harmful substances contained in the air, so that the air components and air are irradiated with high field electron energy. The covalent bonds of the contained odor-causing substances and harmful substances are dissociated, decomposed and purified, and singlet oxygen and heat generated in this process are A second quantum energy generator 320 with a built-in discharge function that sterilizes and sterilizes by perforating the biofilm of bacteria and viruses suspended in the air by active radicals such as hydroxyl ions; and

A first quantum energy generator 330a comprising a housing 301, a first gradient coil 331, a second gradient coil 332, and a power supply 333c, a first quantum energy generating coil and discharge electrode 334 , A second quantum energy generating coil and ground electrode 335, a high voltage generator 336, and a second quantum energy generator/discharging unit 330b consisting of a wire 336f, and the main body 301 has a cylindrical shape, A shape of a plurality of inclined coils having opposite winding directions in the formed insulating layer is formed by selecting any one shape from among shapes such as a cube shape and a rectangular parallelepiped shape, insulating the outer surface of the main body 301 with an insulating material, or The first and second quantum energy generating coils 331 and 332 of the toroidal coil shape are installed to face each other, and the power in the form of a pulse generated by the power supply 333 installed on one side outside the main body 301 is supplied through the conducting wire 333d. Pulsed quantum energy generated in a zero magnetic field by irradiating magnetic fields in the form of pulses in opposite directions and overlapping and annihilating the magnetic fields in the form of pulses in opposite directions at the center distance of the first and second quantum energy generating coils 334 and 335 While irradiating into the body 301, the first and second quantum energy generating coils 331 and 332 are installed on one side of the inside of the main body 301 where the first and second quantum energy generating coils 331 and 332 are installed to face each other. After drilling two holes (not shown) sized to insert a fixing rod at a distance from the center of both surfaces of a rectangular insulation plate made of any one of Teflon, ceramic, and glass materials, stainless steel (STS304), or Wind the coil in a clockwise or counterclockwise direction in a tungsten (W) wire deformed gradient coil shape or toroid coil shape. After attaching the discharge needles 334a and 334b having a certain length at regular intervals to the exposed coil, the winding directions of the adjacent coils are opposite to each other, and then inserted into the fixtures 337a and 337b and the fixing nut 338. keep spacing with and fixing, the discharge electrode plates (334,335), the fixing nut 338, and the discharge electrode plate 335 are assembled in this order, mounted on the fixtures 337a and 337b attached to the inner circumferential surface of the body, and mounted on one side of the outside of the body 301 A plurality of first quantum energy generating coil/discharge electrode 334 and second quantum energy generating coil/ground electrode 335 through the power supply in the form of a pulse generated from the power supply 336b At an angle of 90 degrees to the flow direction, pulse-shaped magnetic fields in opposite directions are irradiated and opposite directions at the center distance of the first quantum energy generating coil and discharge electrode 334 and the second quantum energy generating coil and ground electrode 335 As the pulse-shaped magnetic field of Discharge starts and a high field electron energy band is formed, and the high field electron energy is irradiated to the air constituent material introduced by the FAN 204 and the odor causing material and harmful material contained in the air in this energy band formed in the air composition Bacteria and viruses in which active radicals such as singlet oxygen and hydroxyl ions generated in this process are suspended in the air by dissociating covalent bonds of substances and odor-causing substances contained in the air and purifying them through oxidation and reduction reactions. A third quantum energy generator 330 with a built-in discharge function for sterilizing and sterilizing by perforating the biofilm of

The inner cylinder 303 has a cylindrical shape, and one part of the outer side is insulated, and two places are sealed with a partition plate (not shown) at intervals inside, and spaced to the left with a left partition plate (not shown) in the circumferential direction. A plurality of polluted air injection holes 304 are perforated, and a plurality of purified air intake ports 305 are perforated in the circumferential direction at a distance from the right partition plate (not shown) to the right, and the inner cylinder 303 is wound on one circumferential surface. A housing 303a having a jacket shape embracing the first quantum energy generator and heating coil 342a and performing a second cathode 344a function is the main body ( 301) is insulated and installed in surface, and a solenoid-shaped ground electrode 345b wound on the circumferential surface in contact with the outer surface of the rectangular ◎-shaped housing 303a is installed on one side of the outer side of the inner tube 303. The second spur gear 346a is installed and the first spur gear 346b is installed so that the teeth of the second spur gear 346a are engaged, and the first spur gear 346b is axially connected to the second electric motor 346c and is spaced apart. A rotation fastening mechanism (346sd) is installed on one side of both ends of the end face, and the second quantum energy generator and heating coil (342a) is supplied with power from the second power supply (342b), and the second cathode (344a) is the second Power is supplied from the fourth power supply 344b, the fourth power supply 344b and the second power supply 342a constitute a bias circuit, and the ground electrode 345b supplies power from the fifth power supply 345c. receive

The outer cylinder 301 has a cylindrical shape, a portion of the outer side is insulated, and a discharge electrode 345a of a solenoid coil shape wound on a circumferential surface of an inner side is installed, and an outer cylinder portion equal to the area where the discharge electrode 345a of the solenoid coil shape is installed. The first cathode 343a) function, and a jacket-shaped housing 303b embracing the first cathode 343a is installed, and the inner surface of the housing is insulated and insulated to face the first quantum energy generator and heating on the circumferential surface. The coil 341a is installed, and a fastening mechanism 347d for rotation is installed on one side of both ends, and the first quantum energy generator and heating coil 341a receives power from the first power supply 341b, and the first The cathode 343a receives power from the third power supply 343b, the third power supply 343b and the first power supply 341a constitute a bias circuit, and the discharge electrode 345a is the fifth power supply ( 345c).

The first and second quantum energy generators and heating heaters 341a in which the power generated by the first and second power supplies 341b and 342b or pulsed DC power is in the shape of a solenoid coil and the winding directions are opposite to each other. , 342a) and irradiating the first and second cathodes 343a and 344a with a magnetic field or a pulsed magnetic field at an angle of 90 degrees in the direction of current flow to a temperature (500) that can overcome the work function value of the heating heater material When heated above ⁰ C), hot electrons are emitted from the surface of the material, and power or pulse-type power generated from the first power supply 341b and the third power supply 343b constituting the bias circuit is transferred to the first cathode 343a. When supplying power or pulse type power generated by the second power supply 342b and the fourth power supply 344b constituting the bias circuit to the second cathode 344a at the same time while supplying to the

The hot electrons emitted from the material surfaces of the first and second quantum energy generators and heating heaters 341a and 342a are accelerated to the first and second cathodes 343a and 344a, respectively, and the first and second cathodes 343a and 344a Heating the first and second cathodes 343a and 344a above a temperature that can overcome the work function value of the material in a manner that strikes When an AC high voltage or DC high voltage in the form of a pulse generated by the fifth power supply 345c is applied while emitting, a discharge starts between the discharge electrode 345a and the ground electrode 345b and forms a high field electron energy band, Irradiating and heating high electric field electron energy to polluted air flowing in and passing through the band by the pressing force of the pressurized fan 204, pulsed magnetic field irradiation, pulsating quantum energy irradiation, dissociation, ionization, and excitation of the hot electron emission and blow high voltage discharge Quantum energy with a built-in fourth discharge function that purifies odor-causing substances and harmful substances in polluted air through electrochemical reactions such as oxidation and reduction reactions, and sterilizes and sterilizes bacteria and corona19 infectious viruses in polluted air generator 340; and

Contaminated air inlet (404a) and outlet (404b) by drilling a hole (not shown) of a certain diameter in the vertical or diagonal direction on one side of the body 401 of the horizontal or vertical shell and tube shape, and the main body 401 in the vertical direction After installing the body 401 by welding a plurality of holes (not shown) of a certain diameter in the center of both end surfaces in the horizontal direction, the inlet 404a and the outlet 404b of a certain diameter are welded and installed, then the body (401) In a plurality of partition plates (401a) having a diameter less than 2 to 5 mm than the inner diameter, a plurality of holes (not shown) having a diameter of 2 to 5 mm less than the outer diameter of the tube 402 are punched in the center and a plurality of holes in the circumferential direction, perforated holes After inserting the plurality of tubes 402 and the baffle 403 between the plurality of partition plates 401a (not shown), the both ends of the tube are expanded and joined or welded using an expander (not shown) to install After that, the pressurized fan 204 is installed in the polluted air inlet 404a, the outlet 404b is installed in the electric dust collector 200, and the process gas inlet 305a is connected to the quantum energy generator 300 with a built-in discharge function. After connecting the process gas outlet 405b to the inlet of the quantum energy generating device 500, the high-temperature polluting gas introduced by the pressurized fan 204 is introduced into the inlet 404a installed at the lower part of the main body 401. In the process of being discharged to the outlet 404b installed on the upper part of the body 401 in the diagonal direction through the internal baffle 403 and the tube 402 in the body 401, it is discharged from the quantum energy generator 300 with a built-in discharge function. Heat to adjust the temperature of the polluting gas through an indirect heat exchange method in the process of being introduced into the process gas inlet 405a installed in the center of the left side of the body 401, passing through the plurality of tubes 402 and discharged to the outlet 405b Exchange unit 400; and

In the circumferential direction of the cylindrical or square column-shaped insulating material, acid-resistant, and corrosion-resistant material through which gaseous substances including air or liquid substances including water flow in and out The 2 ⁿ first and second quantum energy generating coils are wound with a predetermined number of turns in opposite directions to each other and are installed to face each other, and are connected to the power supply 523 with a conducting wire, and the inside of the body 501 is spaced at a predetermined interval. The + pole 511 of the electrolyzer 510) in the form of a semi-circular column having a length is installed, and a hole (not shown) of a certain diameter is perforated on one side of the outside of the body 501, and in the perforated hole (not shown) The outlet pipe 405b of the heat exchange part is connected to the upper part (not shown) with a thread on the inner surface, and a diffuser pipe 502 is installed in the lower part (not shown), and a DC power supply is provided on one side of the outside of the main body 501 513 is installed and is connected to the output side -pole terminal of the DC power supply 510 on one side 512 of the diffuser 502, the power supply 510 and the quantum energy generator of the electrolyzer 510 in the control panel 600 When power is supplied to the power supply 523 of the 520, the DC power in the form of a pulse generated from the power supply 510 is supplied to the + pole 511 and the - pole and the diffuser 512. And heavy metals contained in the liquid material including water are removed, and the pulsed magnetic field generated by the power supply 523 of the quantum energy generator 520) and the pulsed magnetic field generated in opposite directions overlap each other and disappear. The pulsating quantum energy generated in the state is irradiated, and the quantum energy is irradiated from the quantum energy generator 300 with a built-in discharge function by a pressurizer (not shown), and a substance such as an activated radical material is supplied to the diffuser 502 And gaseous substances including air or liquid substances including water react with active radicals and pollutants to purify pollutants, sterilize bacteria and viruses floating in the air, purify water and liquid substances, and By removing heavy metals and spraying water and liquid substances of high-temperature active radicals, thermal shock and Quantum energy irradiation unit 500 that sterilizes bacteria by perforating the biofilm of bacteria such as algae by active radicals and perforating the biofilm of algae in water by the electroporation method; and the additive supply unit by the data transmitted by the sensor (100), the electric dust collector 200, the quantum energy generator 300, and a control panel 600 for controlling the power supplied to the quantum energy irradiation unit 500 in a cut-off supply method is further included.

In order to achieve this object, the present invention uses air fan to external air or semiconductor, LED TV, PCB, home appliance manufacturing facility, petroleum refining facility, chemical fiber, textile dyeing and processing facility, livestock facility, slaughter processing, aquatic product processing Process exhaust gas from facilities, basic organic compound manufacturing facilities, food waste treatment facilities, etc., exhaust gas from wastewater treatment plants, exhaust gas from engines (generators, ships, automobiles), and exhaust gas from combustion facilities (boilers, incinerators, heat treatment furnaces) After suction and pressurization using the While irradiating quantum energy into the incoming air, the high voltage generated by the high voltage generator is applied to the discharge electrode and the ground electrode of the high voltage discharge unit to purify pollutants through electrochemical reactions such as dissociation, excitation, ionization, oxidation, and reduction reactions. Active radicals such as singlet oxygen and hydroxyl ions generated in the discharge process sterilize or sterilize by perforating the biological foil of bacteria and viruses in the air, ionized air irradiated with quantum energy, and various OH-Radicales, etc. The purified air containing the active radical of Oxidation, reduction reaction or electrolysis reaction or dissociation, excitation, ionization, oxidation by spraying and mixing into contaminated air and clean water such as drinking water, purified water, drinking water, and contaminated seawater, river water, farm drainage, drinking water, swimming pool, etc. sterilizes bacteria and airborne viruses in the air and polluted air introduced through electrochemical reactions such as , reduction reactions, and purifies by removing pollutants, or by removing pollutants in polluted water contained in water or pollutants; , to provide a quantum energy generator with a built-in discharge function for air purification and sterilization that sterilizes and sterilizes bacteria and harmful viruses in water.

1. Improving the corona discharge efficiency by irradiating pulsed magnetic field and pulsating quantum energy to the first and second stage dust collectors of the electric dust collector, and extend the residence time of the generated ions to improve the dust collection rate.

2, It improves the discharge efficiency by irradiating pulsed magnetic field and pulsating quantum energy during the high voltage discharge process to improve the efficiency of polluted air purification and the sterilization and sterilization rate of airborne bacteria and airborne viruses.

3. Dust collection function, pollutant purification function, sterilization function of bacteria and virus, and quantum energy irradiation function are built-in in one device, so the application range is wide.

1 is a schematic diagram showing the overall configuration of a quantum energy generator with a built-in discharge function for gas, liquid, and fluid treatment of the present invention.
FIG. 2 is a cross-sectional view illustrating the additive supply unit of FIG. 1 .
FIG. 3 is a cross-sectional view showing the electric dust collector of FIG. 1 .
Figure 4a is a cross-sectional view showing the discharge electrode of the first and second stage dust collector of Figure 3;
FIG. 4B is a cross-sectional view illustrating a shape in which the discharge electrode is wound inside a partition plate and a cylinder in which the discharge electrode of the first and second stage dust collector of FIG. 3 is installed.
FIG. 4c is a cross-sectional view showing the shape of an RF coil-shaped dust collecting electrode installed inside the cylinder of the two-stage dust collector of FIG. 3 .
5 is a cross-sectional view illustrating the first quantum energy generator of FIG. 1 .
6A is a cross-sectional view showing the first and second quantum energy generating coils of the first shape of the trigger coil of FIG. 5 .
6B is a cross-sectional view illustrating the first and second quantum energy generating coils of the second shape in which the trigger coil of FIG. 5 is deformed.
6c is a cross-sectional view showing the first and second quantum energy generating coils of the third shape in which the trigger coil of FIG. 5 is deformed.
FIG. 6D is a cross-sectional view illustrating the power supply of the first quantum energy of FIG. 5 .
FIG. 7 is a cross-sectional view showing the second quantum energy generator and discharge unit of FIG. 1 .
8A is a cross-sectional view illustrating first and second quantum energy generating coils and discharge electrodes in the shape of the gradient saddle coil or the uniform saddle coil of FIG. 7 .
8B is a cross-sectional view illustrating a ground electrode in a shape in which the trigger coil of FIG. 7 is deformed.
8C is a cross-sectional view illustrating the third discharge electrode of FIG. 7 .
9 is a cross-sectional view showing the third quantum energy generator with a built-in discharge function of FIG.
10 is a cross-sectional view illustrating the high voltage discharge unit of FIG. 9 .
11 is a cross-sectional view showing the fourth quantum energy generator with a built-in discharge function of FIG.
12 is a cross-sectional view illustrating the heat exchange unit of FIG. 1 .
13 is a cross-sectional view illustrating the quantum energy irradiation unit of FIG. 1 .
14 is a cross-sectional view illustrating the control panel of FIG. 1 .

Hereinafter, embodiments of the present invention will be described in detail so that those of ordinary skill in the art can easily carry out the present invention with reference to the accompanying drawings.

1 is a schematic diagram showing the configuration of a multi-purpose quantum energy generator with a built-in thermionic emission function according to a first preferred embodiment of the present invention.

Referring to FIG. 1 , a multi-purpose quantum energy generating device with a built-in thermionic emission function according to the present invention includes an additive supply unit 100 , a folding dust collecting unit 200 , a quantum energy generating unit 300 , a heat exchange unit 400 , and quantum energy. It includes an irradiation unit 500 and a control panel 600 .

City water storage tank 101, additive storage tank 102a-e, additive stock solution supply pipe 103, city water supply pipe 105, pump 106, additive supply pipe 107, solenoid valves (107a, 107b), heating chamber 108, the electric heater 109, the nozzle 110, the heater power supply 112, the venturi 203, the air compressor 113 is composed of the additive storage tanks (102a, 102b, 102c, 102d, 102e) Any one or more of the stored nitrogen oxide (NOX) removal agent, sulfur oxide (SOX) remover, oxygen scavenger, OH-radical release agent, and particle coagulant compound is selected and stored, and then stored through the supply pipe by gravity difference. After supplying an appropriate amount to the tank 101, stirring for a certain time with the stirrer 105, and then using the pump 106 to spray it into the heating chamber 108 heated to a high temperature by the electric heater 109 to vaporize the air The additive supply unit 100 that is sucked and pressurized by the compressor 113 and supplied to the neck 203a of the venturi ejector 203 installed between the first-stage electric dust collector 210 and the second-stage electric dust collector 220 of the electric dust collector 200 . );Wow

Both ends are conical and the central part is cylindrical, the left end surface is connected to the fan 204 and the right end surface is connected to the venturi ejector 203, the main body 201, the outer left side of the main body 201 and the inner one side A first partition plate (not shown) in which the first and second quantum energy generating coils 211a and 211b and the discharge electrode 211 are installed are installed, and the third and fourth quantum energy is provided on the outer right side and inner side of the main body 201 . The second partition plate in which the generating coils 212a and 212b and the dust collecting electrode 212 are installed is installed, and the power supply 214 is installed on one side of the outer side of the main body 201, and the -power generated by the power supply 214 is supplied. When supplied to the first and second quantum energy generating coils 211a and 211b and the discharge electrode 211 through the conducting wire 213, the winding directions of the first and second quantum energy generating coils 211a and 211b are opposite to each other. As the magnetic field and pulsating quantum energy in the opposite direction are irradiated, dust and heavy metals in the polluted air are ionized by corona discharge from the discharge electrode 211, and the + power generated by the power supply 214 is passed through the wire 213. When supplied to the third and fourth quantum energy generating coils 212a and 212b and the dust collecting electrode 212, in the third and fourth quantum energy generating coils 211a and 211b whose winding directions are opposite to each other, pulse form in opposite directions A first stage dust collector 210 for removing dust by irradiating the magnetic field and pulsating quantum energy of + power to the dust collecting electrode 212 so that the material ionized in the discharge electrode 211 is attached to the dust collecting electrode 212 by electrical attraction; Wow

The first quantum energy generating coil 221a is installed on the left outer side of the main body 202, the left end surface of which is connected to the venturi ejector 203, and the second quantum energy generating coil 221b and A first partition plate (not shown) on which the discharge electrode 221 is installed is installed, and a third quantum energy generating coil 222a is installed on the outer right side of the main body 202 . Four quantum energy generating coils 212b are installed on one side of the outside of the plurality of cylinders 222c, and a fifth quantum energy generating coil and dust collecting coil having a plurality of RF coil shapes on the inner circumferential surface of the cylinder 222c and composed of a cover plate on the upper part A second partition plate (not shown) on which the electrode 212 is installed is installed, a power supply 224 is installed on one side of the outer side of the main body 202, and the -power generated by the power supply 224 is connected to a conductive wire 223. When supplied to the first and second quantum energy generating coils 221a and 221b and the discharge electrode 221 through As the magnetic field and pulsating quantum energy in the form of a magnetic field and pulsating quantum energy are irradiated, dust and heavy metals in the polluted air are ionized by corona discharge from the discharge electrode 221, and the + power generated from the power supply 224 is supplied through the conductive wire 223 through the third and third When supplied to the 4 quantum energy generating coils 222a and 222b and the fifth coil and dust collecting electrode 222, the third and fourth quantum energy generating coils 22a and 222b whose winding directions are opposite to each other are pulsed in opposite directions. In a state where + power is supplied to the dust collecting electrode 222 while the magnetic field and pulsating quantum energy of an electric dust collector 200 comprising a two-stage dust collector 210 for dust removal by making the discharge electrode 221 attach to the dust collecting electrode 222 while irradiating the pulsating quantum energy;

A cylindrical or rectangular parallelepiped-shaped body 301, an insulator 302 applied to the outer circumferential surface of the main body, a trigger coil or solenoid coil shape with a certain distance from the inner surface of the body, and a discharge needle 311e on the inner and outer circumferential surfaces A first quantum energy generating coil and discharge electrode 311 attached (processed) is installed, and the discharge needle ( 312e) is provided with a second quantum energy generating coil and ground electrode 312 attached (processed) with an interval therebetween. A pulsed power supply 313 is installed on one side of the outside of the main body, and the first quantum energy generating coil 314 is connected to the conducting wire 314. The energy generating coil/discharge electrode 311 and the second quantum energy generating coil/ground electrode 312 are connected, and the pressurized fan 204 of the electric dust collecting unit 200 is operated so that the inhaled and pressurized polluted air is converted into the first quantum energy At the same time as being introduced into the body 301 of the generator 310, the power generated by the pulsed power supply 313 passes through the conducting wire 313 as one quantum energy generating coil and discharge electrode 311, and the second quantum energy generating coil. When supplied to the ground electrode 312, the first quantum energy generating coil and discharge electrode 311 and the second quantum energy generating coil ground electrode 312 in the shape of a trigger coil or solenoid coil wound in opposite directions 90 degrees of current flow Pulsed magnetic field is irradiated at an angle, and pulsed magnetic fields in opposite directions are superimposed and destroyed at the center distance to generate and irradiate pulsating quantum energy in a zero magnetic field state, and discharge starts between discharge electrodes 311 and 312 and high field electrons Singlet oxygen and singlet oxygen and A first quantum energy generator 310 with a built-in discharge function for sterilizing and sterilizing by perforating the biofilm of bacteria and viruses suspended in the air by active radicals such as nitric oxide and hydroxyl ions; and

Cylindrical or rectangular parallelepiped-shaped body 301, the inner surface of the body is insulated, and two fixing rods (not shown) are installed therein with a certain distance from each other, and the winding directions of the coils are opposite to each other and spaced apart from each other on the installed fixing rod. A first gradient saddle coil (322-1a) and a first discharge electrode (322-2a) and a second gradient saddle coil (322-1b) and a first discharge electrode ( 322-2b) is installed so that the discharge needles are directed toward the inner center and face each other, and then the first gradient saddle coil 322-1a and the first discharge electrode 322-2a and the second gradient saddle coil 322-1b are installed. ) and the first discharge electrode 322-2b at intervals inside, the discharge needles having a cylindrical shape and having one end of a certain length processed into a cone shape are spaced apart and a plurality of ground electrodes 323 installed with a fixed base (not shown) It is installed in the ground electrode 323 at intervals inside the screw shape, one end of a certain length is processed into a cone shape on the outer circumferential surface, a plurality of third discharge electrodes 324 are installed at intervals. When the pulsed power generated from the power supply 328 installed on the outside of the main body 301 is supplied (not shown), the first gradient saddle coil 322-1a and the winding direction are wound in opposite directions. At the first discharge electrode 322-2a and the second gradient saddle coil 322-1b and the second discharge electrode 322-2b, a magnetic field in the form of a pulse in opposite directions is irradiated to the body 301 and pulses in opposite directions In a state in which the magnetic field in the form of a magnetic field is superimposed and extinguished, multiple discharges are initiated between the first and second discharge electrodes 322-1a and 322-1b, the ground electrode 323 and the third discharge electrode 324 as pulsating quantum energy is irradiated. And a high field electron energy band is formed, and high field electron energy is irradiated to the air components introduced by the FAN 204 passing through this band, odor causing substances and harmful substances contained in the air, so that the air components and air are irradiated with high field electron energy. The covalent bonds of the contained odor-causing substances and harmful substances are dissociated, decomposed and purified, and singlet oxygen and heat generated in this process are A second quantum energy generator 320 with a built-in discharge function that sterilizes and sterilizes by perforating the biofilm of bacteria and viruses suspended in the air by active radicals such as hydroxyl ions; and

A first quantum energy generator 330a comprising a housing 301, a first gradient coil 331, a second gradient coil 332, and a power supply 333c, a first quantum energy generating coil and discharge electrode 334 , A second quantum energy generating coil and ground electrode 335, a high voltage generator 336, and a second quantum energy generator/discharging unit 330b consisting of a wire 336f, and the main body 301 has a cylindrical shape, A shape of a plurality of inclined coils having opposite winding directions in the formed insulating layer is formed by selecting any one shape from among shapes such as a cube shape and a rectangular parallelepiped shape, insulating the outer surface of the main body 301 with an insulating material, or The first and second quantum energy generating coils 331 and 332 of the toroidal coil shape are installed to face each other, and the power in the form of a pulse generated by the power supply 333 installed on one side outside the main body 301 is supplied through the conducting wire 333d. Pulsed quantum energy generated in a zero magnetic field by irradiating magnetic fields in the form of pulses in opposite directions and overlapping and annihilating the magnetic fields in the form of pulses in opposite directions at the center distance of the first and second quantum energy generating coils 334 and 335 While irradiating into the body 301, the first and second quantum energy generating coils 331 and 332 are installed on one side of the inside of the main body 301 where the first and second quantum energy generating coils 331 and 332 are installed to face each other. After drilling two holes (not shown) sized to insert a fixing rod at a distance from the center of both surfaces of a rectangular insulation plate made of any one of Teflon, ceramic, and glass materials, stainless steel (STS304), or Wind the coil in a clockwise or counterclockwise direction in a tungsten (W) wire deformed gradient coil shape or toroid coil shape. After attaching the discharge needles 334a and 334b having a certain length at regular intervals to the exposed coil, the winding directions of the adjacent coils are opposite to each other, and then inserted into the fixtures 337a and 337b and the fixing nut 338. keep spacing with and fixing, the discharge electrode plate 334, the fixing nut 338, and the discharge electrode plate 335 are assembled in this order, mounted on the fixtures 337a and 337b attached to the inner circumferential surface of the body, and mounted on one side of the outside of the body 301 A plurality of first quantum energy generating coil/discharge electrode 334 and second quantum energy generating coil/ground electrode 335 through the power supply in the form of a pulse generated from the power supply 336b At an angle of 90 degrees to the flow direction, pulse-shaped magnetic fields in opposite directions are irradiated and opposite directions at the center distance of the first quantum energy generating coil and discharge electrode 334 and the second quantum energy generating coil and ground electrode 335 As the pulse-shaped magnetic field of Discharge starts and a high field electron energy band is formed, and the high field electron energy is irradiated to the air constituent material introduced by the FAN 204 and the odor causing material and harmful material contained in the air in this energy band formed in the air composition Bacteria and viruses in which active radicals such as singlet oxygen and hydroxyl ions generated in this process are suspended in the air by dissociating covalent bonds of substances and odor-causing substances contained in the air and purifying them through oxidation and reduction reactions. A third quantum energy generator 330 with a built-in discharge function for sterilizing and sterilizing by perforating the biofilm of

The inner cylinder 303 has a cylindrical shape, and one part of the outer side is insulated, and two places are sealed with a partition plate (not shown) at intervals inside, and spaced to the left with a left partition plate (not shown) in the circumferential direction. A plurality of polluted air injection holes 304 are perforated, and a plurality of purified air intake ports 305 are perforated in the circumferential direction at a distance from the right partition plate (not shown) to the right, and the inner cylinder 303 is wound on one circumferential surface. A housing 303a having a jacket shape embracing the first quantum energy generator and heating coil 342a and performing a second cathode 344a function is the main body ( 301) is insulated and installed in surface, and a solenoid-shaped ground electrode 345b wound on the circumferential surface in contact with the outer surface of the rectangular ◎-shaped housing 303a is installed on one side of the outer side of the inner tube 303. The second spur gear 346a is installed and the first spur gear 346b is installed so that the teeth of the second spur gear 346a are engaged, and the first spur gear 346b is axially connected to the second electric motor 346c and is spaced apart. A rotation fastening mechanism (346sd) is installed on one side of both ends of the end face, and the second quantum energy generator and heating coil (342a) is supplied with power from the second power supply (342b), and the second cathode (344a) is the second Power is supplied from the fourth power supply 344b, the fourth power supply 344b and the second power supply 342a constitute a bias circuit, and the ground electrode 345b supplies power from the fifth power supply 345c. receive

The outer cylinder 301 has a cylindrical shape, and a portion of the outer side is insulated, and a discharge electrode 345a of a solenoid coil shape wound on a circumferential surface of an inner side is installed, and an outer cylinder portion equal to the area where the discharge electrode 345a of the solenoid coil shape is installed. The first cathode 343a) function, and a jacket-shaped housing 303b embracing the first cathode 343a is installed, and the inner surface of the housing is insulated and insulated to face the first quantum energy generator and heating on the circumferential surface. The coil 341a is installed, and a fastening mechanism 347d for rotation is installed on one side of both ends, and the first quantum energy generator and heating coil 341a receives power from the first power supply 341b, and the first The cathode 343a receives power from the third power supply 343b, the third power supply 343b and the first power supply 341a constitute a bias circuit, and the discharge electrode 345a is the fifth power supply ( 345c).

The first and second quantum energy generators and heating heaters 341a in which the power generated by the first and second power supplies 341b and 342b or pulsed DC power is in the form of a solenoid coil and the winding directions are wound in opposite directions. , 342a) and irradiating the first and second cathodes 343a and 344a with a magnetic field or a pulsed magnetic field at an angle of 90 degrees in the direction of current flow to a temperature that can overcome the work function value of the heating heater material (5000C) ) or higher, hot electrons are emitted from the surface of the material, and power or pulse-type power generated by the first power supply 341b and the third power supply 343b constituting the bias circuit is supplied to the first cathode 343a. At the same time, when power or pulsed power generated by the second power supply 342b and the fourth power supply 344b constituting the bias circuit is supplied to the second cathode 344a,

The hot electrons emitted from the material surfaces of the first and second quantum energy generators and heating heaters 341a and 342a are accelerated to the first and second cathodes 343a and 344a, respectively, and the first and second cathodes 343a and 344a, respectively. Heating the first and second cathodes 343a and 344a above a temperature that can overcome the work function value of the material in a manner that strikes When an AC high voltage or DC high voltage in the form of a pulse generated by the fifth power supply 345c is applied while emitting, a discharge starts between the discharge electrode 345a and the ground electrode 345b and forms a high field electron energy band, Irradiating and heating high electric field electron energy to polluted air flowing in and passing through the band by the pressing force of the pressurized fan 204, pulsed magnetic field irradiation, pulsating quantum energy irradiation, dissociation, ionization, and excitation of the hot electron emission and blow high voltage discharge Quantum energy with a built-in fourth discharge function that purifies odor-causing substances and harmful substances in polluted air through electrochemical reactions such as oxidation and reduction reactions, and sterilizes and sterilizes bacteria and corona19 infectious viruses in polluted air generator 340; and

Contaminated air inlet (404a) and outlet (404b) by drilling a hole (not shown) of a certain diameter in the vertical or diagonal direction on one side of the body 401 of the horizontal or vertical shell and tube shape, and the main body 401 in the vertical direction After installing the body 401 by welding a plurality of holes (not shown) of a certain diameter in the center of both end surfaces in the horizontal direction, the inlet 404a and the outlet 404b of a certain diameter are welded and installed, then the body (401) In a plurality of partition plates (401a) having a diameter less than 2 to 5 mm than the inner diameter, a plurality of holes (not shown) having a diameter of 2 to 5 mm less than the outer diameter of the tube 402 are punched in the center and a plurality of holes in the circumferential direction, perforated holes After inserting the plurality of tubes 402 and the baffle 403 between the plurality of partition plates 401a (not shown), the both ends of the tube are expanded and joined or welded using an expander (not shown) to install After that, the pressurized fan 204 is installed in the polluted air inlet 404a, the outlet 404b is installed in the electric dust collector 200, and the process gas inlet 305a is connected to the quantum energy generator 300 with a built-in discharge function. After connecting the process gas outlet 405b to the inlet of the quantum energy generating device 500, the high-temperature polluting gas introduced by the pressurized fan 204 is introduced into the inlet 404a installed at the lower part of the main body 401. In the process of being discharged to the outlet 404b installed on the upper part of the body 401 in the diagonal direction through the internal baffle 403 and the tube 402 in the body 401, it is discharged from the quantum energy generator 300 with a built-in discharge function. Heat to adjust the temperature of the polluting gas through an indirect heat exchange method in the process of being introduced into the process gas inlet 405a installed in the center of the left side of the body 401, passing through the plurality of tubes 402 and discharged to the outlet 405b Exchange unit 400; and

In the circumferential direction of the cylindrical or square column-shaped insulating material, acid-resistant and corrosion-resistant material through which gaseous substances including air or liquid substances including water flow in and out. The 2n first and second quantum energy generating coils are wound with a predetermined number of turns in opposite directions to each other, are installed to face each other, and are connected to the power supply 523 by conducting wires, and have a predetermined length within the body 501 at intervals. The + pole 511 of the electrolyzer 510) of the semi-circular column shape having The outlet pipe (405b) of the heat exchange part is connected to the upper part of the screw thread (not shown), and the diffuser pipe 502 is installed in the lower part (not shown), and a DC power supply ( 513) is installed and is connected to the output side -pole terminal of the DC power supply 510 on one side 512 of the diffuser 502, the power supply 510 of the electrolyzer 510 in the control panel 600 and the quantum energy generator ( When power is supplied to the power supply 523 of the 520), when the pulsed DC power generated from the power supply 510 is supplied to the + pole 511 and the - pole and the diffuser 512, the electrolysis action proceeds to generate water and A state in which the heavy metal contained in the liquid material including water is removed and the pulsed magnetic field generated by the power supply 523 of the quantum energy generator 520) and the pulsed magnetic field generated in opposite directions overlap each other and disappear The pulsating quantum energy generated in the It is sprayed on gaseous substances including air or liquid substances including water and reacts with active radicals and pollutants to purify pollutants, sterilize bacteria and viruses floating in the air, purify water and liquid substances, and heavy metals contained in water by spraying onto water and liquid substances of high temperature active radical substances by removing Quantum energy irradiation unit 500 that sterilizes bacteria by perforating the biofilm of bacteria such as algae by impact and active radicals and perforating the biofilm of algae in water by the electroporation method; and by data transmitted by the sensor The additive supply unit 100 , the electric dust collector 200 , the quantum energy generator 300 , and the control panel 600 for controlling the power supplied to the quantum energy irradiation unit 500 in a cut-off supply method are further included.

2 is a cross-sectional view showing the additive supply unit of FIG. 1 , and when described with reference to the attached drawings, the additive supply unit 100 includes a city water storage tank 101 , an additive storage tank 102a-e, and an additive stock solution supply pipe 103 . , City water supply pipe 104, agitator 105, pump 106, additive supply pipe 107, solenoid valves 107a, 107b, heating chamber 108, electric heater 109, supply pipe 110, air flow It is composed of a nozzle 111 , a power supply unit 112 , and an air compressor 113 . Additive storage tanks (102a, 102b, 102c, 102d, 102e) are installed on one side of the upper side of the sea water storage tank 101 of a rectangular parallelepiped shape and are connected to the pipe 103, and a stirrer 105 is installed in the upper center, and , a city water supply pipe 104 is installed on one side of the upper side, and a pipe 107 connected to the pump 106 is installed on the lower side of the other side. The heating chamber 108, in which the electric heater 109 is wound by a certain number of turns in a spiral form on the outer surface of the upper side of the pump 106, is the pump 106 and the pipe 107 in which the electromagnetic valves 107a and 107b are installed on one side. is connected to In addition, a supply pipe 110 is installed on one upper side of the heating chamber 109 and is connected to a nozzle 111 inside the venturi 130 installed on one side of the suction pipe of the first and second quantum energy generators 200 and 300 .

First, when the solenoid valve (not shown) of the municipal water supply pipe 104 is opened and the municipal water storage tank 101 is filled with an appropriate amount of municipal water, the additive storage tanks 102a, 102b, 102c, 102d, 102e are filled with urea, ammonia, iso Any one or more of the reducing agents for nitrogen oxide (NOX) removal, such as propyl alcohol and isobutyl alcohol, are selected and stored in the additive storage tank 102a, and in the additive storage tank 101b, ammonia, calcium hydroxide, calcium oxide, carbonate Calcium, calcium bicarbonate, sodium carbonate, etc., any one or more materials selected from among sulfur oxide (SOX) removers are selected and stored, and also N-aminomorphulline, 1-amino-4-methylpiperazine, N in the additive storage tank 102c -Aminohexamethyleneimine, 1-aminopyrrolidine, 1-aminopiperidine, hydroxylamine, N,N-diethylhydroxylamine, N-isopropylhydroxylamine, etc. any one or more of the oxygen scavengers Selected and stored, in addition, water, hydrogen peroxide, 4-allyl-2-methoxyphenol (eugenol), 3-(2-bornyloxy)-2-methyl-1-propanol, 2-tert-butylcyclohexaneol, 4-tert-butylcyclohexaneol, benzyl alcohol, 1-decanol, 9-decene-1-ol, dihydroterpineol, 2,4-dimethyl-4- OH-Radical releasing agents such as cyclohexen-1-yl-methanol, 2,4-dimethylcyclohexylmethanol, 2,6-dimethyl-2-heptanol, and 2,6-dimethyl-4-heptanol are stored ,

Amino acids such as dimethylsilyldimethylamine, N,N-dimethyltrimethylsilylamine, hexamethylsilazane, N,O-bis(trimethylsilyl)trifluoroacetamide, and bis(dimethylamino)dimethylsilane in the additive storage tank 101e After any one or more of the particle coagulants such as silane and polyvinyl alcohol are selected and stored, the solenoid valve 103e of the supply pipe is opened and the appropriate amount of water is supplied to the storage tank 101 by gravity difference, and the agitator 105 is operated for a certain period of time and mix the water and the supplied additives. When the mixing is completed, the pump 106 sucks and pressurizes the additive with the concentration adjusted from the city water storage tank 101 to supply it to the supply pipe 107 and the solenoid valves 107a and 107b are opened, and the heating chamber 108 It is supplied and sprayed to the nozzle (108a) installed inside. The heating chamber 108 is installed by winding a heating heater on the outer surface, and when power is supplied from the control panel 112 to the electric heater 109 and the liquid additive is sprayed from the nozzle 108a while being heated to a high temperature, After vaporization, it is supplied to the supply pipe 110 and the nozzle 203a inside the venturi 203 is supplied, and the two-fluid type nozzle 203a transfers the compressed air generated by the air compressor 113 to the supply pipe 113a. Contaminated air, compressed air, and additive vapor that is supplied and introduced into the venturi 203 by the air fan 204 are mixed, and the pressure of the air fan 204 into the second stage dust collector 220 of the electric dust collector 200 is applied. is transported by

3 is a cross-sectional view showing the electric dust collecting unit of FIG. 1 , and when described with reference to the attached drawings, the electric dust collecting unit 200 includes a main body 201, a first quantum energy generating coil 211a, and a second quantum energy generating coil ( 211b), a discharge electrode 211, a third quantum energy generating coil 212a, a fourth quantum energy generating coil 212b, a dust collecting electrode 212, a conducting wire 213, and a quantum energy generator composed of a high voltage generator 214 The single-stage electric dust collector 210; and the venturi ejector 203; and the main body 202, the first quantum energy generating coil 221a, the second quantum energy generating coil 221b, the discharge electrode 221, the third Quantum energy generator and two-stage dust collector composed of a quantum energy generating coil 222a, a fourth quantum energy generating coil 222b, a fifth quantum energy generating coil and dust collecting electrode 222, a wire 223, and a high voltage generator 224 (220).

The shape of the main body 201 of the single-stage electrostatic precipitator 201 has a conical shape at both ends and a cylindrical shape in the middle, and a first quantum energy generating coil ( 211a) is installed, and a second quantum energy generating coil 211b is installed on the outer circumferential surface of a plurality of cylinders 211c installed on a partition plate (not shown) installed therein,

The conducting wire extends from the second quantum energy generating coil 211b, is bent 90 degrees downward from the end of the cylinder 211c, and then is bent again in the horizontal direction by 90 degrees to the middle length of the cylinder 212c in which the dust collecting electrode is installed. After being extended, a spring-shaped discharge electrode 211 having a plurality of discharge needles installed outside is installed.

A power supply 214 is installed on one side of the outside of the main body 201, so that the output-side wire is connected to the first and second quantum energy generating coils 211a and 211b, and the winding directions of these coils are opposite to each other.

The installation of the dust collecting electrode 212 is installed by winding a predetermined number of turns in a clockwise or counterclockwise direction in the circumferential direction on the right side of the outer surface of the cylindrical portion of the main body 201, so that the third quantum energy generating coil 212a is wound, and the main body ( 201) A partition plate (not shown) with a diameter of 3 to 5 mm smaller than the inner diameter of the body 201 is manufactured on the right side of the cylindrical part as shown in FIG. 4b, and model picking using a laser in the circumferential direction of the manufactured partition plate Using technology, a plurality of circles with a diameter of 30 cm to 50 cm are drilled in the circumferential direction, and a plurality of bolt holes for flange fastening (not shown) are additionally drilled at a distance (extended) separated by 20 mm from the perforated surface, and then from 30 cm to A plurality of cylinders 212c having a diameter in the range of 50cm and a length of 80cm to 1m are manufactured, and at one end of the cylinder 212c, the inner diameter is in the range of 30cm to 50cm, the outer diameter is 34cm to 54cm, and a bolt fastening hole ( A plurality of cylindrical dust collecting electrodes 212 manufactured by welding a plurality of perforated flanges (not shown) are fabricated, and the produced dust collecting electrodes 212 are attached to a partition plate (not shown) with perforated bolt holes. After attaching by fastening bolts and nuts to match, a certain number of turns are wound so as to be opposite to the winding direction of the third quantum energy generating coil 212a in the circumferential direction of the outer surface of the plurality of cylinder-shaped dust collecting electrodes 212. 4 After forming the quantum energy generating coil 212b, one end of the conducting wire is connected to one end of the third quantum energy generating coil 212a, and the other end is bonded to one side of the outer surface of the collecting electrode 212 , After insulating the outer surface of the dust collecting electrode 212 and the flange bonding surface and the outer surface of the fourth quantum energy generating coil 212b, make them match with the perforated bolt holes of the partition plate (not shown), and then fasten the bolts and nuts. After installing the collecting electrodes 212, a partition plate (not shown) is inserted into the inner right side of the main body 201, and then the connection surface is welded to install.

The third and fourth quantum energy generating coils 212a and 212b are wound in a coil shape in which any one of a Maxwell coil, a Helmholtz coil, a solenoid coil, a cusp coil, and a toroid coil gradient coil shape is selected.

Installation of the discharge electrode 211 is performed by winding a certain number of turns in a clockwise or counterclockwise direction in the circumferential direction on the left side of the outer surface of the cylindrical part of the main body 201 in the opposite direction to the winding direction of the third quantum energy generating coil 212a. 1 The quantum energy generating coil 211a is wound and installed, and as shown in FIG. 4b on the left side of the cylindrical part of the main body 201, a partition plate (not shown) with a diameter 3 to 5 mm smaller than the inner diameter of the main body 201 is installed. In the circumferential direction of the manufactured partition plate, a plurality of circles with a diameter of 30 cm to 50 cm are punched in the circumferential direction by using a model picking technique using a laser, and the flange is fastened at a distance (extended) separated by 20 mm from the perforated surface. A bolt hole (not shown) is additionally drilled, and then a plurality of cylinders 211c having a diameter in the range of 30cm to 50cm and a length of 20cm to 40cm are manufactured, and at one end of the cylinder 211c, the inner diameter is in the range of 30cm to 50cm, and the outer diameter is in the range of 30cm to 50cm. A plurality of cylinders 211c are manufactured by welding a flange (not shown) having a plurality of bolt fastening holes (not shown) to a center line of 34cm to 54cm and a width of 40mm, and the manufactured cylinder 211c is divided into a partition plate. After matching the bolt hole drilled in (not shown) and attaching the bolt and nut, as shown in 4b, a logoski coil shape (not shown) or deformation in the circumferential direction of the outer surface of the cylinder 211c In a Rogoski coil shape (not shown), a predetermined number of turns are wound in the circumferential direction of the outer surfaces of the plurality of cylinders 211c to be in the opposite direction to the winding direction of the first quantum energy generating coil 211a, so that the second quantum After forming and extending the energy generating coil 211b and bending 90 degrees to the center of the cylinder as shown in FIG. 4a, and bending 90 degrees in the horizontal direction from the center of the cylinder, the cylindrical dust collecting electrode 212 extends as much as the center distance After winding a certain number of turns in a clockwise or counterclockwise spring shape to have a diameter in the range of 1/10 to /15 of the cylinder diameter, the Discharge electrodes 211 are manufactured by attaching a plurality of discharge needles in the form of needles with sharp ends at intervals in the circumferential direction, and a partition plate (not shown) in which the plurality of discharge electrodes 211 are installed is placed on the left side of the main body 201 . After the discharge electrode 211 is inserted to the center distance of the cylinder for the dust collecting electrode, the joint surface is welded and installed.

The second quantum energy generating coil 211b and the discharge electrode 211 are made of stainless steel (STS304) or tungsten (W).

The first and second quantum energy generating coils 211a and 211b are wound in a coil shape in which any one of a Maxwell coil, a Helmholtz coil, a solenoid coil, a cusp coil, a toroid coil, and an inclined coil shape is selected.

The direction of the third quantum energy generating coil 212a wound on the right circumferential surface at a distance from the direction of the first quantum energy generating coil 211a wound on the left circumferential surface of the main body 201 is opposite to each other By winding the first quantum energy generator 215 including the power supply 214 is configured.

In the main body 201, a plurality of cylinders 211c installed on the left inner partition plate (not shown) of the main body 201 are spaced apart from the direction of the second quantum energy generating coil 211b wound on the circumferential surface of the inner partition plate on the right circumferential surface. The direction of the fourth quantum energy generating coil 212b wound on the circumferential surface of the plurality of installed cylinders 212c is opposite to each other, and the second quantum energy generator 216 including the power supply 214 is configured. do.

The -pole wire of the DC power supply 214 is a Maxwell coil (not shown), a Helmholtz coil (not shown), a solenoid coil (not shown), a cusp coil (not shown) on the circumference of the main body 201 column. time), toroid coil (not shown), inclined coil (not shown), any one shape is selected from among the shapes and connected to the first quantum energy generating coil (211a) wound with a certain number of turns in the clockwise or counterclockwise direction and then extended After perforating a part of the outer side of the main body 201 and wiring it inside, as shown in FIG. 4B , a second quantum energy generating coil 211b wound on the outside of a cylinder 211c installed in a plurality on a partition plate (not shown) and a plurality of discharge electrodes 211 integrally installed on the second quantum energy generating coil 211b, respectively.

In addition, the pulsed power generated by the power supply 214 is supplied to the discharge electrode 211 via the first quantum energy generating coil 211a and the second quantum energy generating coil 211b through the conducting wire 213 . When a magnetic field in the form of a pulse is generated at a 90 degree angle to the current flow direction, the winding directions of the first quantum energy generating coil 211a, the second quantum energy generating coil 211b and the discharge electrode 211 are opposite to each other. pulsation in the zero magnetic field state in which the magnetic fields in the form of pulses in opposite directions overlap each other at the center distance of the first quantum energy generating coil 211a, the second quantum energy generating coil 211b, and the discharge electrode 211 When quantum energy is generated and irradiated and a high pulsed voltage is supplied to the discharge electrode 211 at the same time, the electric field is concentrated on the needle-shaped discharge electrode 211 attached to the outer surface of the discharge electrode, and the cylindrical dust collecting electrode 212 and Ions generated in the discharge process by irradiating a pulsed magnetic field and pulsating quantum energy during the process of ionization by obtaining electrons and ionization of nitrogen molecules, oxygen molecules, and heavy metals contained in dust as a strong electric field is formed and coro-discharge is initiated The ionization rate in the discharge electrode 211 and the dust collection rate in the dust collecting electrode 212 are improved by extending the lifetime.

The power supply 214 is selected from among the power supply 613 of FIG. 6d, the power supply 328 of FIG. 7, the power supply 333 of FIG. 9, and the power supply 336 of FIG. become used

The first stage dust collector 210, a venturi ejector 203 is installed at the right end of the conical shape of the main body 201, and a two-fluid nozzle 111 connected to the additive 100 supply unit is installed in the neck 203a, and the venturi ejector ( 203) The body 202 finished in the conical shape of the two-stage dust collector 220 is connected to the end.

The first collected polluted air flows into the venturi ejector 203 under the pressure of the FAN 204, and in the additive supply unit 100, a reducing agent for removing nitrogen oxide (NOX), a sulfur oxide (SOX) remover, an oxygen scavenger, and a hydroxyl group ( Nitrogen oxide (OH-Radical) that is selected from a release agent and a particle coagulant compound, is pressurized by the pump 106 and the air compressor 120, and is supplied to the air nozzle 203b connected to the venturi ejector neck 203a ( Any one or more additives among a reducing agent for NOX) removal, a sulfur oxide (SOX) remover, an oxygen scavenger, a hydroxyl group (OH-radical) releasing agent, and a particle coagulant are supplied and sprayed, and contaminants, dust, and bacteria are supplied and sprayed in the first stage dust collector 210 The sterilized air is sprayed and mixed and introduced into the main body 202 of the two-stage dust collector 220 .

The shape of the main body 202 of the two-stage electrostatic precipitator 220 has a conical shape at both ends, a cylindrical shape in the middle, and a first quantum energy generating coil 221a at intervals on the left side outside the cylindrical part of the main body 202. And a second quantum energy generating coil 222a is installed, and the winding directions of these coils 221a and 222a are opposite to each other.

The installation of the dust collecting electrode 222 is the third quantum energy generating coil 222a for the discharge electrode 221 in the circumferential direction on the right side of the outer surface of the cylindrical part of the main body 202, and the winding direction of the coil is clockwise or counterclockwise. Although it is wound, a predetermined number of turns are wound so as to be in the opposite direction to the winding direction of the first quantum energy generating coil 221a. As shown in FIG. 4b on the right side of the cylindrical part of the body 202, a partition plate (not shown) having a diameter 3 to 5 mm smaller than the inner diameter of the body 202 is manufactured, and the circumferential direction of the manufactured partition plate (not shown) By using a model-picking technique using a laser, a plurality of circles with a diameter of 30 cm to 50 cm are drilled in the circumferential direction, and a bolt hole for flange fastening (not shown) is additionally drilled at a distance (extended) separated by 20 mm from the perforated surface. Then, a plurality of cylinders 222c having a diameter in the range of 30cm to 50cm and a length of 80cm to 1m are manufactured, and at one end of the cylinder 222c, an inner diameter in a range of 30cm to 50cm, an outer diameter of 34cm to 54cm, and a bolt in the center line among 40mm in width A flange (not shown) with a plurality of fastening holes (not shown) is welded and attached, and a third quantum energy generating coil 222a is installed and a second quantum energy generating coil 221b in the circumferential direction outside the cylinder 222c. The fourth quantum energy generating coil 222b is formed by winding a certain number of turns in the opposite direction to the winding direction of Mark in the circumferential direction, and then mark the marked circumferential surface by dividing it into 2, 4, 6, and 8 equal parts, and to fit the marked area, field coil shape for motor stator, flat coil shape, deformed shape A plurality of fifth coils wound by selecting any one of the solenoid coil shapes are installed on the marked portion on the inner surface of the cylinder 222c, and the winding directions of adjacent coils and facing coils are constant so that they are opposite to each other. After winding the number of turns to form a fifth quantum energy generating coil 222d in the form of an RF coil, and installing a plurality of dust collecting electrodes 222 with the upper surface of the winding finished in the form of a cover, the dust collecting electrode 222 is installed After inserting a disc (not shown) into the body 202 at a distance from the right end of the cylinder at a certain depth, welding and fixing it, the output side of the power supply 224 installed on one side of the outside of the body 202 + The terminal and the third quantum energy generating coil 222a and the plurality of fourth quantum energy generating coils and dust collecting electrodes 222 are connected with the conductive wire 223 .

The installation of the discharge electrode 221 is a coil shape in which any one of a Maxwell coil, a Helmholtz coil, a solenoid coil, a cusp coil, a toroid coil, and an inclined coil shape is selected on the left side of the main body 202 column in a clockwise or counterclockwise direction. The first quantum energy generating coil 221a is formed by winding a predetermined number of turns in a clockwise direction to be in the opposite direction to the winding direction of the third quantum energy generating coil 222a. A partition plate (disc) (not shown) with a diameter 3 to 5 mm smaller than the inner diameter of the cylinder body 201 is manufactured, and the cylinder (222c) shape is collected by using a model picking technique using a laser on the partition plate (not shown). After drilling the same number as the number of dust collecting poles 222 on the circumferential surface with the same diameter as the diameter of the electrode 222, drill a plurality of bolt fastening holes of a certain diameter in the circumferential direction spaced 20 mm from the perforated surface, and then A plurality of cylinders having a diameter in the range of 30cm to 50cm and a length of 20cm to 30cm are manufactured, and a plurality of cylinders having an inner diameter ranging from 30cm to 50cm at one end, an outer diameter of 34cm to 54cm and a width of 40mm with a plurality of bolt fastening holes are drilled in the center line ( 221c) is manufactured, and the manufactured cylinder is aligned with the bolt hole punched in the partition plate (not shown) and fastened with bolts and nuts to attach it, and then, as shown in 4b, in the circumferential direction of the outer surface of the cylinder 221c. 1 By winding a certain number of turns in a Rogoski coil shape or a modified Rogoski coil shape to be in the opposite direction to the winding direction of the quantum energy generating coil 221a, the second quantum energy generating coil 221b is formed and After extending and bending 90 degrees to the center of the cylinder, and after bending 90 degrees in the horizontal direction from the center of the cylinder, the dust collecting electrode 222 extends as much as the inner center distance of the cylinder, and then 1/10 to /15 of the cylinder diameter of the dust collecting electrode 222 After winding a certain number of turns in a clockwise or counterclockwise spring shape to have a diameter within the range, cut and finish, and space the wound surface A discharge electrode 221 is manufactured by attaching a plurality of needle-shaped discharge needles with a sharp tip in the circumferential direction, and a partition plate (not shown) provided with a plurality of discharge electrodes 221 is installed on the left side of the main body 202 inside the discharge electrode ( 221) is inserted up to the center distance of the cylinder for dust collecting electrode and welded to the joint surface for installation.

The second quantum energy generating coil 221b and the discharge electrode 221 are made of stainless steel (STS304) or tungsten (W).

The -pole wire of the DC power supply 224 is selected from among Maxwell coils, Helmholtz coils, solenoid coils, cusp coils, toroid coils, and inclined coil shapes on the outer circumferential surface of the main body 202 column to rotate clockwise or After connecting to the first quantum energy generating coil 221a wound in a predetermined number of turns in the counterclockwise direction, extending it, piercing the outer part of the main body 202 and wiring it inside, a plurality of cylinders installed on a partition plate (not shown) (222c) are respectively connected to the plurality of discharge electrodes 221 integrally installed on the second quantum energy generating coil 221b and the second quantum energy generating coil 221b wound outside.

The power supply 224 is selected from among the power supply 613 of FIG. 6d, the power supply 328 of FIG. 7, the power supply 333 of FIG. 9, and the power supply 336 of FIG. become used

The direction of the third quantum energy generating coil 222a wound on the right circumferential surface at a distance from the direction of the first quantum energy generating coil 221a wound on the left circumferential surface of the main body 202 is opposite to each other By winding the third quantum energy generator 225 including the power supply 224 .

A plurality of cylinders 221c installed on the left inner partition plate (not shown) of the main body 202 are spaced apart from the direction and spacing of the second quantum energy generating coil 221b wound on the circumferential surface of the inner partition plate on the right circumferential surface. The direction of the fourth quantum energy generating coil 222b wound on the circumferential surface of the plurality of installed cylinders 222c is opposite to each other, and the fourth quantum energy generator 225 including the power supply 224 is configured. do.

Adjacent coils wound in opposite directions among the fifth quantum energy generating coils 222d in the form of RF coils wound on the inner circumferential surface of the cylinder 222c installed in a plurality of cylinders installed on the right inner partition plate (not shown) of the main body 202 A plurality of coils installed to face each other or to each other and the power supply 224 are combined to configure the fifth quantum energy generator 226 .

In addition, the first quantum energy generating coil 221a is wound in a counterclockwise direction so that the magnetic field generated in the current flow direction in the coil is in the right direction, and the third quantum energy generating coil 222a is wound in a clockwise direction. The magnetic field generated in the current flow direction in the coil is in the left direction, so that the magnetic fields in opposite directions overlap and disappear at the center distance between the first quantum energy generating coil 221a and the third quantum energy generating coil 222a to become a zero magnetic field. In this state, pulsating quantum energy is generated, and the generated pulsating quantum energy is irradiated inside the body.

The power supply 224 is installed on one side outside the main body 201, and the first and second quantum energy generating coils 221a and 221b, and the third and fourth quantum energy generating coils 222a, 222b with the conducting wire 223. ) and the power supply 224 are connected and installed.

When the pulsed power generated by the power supply 224 is supplied to the first quantum energy generating coil 221a, the second quantum energy generating coil 221b, and the discharge electrode 221 through the conducting wire 223, the current flows A magnetic field in the form of a pulse generated at an angle of 90 degrees to the direction is generated, and the first quantum energy generating coil 221a and the second quantum energy generating coil 221b have the winding directions of the coils opposite to each other and then in the opposite direction. A magnetic field is generated, and at the center distance of the first quantum energy generating coil 221a and the second quantum energy generating coil 221b, the magnetic fields in the form of pulses in opposite directions overlap and disappear, so that the pulsating quantum energy is generated in a zero magnetic field state. A third quantum energy generating coil 222a, a fourth quantum energy generating coil 222b, and a fifth quantum energy are generated and irradiated, and the pulsed power generated by the power supply 224 is passed through the conducting wire 223. When supplied to the generating coil and dust collecting electrode 221, a pulse-shaped magnetic field is generated at an angle of 90 degrees to the current flow direction. The third quantum energy generating coil 222a and the fourth quantum energy generating coil 222b are coils. Since the winding directions of are in opposite directions, a pulsed magnetic field is generated in the opposite direction, so that at the center distance of the third quantum energy generating coil 222a and the fourth quantum energy generating coil 222b, a pulsed magnetic field in opposite directions is generated. The magnetic fields overlap and disappear to generate and irradiate pulsating quantum energy in a zero magnetic field state, and, among the fifth quantum energy generating coils 222d in the form of RF coils, adjacent coils wound in opposite directions or a plurality of installed facing each other A magnetic field in the form of a pulse is generated between the coils in the opposite direction and then in the opposite direction, and the magnetic field in the form of a pulse in the opposite direction is generated between adjacent coils or between a plurality of coils installed to face each other. When pulsating quantum energy is generated and irradiated and a high voltage in the form of a pulse is supplied to the discharge electrode 221 at the same time, the electric field is concentrated on the needle-shaped discharge electrode attached to the outer surface of the discharge electrode 221 and A strong electric field is formed with the dust collecting electrode 222 in the form of an RF coil attached to the inner circumferential surface of the cylinder 222c, and ionized dust is attached to the dust collecting electrode 222 and collected. , Oxygen molecules and heavy metals contained in the dust are irradiated with pulsed magnetic field and pulsating quantum energy in the process of ionization by obtaining electrons to extend the life of the ions and improve the ionization rate, so that the dust collection rate is also improved in the dust collecting electrode 222.

In addition, when the + power in the form of a pulse generated by the power supply 224 is supplied to the third quantum energy generating coil 222a and the dust collecting electrode 222 in the form of a plurality of RF coils through the conducting wire 223, the current flow direction When a pulsed magnetic field generated at an angle of 90 degrees is generated and at the same time a pulsed high voltage is supplied to the dust collecting electrode 222, + power is supplied to the dust collecting electrode 222 in the form of an RF coil installed inside the cylinder to supply the discharge electrode. Dust and contaminants ionized into negative ions by forming and concentrating an electric field with 221 are in the form of a plurality of RF coils and are collected by attachment to the dust collecting electrode 222 to which + power is applied. In the process of collecting dust, a pulsed magnetic field is generated. Irradiated to extend the lifespan of the ions to improve the dust collection rate, pulsating quantum energy is generated and irradiated in the zero magnetic field state where the magnetic fields in the form of pulses in opposite directions overlap each other and disappear, so that the ionization rate and the dust collecting electrode 222 are generated at the discharge electrode 221 ) to further improve the dust collection rate.

The material of the main bodies 201 and 202 of the first-stage dust collector 210 and the second-stage dust collector 220 is any one of conductive materials such as carbon steel (ss400), copper (CU), aluminum (Al), stainless steel (STS304), etc. After selecting a material, insulating material is applied to the inside, and powder coating or insulating treatment is applied to the outside to finish.

In addition, the material of the discharge electrodes 211 and 221 of the first-stage dust collector 210 and the second-stage dust collector 220 is selected from among materials such as tungsten (W), titanium (Ti), and stainless steel (STS304), and dust collection The electrodes 212 and 222 are made of aluminum (Al) or stainless steel (STS304).

In addition, when the high voltage DC power generated by the power supply 214 of the first-stage electric dust collector 210 is supplied to the discharge electrode 211 through the conducting wire 213, corona discharge is initiated to dissociate dust and contaminants contained in the air. And during the ionization process, electrons are received and anionized, and at the same time, the pulse-type power generated by the power supply 224 is installed to face each other at a distance on the outer surface of the main body 201 column, and is opposite to the winding direction of the coil. When the first and second quantum energy generating coils 221a and 222a are supplied through the conducting wire 223, the pulsed magnetic field generated at a 90 degree angle of the current flow is irradiated to the right in the first quantum energy generating coil 221a. , and the second quantum energy generating coil 222a is irradiated in the left direction, so that at an intermediate distance point between the first quantum energy generating coil 221a and the second quantum energy generating coil 221a, a magnetic field in the form of a pulse in the opposite direction is generated. The pulsating quantum energy generated in the overlapping and extinct zero magnetic field is irradiated and contained in the air, and polluted air is sucked by the pressing force of the suction fan 204 while extending and activating the residence time of the ionic material dissociated during the corona discharge process. Nitrogen oxide that is pressurized and introduced into the air nozzle 203b connected to the neck 203a of the venturi 203 during the passage of the first-stage electric dust collector 210, the venturi ejector 203 and the second-stage dust collector 220 (NOX) Reducing agent or sulfur oxide (SOX) scavenger or oxygen scavenger, hydroxyl group (OH-radical) releasing agent, or particle coagulant is supplied with an anionized material passing through the venturi ejector 203 The first and second quantum energy generating coils 221a and 221b installed on the outer circumferential surface of the main body 202 while mixing with the air, and the third quantum energy generating coil 222a, installed on the inner circumferential surface of the cylinder 222c A fifth quantum energy generating coil (2) which is the first RF coil to which any one of a plurality of motor stator field coil shapes, a flat coil shape, a deformed solenoid coil, and an inclined coil shape is selected and applied In 22b), the first and second stage dust collecting units in the control panel 600 while passing through the plurality of discharge electrodes 221 (-electrodes) and dust collecting electrodes 222 (+ electrodes) while irradiated with pulsed magnetic field and pulsating quantum energy in 22b) When the pulsed DC power generated by the DC high voltage generators 214 and 224 of 210 and 220 is supplied to the discharge electrodes 211 and 221 and the dust collecting electrodes 212 and 222, electrons are obtained and the anionized material is collected by the dust collecting electrodes 212 and 222. The first, second, third, and fourth quantum energy generating coils 211a, 211b, 212a, 212b of the first stage collector 210 in the process of being exhausted and recovered by a dust removal device (not shown) after a certain period of time has elapsed. And the first, second, third, fourth, and fifth quantum energy generating coils (221a, 221b, 222a, 222b, 222d) of the two-stage collector 220, the power supply of the first and second stage dust collectors 210 and 220 ( When the pulsed DC power generated in 214 and 224 is supplied through the conductors 213 and 224, the first and second quantum energy generating coils 211a and 211b are wound in opposite directions in the first stage electric dust collector 210. , In the third and fourth quantum energy generating coils 212a and 212b and the first and third quantum energy generating coils 211a and 212a and the second and fourth quantum energy generating coils 212a and 222a in opposite directions A pulsed magnetic field is generated, and pulsed magnetic fields in opposite directions overlap each other at the center distance of the coils, and the pulsating quantum energy generated in the zero magnetic field is irradiated and introduced into the air by negative ions and positive ions. By extending and activating the residence time of the sexual material, the ionization rate in the discharge electrode 211 is improved, and the dust collection rate in the dust collecting electrode 212 is improved,

The first and second quantum energy generating coils 221a and 221b, the third and fourth quantum energy generating coils 222a and 222b and the first, The third quantum energy generating coils 221a and 222a and the second and fourth quantum energy generating coils 221a and 222b and the cylinder 222c are installed in 2n pieces and have a plurality of RF coils wound in opposite directions. In the dust collecting electrodes 222 facing each other of the fifth quantum energy generating coil and dust collecting electrode 222, magnetic fields in the form of pulses in opposite directions are generated, and the magnetic fields in the form of pulses in opposite directions overlap each other at the center distance of the coils. The discharge electrode 221 by extending and activating the residence time of the anionic material and the cationic material generated by the corona discharge in the air and the discharge electrode 221 that is irradiated and irradiated with the pulsating quantum energy generated in the zero magnetic field state that has been extinguished. to improve the ionization rate in the dust collecting electrode 222, improve the dust collection rate in the dust collecting electrode 222, and a reducing agent or sulfur oxide (SOX) remover or oxygen for nitrogen oxide (NOX) removal that is injected and injected into the air nozzle 203b connected to the venturi neck Water molecules of the scavenger or hydroxyl group (OH-Radical) releasing agent or particle coagulant are irradiated with magnetic field and quantum energy to have electrostatic traction, cause interference over long distances, and reduce hydrogen bonding between water dipoles It is high and the mass of water molecules becomes smaller, causing a so-called 'microcluster' phenomenon, and the ordered ground state is permanently preserved. It facilitates the removal of contaminants contained in the air.

In addition, by configuring a bias circuit between the power supply 210 of the first stage dust collector 210 and the power supply 224 of the second stage dust collector 220 , the ionized material generated by corona discharge from the discharge electrode 221 is collected at the dust collecting electrode 222 . ) direction to accelerate the ionized material in the direction of the dust collecting electrode 222, thereby improving dust collecting efficiency.

The air from which contaminants and dust are removed from the dust collecting unit 200 is supplied to the quantum energy generating unit 300 by the pressing force of the FAN 204 .

5 is a cross-sectional view showing the first quantum energy generator of FIG. 1 , and when described with reference to the attached drawings, the first quantum energy generator 310 is

The main body 301, the insulator 302 formed on the inner surface of the main body, a plurality of first quantum energy generating coils and discharge electrodes 311, a plurality of second quantum energy generating coils and ground electrodes 312, a pulse type power supply ( 313), and a conductive wire 314. The first quantum energy generating coil and discharge electrode 311 and the second quantum energy generating coil and ground electrode 312 have a trigger coil or solenoid coil shape and a modified shape of these coils.

6A is a cross-sectional view showing the first quantum energy generating coil/discharge electrode 311a and the second quantum energy generating coil/discharging electrode 312a of the trigger coil shape or solenoid coil shape (first shape) of FIG. Referring to the drawings, the first quantum energy generating coil and discharge electrode 311 is made of any one of tungsten (W), titanium (Ti), stainless steel (STS304) and hastalloy materials having a certain diameter. This is selected and used, and the first quantum energy generating coil and discharge electrode 311 is wound with a certain number of turns in a clockwise or counterclockwise direction, and a plurality of protrusion-shaped discharge electrodes are formed at intervals on the outer and inner surfaces of the coil wound with a certain number of turns. It is attached by welding or thread processing, and the second quantum energy generating coil/ground electrode 312 is rotated counterclockwise or clockwise at a distance from the discharge electrode protruding inside the first quantum energy generating coil/discharge electrode 311. The first quantum energy generating coil and discharge electrode 311 is wound in a direction opposite to the winding direction, and a plurality of protrusion-shaped discharge electrodes 311e are welded at intervals on the outer and inner surfaces of the coil wound with a fixed number of turns. Or it is manufactured by attaching it by thread processing.

6B is a cross-sectional view showing a second shape of the first quantum energy generating coil/discharge electrode 311 and the second quantum energy generating coil/ground electrode 312. Referring to the accompanying drawings, the second shape is deformed. In the case of the first quantum energy generating coil and discharge electrode 311b in the form of a trigger coil or solenoid coil in After winding a certain number of turns, it is wound in multiple stages in a counterclockwise or clockwise direction, which is the opposite direction. After the first stage and the first stage, the second stage and the second stage are wound with a certain number of turns in the clockwise direction, and after the second stage and the second stage, a fixed number of turns are wound again in the counterclockwise direction, ending in multi-stage such as three stages, and also serves as the first quantum energy generating coil. The ground electrode 312b is inserted into the first quantum energy generating coil and discharge electrode 311b and is wound with a predetermined number of turns clockwise at a distance from the discharge needle 311e, counterclockwise after the first stage. After the second stage and the second stage, which are wound with a certain number of turns in the direction It is manufactured by attaching by welding or thread processing.

In addition, for the first quantum energy generating coil and discharge electrode 311, any one material selected from among tungsten (W), titanium (Ti), stainless steel (STS304), and hastalloy material having a certain diameter is selected and used.

A first quantum energy generating coil and discharge electrode 311 and a second quantum energy generating coil in the form of a multi-stage trigger coil or solenoid coil in which the winding direction of the pulsed power generated by the power supply 313 is wound in the opposite direction at each end When supplied to the cum ground electrode 312

In the first quantum energy generating coil/discharge electrode 311b and the second quantum energy generating coil/ground electrode 312b, pulsed magnetic fields in opposite directions are irradiated and pulses in opposite directions at the center distance of the discharge electrodes 311 and 312 In a state in which the magnetic field of the form of magnetic field is superimposed and extinguished, pulsating quantum energy is generated and irradiated. Because the winding directions of the coils are different for each adjacent end (311b1, 311b2, etc.) within the first quantum energy generating coil and discharge electrode 311b, they are adjacent to each other. In the stage (311b1 and 311b2, etc.), pulsed magnetic fields in opposite directions overlap and disappear, pulsating quantum energy is generated and irradiated,

In the second quantum energy generating coil and ground electrode 312b, since the winding directions of the coils are different for each of the adjacent ends (312b1 and 312b2, etc.) In the state in which pulsating quantum energy is generated and irradiated, the adjacent ends (311b1 and 311b2, etc.) of the first quantum energy generating coil and discharge electrode 311b and the second quantum energy generating coil and ground electrode 31b are adjacent to each other. At the stages 312b1 and 312b2, respectively, pulsating quantum energy is irradiated, and adjacent ends (311b1 and 311b2, etc.) and the second quantum A multi-pulsation quantum energy irradiation device function in which pulsating quantum energy is irradiated even between the energy generating coil and ground electrode 31b, and at the same time, the first quantum energy generating coil/discharge electrode 311b and the second quantum energy generating coil/ground electrode Multiple discharges are started between the discharge needles installed on (31b).

FIG. 6c is a cross-sectional view showing the first quantum energy generating coil/discharge electrode 311c and the second quantum energy generating coil/ground electrode 312c of a third shape in which the trigger coil of FIG. 5 is modified, see the attached drawing To explain, the first quantum energy generating coil and discharge electrode 311c of the third shape has a cylindrical shape having a certain diameter, a plurality of holes are perforated in a rectangular shape in the circumferential direction, and a plurality of the first quantum energy generating coils and discharge electrodes 311c are perforated in the circumferential direction in the unperforated area. A plurality of needle-shaped discharge electrodes 311e are installed, and the second quantum energy generating coil and ground electrode 312c is installed at a distance from the discharge electrode 311e inside the first quantum energy generating coil and discharge electrode 311c, , The shape is processed into a shape in which a screw blade has a certain area, and a plurality of needle-shaped discharge electrodes 311e are attached to the ends of the blades, or second quantum energy is generated without attaching the discharge electrodes 311e. It is used as a coil and ground electrode 312 .

The first quantum energy generating coil/discharge electrode 311c and the second quantum energy generating coil/ground electrode 312c are made of tungsten (W), titanium (Ti), stainless steel (STS304), or hastalloy material. is selected and used.

In addition, the first, second, and third shape of the first quantum energy generating coil/discharge electrode (311a, 311b, 311c) and the second quantum energy generating coil/ground electrode (312a, 312b, 312c) are provided on the inner surface of the main body. After the insulation treatment, the first quantum energy generating coil/discharging electrode 311 of any one shape selected among the first, second, and third shapes of the first quantum energy generating coil/discharge electrode 311 is installed, At intervals inside the installed discharge electrode 311, the first, second, and third shape of the second quantum energy generating coil and ground electrode 312 of which any one shape is selected among the ground electrodes 312a and 312b is placed on a partition plate. (not shown) can be used to install.

The material of the first quantum energy generating coil and discharge electrode 311a, 311b, 311c and the second quantum energy generating coil and ground electrode 312a, 312b, 312c is tungsten (W), stainless steel (STS304), Hastal. One or more materials are selected from among the low-e materials and used.

6D is a cross-sectional view showing the power supply of the first quantum energy generator 310 shown in FIG. 5. Referring to the accompanying drawings, the power supply 313 includes a rectifying unit 313a and a converter unit 313b. , inverter unit 313c, resonance reactor 313d, pulse transformer 313e, PWM (pulse width modulation) control method and pulse frequency modulation PFM (pulse frequency modulation) and pulse frequency (density) control (PDM) ), a control unit 313f having a built-in pulse repetition rate control (PRR) function, a gate driving unit 313g, a first capacitor 313h, and a second capacitor 313i.

The rectifying unit 313a converts an input single-phase 220V60Hz AC power into a DC voltage.

The converter unit 313b boosts the DC voltage converted from the AC power to the DC power in the rectifying unit 313a to a high voltage through a switching operation.

The inverter unit 313c modulates the DC voltage boosted by the converter unit 313b into a pulsed electromagnetic field (PEMF) voltage.

The resonance reactor 313d matches the loads of the first quantum energy generating coil and discharge electrode 311 and the second quantum energy generating coil and ground electrode 312 .

The pulse transformer 313e boosts the output voltage of the inverter unit 313c. Pulse amplitude of the switching output of the first quantum energy generating coil/discharge electrode 311, the second quantum energy generating coil/ground electrode 312 receiving the output voltage of the pulse transforming unit 313e, and the inverter unit 313c In order to perform modulation (PAM), a signal for controlling the output voltage of the converter unit 313b is formed, and in the first quantum energy generating coil/discharge electrode 311 and the second quantum energy generating coil/ground electrode 312 . In order to control the amount of quantum energy generated by adjusting the strength of the generated magnetic field, a control unit 313f that forms a signal capable of controlling a pulse frequency (density) independently of the amplitude of a pulse (PDM) and the control unit 313f applied and a gate driver 313g for amplifying the voltage of the control signal and applying it to the converter 313b and the inverter 313c.

Here, by reducing the ripple of the voltage rectified through the rectification unit 313a, the first capacitor 313h voltage is inputted to the converter unit 313b through the first capacitor 313h and the converter unit 313b. By reducing the ripple of the boosted DC voltage, the second capacitor 313i includes a second capacitor 313i that is input to the inverter 313c unit.

The rectifying unit 313a converts the supplied AC power to a DC voltage, the converter unit 313b boosts the DC voltage through a switching operation, and the inverter unit 313c converts the boosted DC voltage into an AC pulse (pulsed electromagnetic field; PEMF) type voltage, and then boosting the output voltage of the inverter unit 313c in the pulse transformer 313e to form a first quantum energy generating coil/discharge electrode 311, a second quantum energy generating coil/ground electrode ( 312) is approved.

In addition, the input unit (not shown) is separately built inside the control unit 313f, so that the user can use the current value supplied to the first quantum energy generating coil and discharge electrode 311, the second quantum energy generating coil and ground electrode 312, Voltage value, frequency value, power supply time and stop time (timer function) can be input to the input unit.

A first quantum energy generating coil/discharge electrode 311 and a second quantum energy generating coil/ground electrode 312 through the conducting wire 314 through the power supply in the form of a pulsed electromagnetic field (PEMF) generated by the power supply 313 When supplied to, a magnetic field in the form of a pulsed electromagnetic field (PEMF) is generated between the discharge electrode 311 and the ground electrode 312 in the opposite direction to the direction of current flow at an angle of 90 degrees, and a Lorentz force acts and the discharge electrode ( 311) and the ground electrode 312, a pulsed electromagnetic field (PEMF) type magnetic field overlaps and disappears, pulsating quantum energy is irradiated in a zero magnetic field state, and discharge is initiated and a high electric field energy band is formed at the same time. Ammonia, hydrogen sulfide, methyl mercaptan, methyl sulfide, methyl isobutyl ketone, propionic acid, acetaldehyde, methyl ethyl ketone, methyl amine, triethyl amine, acetic acid, valeric acid, Dimethyl sulfide butylaldehyde, ethylbenzene, xylene, carbon disulfide, sulfur oxides (SOx), organic solvent soluble fractions (SOF), sulfur oxides (SOx), nitrogen oxides (NOx), fluorine compounds (PFCs, HFCs), acid gases (Hcl, HNO3, H2SO4), volatile organic compounds (VOCs) are applied to the electrochemical half of dissociation, excitation, ionization, oxidation, and reduction reactions, and at the same time avian influenza (AI), foot-and-mouth disease ( FMD), Edwardsiellus Tarda, Streptococcus iniae or vibrio ichtyoenteri in farms, molds in food processing facilities and living spaces, Pseudomonas aeruginosa, Staphylococcus aureus , pneumococcus, legionella, and MRSA [methicillin-resistant S. aureus], MRSE [methicillin-resistant S. Epidermidis (S. epidermidis) and other mutated viruses, Mycobacterium tuberculosis, Mycobacterium avium, drug-resistant blood. aeruginosa (P. aeruginosa), enterotoxin production E. E. coli, enterohaemorrhagic E. E. coli, Klebsiella pneumoniae, Clostridium difficile, Heliobacter pylori, Legionella pneumophila, Enterococcus faecalis, Entersococcus faecali Enterobacter cloacae, Salmonella typhimurium, Proteus vulgaris, Yersinia enterocolitica, Vibrio cholerae, and Siegellae Shigella Flexneri), mutated virus (MRSA), MERS-CoV, Ebola virus, SARS-COV, bacteria, etc. are singlet generated by electrochemical reaction of harmful bacteria and airborne viruses. The cell membrane is sterilized by perforation by oxygen (102) and hydroxyl (OH-) radicals. A magnetic field in the form of a pulsed electromagnetic field (PEMF) generated between the discharge electrode 211 and the ground electrode 212 is irradiated and Pulsed electromagnetic field (PEMF) type magnetic field overlaps and disappears, and pulsating quantum energy generated is irradiated to make air purification and sterilization easier to improve efficiency.

In addition, the discharge needles 311e and 312e, which have a diameter in the range of 2 to 5 mm in the circumferential direction on the outer surface and inner surface of the coil, and are manufactured by processing the ends into a cone shape, are spaced in the circumferential direction by argon welding, etc. By attaching a plurality of them, the discharge efficiency by electric field concentration is improved.

7 is a cross-sectional view illustrating the second quantum energy generator of FIG. 1 . Referring to the accompanying drawings, the second quantum energy generator 320 includes a housing 301 and a first gradient saddle coil 322-1a. Combined first discharge electrode 322-2a, second gradient saddle coil 322-1b and second discharge electrode 322-2b, modified trigger coil and ground electrode 323, modified trigger coil and third discharge electrode 324 , a high voltage generator 328 , and a wire 329 .

As shown in FIG. 8A, the first gradient saddle coil 322-1a and the first discharge electrode 322-2a are insulated by applying an insulating material on the inner upper peripheral surface of the main body 301 and then interfacing with the insulating layer. and installed on the upper side, and the second gradient saddle coil (322-1b) and the second discharge electrode (322-2b) faces the first gradient saddle coil (322-1a) and the first discharge electrode (322-2a) in the main body (301) An insulating material is applied on the circumferential surface of the inner lower part, and after insulating treatment, it is installed on the lower side by interfacing with the insulating layer, the first gradient saddle coil 322-1a and the first discharge electrode 322-2a It is installed so that the winding direction of the new gradient coil 322-1b and the second discharge electrode 322-2b is opposite to each other.

In addition, a plurality of first discharge electrodes 322-2a are installed on one side of the first gradient saddle coil 322-1a (in the opposite direction in contact with the body) at intervals and are processed into a pointed shape (needle structure) of a certain length. In addition, a plurality of second discharge electrodes 322-2b processed into a pointed shape (acicular structure) at intervals on one side (opposite direction in contact with the body) of the second gradient coil 322-1b are installed.

The modified trigger coil and ground electrode 323 has a hollow cylindrical shape (cylindrical) as shown in FIG. 8B, and has a plurality of oval-shaped holes perforated in the circumferential direction of the outer surface, and is spaced on the unperforated circumferential surface. In a discharge needle in the form of a protrusion, a plurality of ground electrodes 323 are installed on the inside and outside in the circumferential direction to form a first gradient saddle coil 322-1a and a first discharge electrode 322-2a and a second gradient saddle coil ( 322-1b) and the second discharge electrode 322-2b are installed on a fixed plate (not shown) at intervals inside the concentric circles, and are shown in FIG. 8c at intervals inside the modified trigger coil and ground electrode 323 As described above, the third discharge electrode 324 is machined into a spiral screw shape and has a modified trigger coil shape with a plurality of discharge needles machined into a pointed shape (needle structure) at intervals in the circumferential direction at the screw edge portion. ) is installed on a fixed plate (not shown).

The first gradient saddle coil 322-1a and the first discharge electrode 322-2a, the second gradient saddle coil 322-1b and the second discharge electrode 322-2b, and the modified trigger coil and ground electrode 323 ), a material of the modified trigger coil and third electrode 324 is selected from among tungsten (W), titanium (Ti), stainless steel (STS304), and hastalloy material.

The power supply (328) output side + power is the first gradient saddle coil (322-1a) and the first discharge electrode (322-2a) and the second gradient saddle coil (322-1b) and the second discharge electrode (322-2b) and a third discharge electrode 324 processed into a trigger coil shape,

The power supply 328 output side-power is connected to the modified trigger coil and ground electrode 323 .

The power supply 328 for generating power in the form of a pulsed electromagnetic field (PEMF) includes a step-down transformer 325 , a rectifier circuit 326 , an input module 327a , an operation module 327b , and a PWM (pulse width). Modulation: Pulse width modulation) control method and pulse frequency modulation PFM (pulse frequency modulation), pulse frequency (density) control (PDM), pulse repetition rate control (PRR) control module consisting of a built-in control module (327c) (307) , Consisting of a switching element 328a, when single-phase 220V, 60Hz AC power is supplied to the step-up transformer 325, the single-phase 10KV to 500KV range in the step-up transformer 325 is boosted and rectified with AC power in the 1KHz to 300KHz range. The circuit 326 converts it to DC power.

The input module 327a of the control unit 327 is a step-by-step voltage value (V) of the DC power supplied to the first and second quantum energy generation coils 322-1a and 322-1b, that is, the first and second 2The minimum (mA) and maximum values (A) of the variable current flowing in the quantum energy generation coils (322-1a, 322-1b), the minimum (mT) and maximum values (T) of the variable magnetic field, and the power supply time for each step ( Variables (seconds to minutes, or minutes to hours) such as supplied current value, voltage value, pulse width, pulse density, pulse period, frequency burst length, main power supply time and stop time (timer function), switching element function, etc. Parameter) in the program built-in, the user sets each of the parameters to the monitor (not shown) of the input module 327a, for example, setting the operation step among the steps divided from 1 to 10 steps Enter the data of the selected stage.

The operation module 327b executes an operation program on a plurality of parameters input by the user to the input module 327a to generate a first gradient saddle coil 322-1a and a first discharge electrode 322 for variable quantum energy. -2a), the second gradient saddle coil (322-1b) and the second discharge electrode (322-2b), the third discharge electrode (324) processed into a modified trigger coil shape, and the modified trigger coil and ground electrode (323) To calculate the amount of current corresponding to the magnetic field strength to be generated and the amount of current required for arc discharge, the current value can be generated in the form of one-to-one matching between the magnetic field strength value and the current value by generating the corresponding data in advance. For example, when the magnetic field strength value is between 1-10, data for a current value between 1 and 10 is generated, and when the magnetic field strength value is 1, a pulse having a current value corresponding to 1 (Pulsed electromagnetic field; PEMF) form of power is generated to form a first gradient saddle coil 322-1a and a first discharge electrode 322-2a and a second gradient saddle coil 322-1b and a second discharge electrode 322 -2b), when supplied to the modified trigger coil and ground electrode 323 and the modified trigger coil and discharge electrode 324, first installed on the top and bottom or left and right inside the main body 301, and the winding direction is opposite to each other. 1 Power is supplied to the gradient saddle coil (322-1a) and the first discharge electrode (322-2a) and the second gradient saddle coil (322-1b) and the second discharge electrode (322-2b) to the first gradient saddle coil ( 322-1a) and the first discharge electrode 322-2a, the current flows from right to left, from left to upper semicircle, from semicircle to right, and from right to semicircle, proceeding multiple times and rushing at the same time A high voltage is applied to the first discharge electrode (322-2a) of the shape, and the current flows in the second gradient saddle coil (322-1b) and the second discharge electrode (322-2b) from right to left, left in the lower semicircle direction, the lower semicircle direction to the right direction, the right direction to the lower semicircle direction, and the lower semicircle direction to the left direction a plurality of times, and at the same time, a high voltage is applied to the protrusion-shaped second discharge electrode 322-2b. When this is applied, the first gradient saddle coil 322-1a and the first discharge electrode 322-2a and the second gradient saddle coil 322-1b and the second discharge electrode 322 are at an angle of 90 degrees to the current flow direction. In 2b), a magnetic field in the form of a pulsed electromagnetic field (PEMF) in opposite directions is irradiated, and in the first gradient saddle coil 322-1a and the first discharge electrode 322-2a, a pulsed electromagnetic field is pulsed from top to bottom. ; PEMF) type magnetic field is irradiated In the second gradient coil 322-1b and the second discharge electrode 322-2b, pulsed electromagnetic field; As the magnetic field in the form of PEMF) is irradiated, magnetic fields in the form of pulsed electromagnetic field (PEMF) in opposite directions overlap each other at the center of the main body 301 and disappear, so that pulsating quantum energy is generated in the zero magnetic field and the pollution that flows into the body As the air is irradiated, a discharge starts between the deformed trigger coil/ground electrode 323 and the deformed trigger coil/discharge electrode 324 at the same time, and a high electric field electron energy band is formed, and the polluted air passing through this band Contained air, ammonia in polluted air, hydrogen sulfide, methyl mercaptan, methyl sulfide, methyl isobutyl ketone, propionic acid, acetaldehyde, methyl ethyl ketone, methyl amine, triethyl amine, acetic acid, valeric acid, dimethyl sulfide Butylaldehyde, ethylbenzene, xylene, carbon disulfide, sulfur oxides (SOx), organic solvent solubles (Soluble Organic Fractions, SOF), sulfur oxides (SOx), nitrogen oxides (NOx), fluorine compounds (PFCs, HFCs), Materials such as acid gases (Hcl, HNO3, H2SO4) and volatile organic compounds (VOCs) are thermally decomposed, collided with hot electrons continuously, dissociated (ionized) and ionized, purified by catalytic reaction, and at the same time avian flu (AI) , foot-and-mouth disease (FMD), Edwardsiellus Tarda, Streptococcus iniae or vibrio ichtyoenteri, mold, Pseudomonas aeruginosa, Staphylococcus aureus in food processing facilities and living spaces Bacteria such as cocci, pneumococci, legionella and MRSA [methicillin-resistant S. aureus], MRSE [methicillin-resistant S. Epidermidis (S. epidermidis) and other mutated viruses, Mycobacterium tuberculosis, Mycobacterium avium, drug-resistant blood. aeruginosa (P. aeruginosa), enterotoxin production E. E. coli, enterohaemorrhagic E. E. coli, Klebsiella pneumoniae, Clostridium difficile, Heliobacter pylori, Legionella pneumophila, Enterococcus faecalis faecali Enterobacter cloacae, Salmonella typhimurium, Proteus vulgaris, Yersinia enterocolitica, Vibrio cholerae, and Siegellae Shigella Flexneri), mutated virus (MRSA), MERS-COV, Ebola virus, SARS-COV, bacteria, etc. sterilize harmful bacteria and airborne viruses. 1st gradient saddle coil (322-1a) and first discharge electrode (322-2a), second gradient saddle coil (322-1b) and second discharge electrode (322-2b), modified trigger coil and ground electrode ( 323), the first gradient saddle coil (322-1a) and the first discharge electrode (322-2a), the second gradient saddle coil (322-1b) the current value from the second discharge electrode 324 of the modified trigger coil shape ) and the second discharge electrode 322-2b, the modified trigger coil and ground electrode 323, and the modified trigger coil shape of the second discharge electrode 324 of the current detection sensor (not shown) installed on the first Gradient saddle coil (322-1a) and first discharge electrode (322-2a), second gradient saddle coil (322-1b) and second discharge electrode (322-2b), modified trigger coil and ground electrode (323), modified When the current value flowing through the trigger coil and discharge electrode 324 is detected in real time and transmitted to the calculation unit (Feed Back), the calculation unit 327b calculates for each variable input from the input unit 327a, and sets the current value and the detection sensor 328a. being transmitted As a result of comparing and analyzing the current value, when the lower and upper limit values of the set current value are exceeded, the difference value (Gab) is analyzed, recalculated to fit the lower limit value and the upper limit value, and the corrected current value is transmitted to the current control module (327c), , the current control module 327c that has received the corrected current value has a first gradient saddle coil 322-1a and a first discharge electrode 322-2a, a second gradient saddle coil 322 to suit the corrected current value. 1b) The second discharge electrode 322-2b, the modified trigger coil/ground electrode 323, and the modified trigger coil/discharge electrode 324 are supplied with DC power to irradiate the pulsating quantum energy by high voltage discharge It purifies air pollutants and sterilizes airborne bacteria by electrochemical reaction.

In addition, the first and second gradient saddles of the first gradient saddle coil 322-1a and the first discharge electrode 322-2a and the second gradient saddle coil 322-1b and the second discharge electrode 322-2b Since the coils 322-1a and 322-1b have the same or similar structure to the uniform saddle coil, the first and second gradient saddle coils 322-1a and 322-1b are combined with the uniform saddle coil. It can be used instead of saddle coil).

Therefore, another configuration of the second quantum energy generator 200 with a built-in discharge function is a first uniform saddle coil 322-1a, a first discharge electrode 322-2a, and a second uniform saddle coil (Uniform). saddle coil) 322-1b and second discharge electrode 322-2b, modified trigger coil and ground electrode 323, modified trigger coil and second discharge electrode 324, high voltage generator 328, lead wire ( 329).

The first uniform saddle coil 322-1a and the first discharge electrode 322-2a are insulated by coating an insulating material on a circumferential surface of the upper part of the body 301, and then face-to-face with the insulating layer. side, the second uniform saddle coil (322-1b) and the second discharge electrode (322-2b) is the first uniform saddle coil (322-1a) and the first discharge electrode ( 322-2a) to face 322-2a), an insulating material is applied on the inner circumferential surface of the lower part of the main body 301 for insulation, and the first uniform saddle coil (322-1a) is installed on the lower side by interfacing with the insulating layer. Install so that the winding direction of the first discharge electrode 322-2a and the second uniform saddle coil 322-1b and the second discharge electrode 322-2b are in the same direction as each other .

In addition, the wound first uniform saddle coil (322-1a) and the first discharge electrode (322-2a) and the second uniform saddle coil (Uniform saddle coil) (322-1b) and the second discharge electrode (322-) In 2b), a plurality of discharge electrodes in the shape of a protrusion are installed at regular intervals. The modified trigger coil and ground electrode 323 having a cylindrical shape and provided with a plurality of protrusion-shaped discharge electrodes at intervals on the outer surface and the inner circumferential surface is a first uniform saddle coil 322-1a and a first The discharge electrode 322-2a and the first uniform saddle coil 322-1b and the second discharge electrode 322-2b are installed at intervals inside the concentric circles formed. Modified trigger coil and ground electrode (323) A modified trigger coil and third discharge electrode 324 is installed at an interval therein, and a plurality of discharge electrodes in the form of protrusions in the circumferential direction are provided on the outer surface of the modified trigger coil and third discharge electrode 324. is installed

The power supply 328 for generating power in the form of a pulsed electromagnetic field (PEMF) includes a step-down transformer 325 , a rectifier circuit 326 , an input module 327a , an operation module 327b , and a PWM (pulse width). Modulation: Pulse width modulation) control method, pulse frequency modulation PFM (pulse frequency modulation), pulse frequency (density) control (PDM), pulse repetition rate control (PRR) control module (327c) with built-in control module (327c) , switching element 328), when single-phase 220V, 60Hz AC power is supplied to the step-up transformer 325, the single-phase 10KV to 500KV range in the step-up transformer 325, and 1KHz to 300KHz AC power in the range. The rectifier circuit 326 converts it to DC power.

The input module 327a of the control unit 327 includes a first uniform saddle coil 322-1a, a first discharge electrode 322-2a, and a second uniform saddle coil 322- 1b) and the second discharge electrode 322-2b, the modified trigger coil and ground electrode 323, the modified trigger coil and the third discharge electrode 324 are supplied to the DC power supply step-by-step voltage value (V), variable current of the minimum (mA) and maximum (A), the minimum value (mT) and maximum value (T) of the variable magnetic field, the supplied current value, voltage value, Pulse width, pulse density, pulse period, frequency burst length, main power supply time and stop time (timer function), switching element function, etc. can be entered by the user in the program built-in to the input module (327a) monitor ( (not shown), for example, the operation stage is set among the stages divided by 1 to 10 stages, and then data of the selected stage is input.

The operation module 32b executes an operation program on a plurality of parameters input by the user to the input module 32a to generate a pulsed electromagnetic field (PEMF) type magnetic field in a first uniform saddle coil (Uniform saddle). coil) 322-1a and the first discharge electrode 322-2a and the first uniform saddle coil 322-1b and the second discharge electrode 322-2b, the amount of current corresponding to the magnetic field strength to be generated And to calculate the amount of current required for arc discharge, it is possible to generate the current value in the form of one-to-one matching of the magnetic field strength value and the current value by generating the corresponding data in advance. For example, when the magnetic field strength value is between 1-10, data for a current value between 1 and 10 is generated, and when the magnetic field strength value is 1, a pulse having a current value corresponding to 1 A first uniform saddle coil (322-1a) and a first discharge electrode (322-2a) and a second uniform saddle coil (322) by generating a pulsed electromagnetic field (PEMF) type of power source -1b) When supplied to the first discharge electrode 322-2b, the modified trigger coil and ground electrode 303, and the modified trigger coil and third discharge electrode 324, first, they are installed in the upper and lower parts of the body 301 The first uniform saddle coil 322-1a, the first discharge electrode 302-2a, and the second uniform saddle coil 322-1b are also wound in the same winding direction. Power is supplied to the second discharge electrode 322-2b to provide a first uniform saddle coil 322-1a and a first discharge electrode 322-2a and a first uniform saddle coil 322 -1b) and the second discharge electrode 302-2b, the current flows from right to left, from left to upper semicircle, from semicircle to right, from right to semicircle a plurality of times and rushes at the same time A high voltage is applied to the discharge electrode (322-1a) in the shape of a first uniform saddle coil (322-1a) and the first discharge electrode (302-2a) and the second at an angle of 90 degrees to the current flow direction 2 A magnetic field in the form of a pulsed electromagnetic field (PEMF) in the same direction is irradiated from the uniform saddle coil 322-1b and the second discharge electrode 322-2b, and the first uniform saddle coil (Uniform saddle coil) coil) 322-1a and the first discharge electrode 322-2a in the upward direction and the second uniform saddle nose Pulsed electromagnetic field from the bottom to the top also in the uniform saddle coil 322-1b and the second discharge electrode 322-2b; As a magnetic field in the form of PEMF is irradiated, a magnetic field in the form of pulsed electromagnetic field (PEMF) in the upper and lower directions is generated inside the main body 301 and is irradiated to the polluted air flowing into the main body, while the trigger coil is deformed at the same time Discharge starts and forms a high electric field electron energy band between the double ground electrode 323 and the modified trigger coil and discharge electrode 324, and the air contained in the polluted air passing through this band, ammonia in the polluted air, and hydrogen sulfide , methyl mercaptan, methyl sulfide, methyl isobutyl ketone, propionic acid, acetaldehyde, methyl ethyl ketone, methyl amine, triethyl amine, acetic acid, valeric acid, dimethyl sulfide butyl aldehyde, ethyl benzene, xylene, disulfide Carbon, sulfur oxides (SOx), organic solvent soluble fractions (Soluble Organic Fractions, SOF), sulfur oxides (SOx), nitrogen oxides (NOx), fluorine compounds (PFCs, HFCs), acid gases (Hcl, HNO3, H2SO4), Substances such as volatile organic compounds (VOCs) are thermally decomposed, collided with hot electrons continuously, dissociated (ionized) and ionized, and purified by a catalytic reaction, while at the same time avian influenza (AI), foot-and-mouth disease (FMD), Edward Siella tar Bacteria such as Edwardsiellus Tarda, Streptococcus iniae or vibrio ichtyoenteri, mold, Pseudomonas aeruginosa, Staphylococcus aureus, pneumococcus, and Legionella in food processing facilities and living spaces; MRSA [methicillin-resistant S. aureus], MRSE [methicillin-resistant S. Epidermidis (S. epidermidis)] and other mutated viruses, Mycobacterium tuberculosis, Mycobacterium avium, drug-resistant blood. aeruginosa (P. aeruginosa), enterotoxin production E. E. coli, enterohaemorrhagic E. E. coli, Klebsiella pneumoniae, Clostridium difficile, Heliobacter pylori, Legionella pneumophila, Enterococcus faecalis faecali Enterobacter cloacae, Salmonella typhimurium, Proteus vulgaris, Yersinia enterocolitica, Vibrio cholerae, and Siegellae Shigella Flexneri), mutated virus (MRSA), MERS-COV, Ebola virus, SARS-COV, bacteria, etc. sterilize harmful bacteria and airborne viruses. A first uniform saddle coil (322-1a) and a first discharge electrode (322-2a) and a second uniform saddle coil (322-1b) and a second discharge electrode (322-2b) ), the modified trigger coil/ground electrode 303, and the modified trigger coil/discharge electrode 324 to the first uniform saddle coil 322-1a and the first discharge electrode 302- 2a), a first uniform saddle coil (322-1b) and a second discharge electrode (302-2b), a modified trigger coil/ground electrode (303), and a modified trigger coil/discharge electrode (304) When the current value flowing through these coils is detected in real time by the current detection sensor installed on the lead-in line and transmitted (feed back) to the calculation unit, the calculation unit 327b calculates for each variable input from the input unit 327a, and the set current value and the detection sensor 328a As a result of comparative analysis with the current value transmitted from After analyzing the difference value (Gab) and re-calculating to fit the lower limit value and the upper limit value when A first uniform saddle coil 322-1a and a first discharge electrode 302-2a, a second uniform saddle coil 322-1b and a second uniform saddle coil 322-1b to suit the corrected current value DC power is supplied to the discharge electrode 302-2b, the modified trigger coil and ground electrode 303, and the modified trigger coil and discharge electrode 304 to irradiate the pulsating quantum energy while irradiating the air through an electrochemical reaction by high voltage discharge. It purifies heavy pollutants and sterilizes airborne bacteria.

In addition, the first uniform saddle coil 322-1a and the first discharge electrode 302-2a, the second uniform saddle coil 322-1b and the second discharge electrode 302- 2b), the modified trigger coil and ground electrode 323, and the modified trigger coil and discharge electrode 324 have titanium dioxide (TiO2), rhodium (Rh), platinum (Pt), Palladium (Pd), ruthenium, zinc (Zn), zirconium (Zr), hafnium, vanadium (V2O5), niobium, tungsten (W), iron (Fe), ruthenium oxide, rhodium oxide, copper oxide, zinc oxide, zirconium oxide , silicon dioxide, titanium oxide, hafnium oxide, aluminum oxide, vanadium oxide, niobium oxide, tungsten oxide, manganese and iron oxide is coated with a catalyst material (not shown) selected from any one or more materials.

9 is a cross-sectional view showing a third quantum energy generator with a built-in discharge function of FIG. 1 , and will be described with reference to the attached drawings, wherein the third quantum energy generator 330 includes a housing 301 and a first gradient coil. (331), a second gradient coil 332, a quantum energy generator 330 consisting of a power supply 333; and a first quantum energy generating coil and discharge electrode 334, a second quantum energy generating coil and ground electrode 335, a high voltage generator 336, and a discharge unit 340 composed of a wire 336f.

The housing 301 selects any one shape from among the cylindrical shape, the cube shape, and the rectangular parallelepiped shape. In the present invention, when the cylindrical shape is selected and described, the material of the body is acrylic, plastic material, glass fiber molded foam (FRP) , Select and use any one of non-conductive materials such as polyethylene (PE), or use any one of conductive materials such as carbon steel (CS), stainless steel (STS304), copper (CU), and aluminum (AL). It can be used after insulation treatment by applying an insulating material of epoxy material to the inner and outer surfaces.

The first quantum energy generating coil 331 and the second quantum energy generating coil 332 of the quantum energy generator 330 have a predetermined length such that they are less than 50% of the entire outer surface of the housing in the shape of an inclined coil or toroidal coil. They are installed to face each other in the circumferential direction of the surface (up and down or left and right), and are installed so that the winding directions of the coils 331 and 332 are opposite to each other.

The power supply 333 of the quantum energy generator 330 is installed on one side of the outer surface of the housing 301 at a distance from the installation positions of the first inclined quantum energy generating coil 331 and the second inclined quantum energy generating coil 332 . It is installed and connected to the first gradient quantum energy generating coil 331 and the second gradient quantum energy generating coil 332 through the conducting wire 333a to supply power in the form of a pulse generated by the power supply 333 .

The gradient coil is referred to as a pancake coil or a saddle coil.

When the pulsed power generated by the power supply 333 is supplied to the first quantum energy generating coil 331, a pulsed electromagnetic field (PEMF) magnetic field is generated from the upper direction of the housing to the lower portion at an angle of 90 degrees to the current flow direction. When the pulsed power generated by the power supply 333 is supplied to the second quantum energy generating coil 332, a pulsed electromagnetic field (PEMF) magnetic field is generated at an angle of 90 degrees to the current flow direction. As the magnetic fields in the form of pulsed electromagnetic fields (PEMF) in opposite directions overlap and disappear at the inner center of the housing when irradiated from the lower direction of the housing to the upper direction, pulsating quantum energy is generated in the state of the zero magnetic field, The first quantum energy generating coil and discharge electrode 334, the second quantum energy generating coil and ground electrode 335, and the air containing contaminants passing through these discharge electrodes 334 and 335 are irradiated.

Step-up transformer 333a, rectifier circuit 333b, input module 333c-1, arithmetic module 433c-2, and PWM (Pulse width modulation) control method and pulse frequency modulation PFM (pulse frequency modulation) ) and pulse frequency (density) control (PDM), pulse repetition rate control (PRR) in the power supply 333 consisting of a control module 333c-3 with built-in control module 333c, single-phase 220V, 60Hz AC When power is supplied to the step-up transformer 333a, the single-phase 1KV to 300KV range in the step-up transformer 333a, and a pulsed electromagnetic field; When supplied to the energy generating coil 331 and the second gradient quantum energy generating coil 332 wound by a predetermined number of turns in the opposite direction to the winding direction of the first gradient quantum energy generating coil 331, each other at an angle of 90 degrees to the current flow direction A variable magnetic field in the form of a pulsed electromagnetic field (PEMF) in different directions is generated, and pulses in opposite directions ( As the variable magnetic field in the form of pulsed electromagnetic field (PEMF) overlaps and disappears, pulsating quantum energy generated in a zero magnetic field state is generated by the first quantum energy generating coil and discharge electrode 331 of the high voltage discharge unit 420 installed inside the housing 301 . ), the second quantum energy generating coil and ground electrode 332 and the polluted air flowing between the discharge electrodes 334 and 335 are irradiated.

10A is a cross-sectional view showing the high voltage discharge unit of the third quantum energy generating unit of FIG. 9. Referring to FIG. 10, the high voltage discharging unit 339 includes a first quantum energy generating coil 334a and a discharge electrode 334; It is composed of two quantum energy generating coils 335a and ground electrode 335 , a high voltage generator 336 , a conductive wire 336a , a first fixing table 337a and a second fixing table 337b , and a gap maintaining nut 338 .

The production of the first quantum energy generating coil 334a and discharge electrode 334, the second quantum energy generating coil 335a and the ground electrode 335 is a rectangular height in which any one of Teflon, ceramic, and glass materials is selected. Holes (not shown) into which the fasteners 337a and 337b will be inserted are drilled at intervals on the upper and lower surfaces of the plurality of insulating plates, and tungsten (W), stainless steel (STS304), titanium (Ti) The coil is wound in a clockwise or counterclockwise direction in a gradient coil shape or toroid coil shape transformed with a wire of which one material is selected. A first quantum energy generating coil/discharge electrode 334 and a second quantum energy generating coil/ground electrode 335 are manufactured by attaching discharge needles 334a and 334b having a predetermined length at regular intervals to the coil, or

Gradient coil shape or toroid coil shape deformed in a clockwise or counterclockwise direction by using a laser model-picking technique for a copper (Cu), stainless steel (STS304), titanium (Ti), silver (Ag) metal plate And a hole (not shown) into which the fixtures 337a and 337b are to be inserted, are drilled on both surfaces of a coil-shaped plate in which any one of tungsten (W), stainless steel (STS304), and titanium (Ti) is selected. A plurality of discharge needles 334a and 334b having a certain length are installed at a distance from each other, and the first quantum energy generating coil and discharge electrode 334 and the second quantum energy generating coil and ground electrode 335, which are manufactured by installing a plurality of discharge needles, are excluded. And any one insulating material is selected from among urethane, polyester, acrylic, alumina (Al2O3), silica (SiO2), and magnesia (MgO), and any one of ALD/CVD, sputtering, Evaporation, and Sol-gel processing methods is used. The first quantum energy generating coil (334a) and discharge electrode (334), the second quantum energy generating coil (335a) and the ground electrode (335) were manufactured by insulating treatment, and the shrinkage tube attached to both ends or one end surface was removed. After that, the manufactured discharge electrodes 334 and 335 are inserted into the first and second fixtures 337a and 337b, and the first and second inclined coils 331 and 332 are processed into coil shapes (wound shapes) in opposite directions. After inserting into the first fixture (337a) and the second fixture (337b) and firmly fixing the gap and discharge electrodes (334, 335) formed in the middle with a fixed nut 338 in the middle, the fixtures 337a and 337b installed inside the housing ) is fixed to

The high voltage power supply 336 of the high voltage discharge unit 339 is installed on one side of the housing 301 and generates a high voltage in the form of a pulsed electromagnetic field (PEMF) through the conducting wire 336a to the first quantum energy generating coil ( 334a) and the discharge electrode 334 and the second quantum energy generating coil 335a and the ground electrode 335 are supplied.

The power supply 336 includes an AC power supply 336a, a high-frequency generation and output unit 336b, a switching element 336c, a current detection sensor 336d, a PWM (Pulse Width Modulation) control method and It is composed of a control unit 336e with built-in pulse frequency modulation (PFM), pulse frequency (density) control (PDM), and pulse repetition rate control (PRR) functions. When AC power of 220V 6Hz is supplied to a step-up transformer (not shown) from the AC power supply (AC) supply 336a, the single-phase 1KV to 500KV range in the step-up transformer (not shown) is boosted with AC power in the 60Hz to 300KHz range to generate an oscillator (336b-1), the frequency distribution unit (336b-2), the adjustment unit (336b-3), when supplied to the high-frequency generation and output unit (336b) composed of the amplifier (336b-4), the oscillator (336b-1) Data required for treatment is programmed in advance to be input to the control unit 336e, and a suitable electromagnetic wave to be applied to the first quantum energy generating coil and discharge electrode 334 and the second quantum energy generating coil and ground electrode 335 is generated. When applied to the frequency distribution unit (336b-2), the electromagnetic wave generated by the oscillator (336b-1) in the frequency distribution unit (336b-2) is a first quantum energy generating coil (334a) and discharge electrode (334), the second 2 In the quantum energy generating coil 335a and the ground electrode 335, magnetic fields in different directions overlap to convert the quantum energy generated in the zero magnetic field state into a high-frequency signal so that it can be sufficiently generated, and the control unit 336b-3 ), the control unit 336b-3 adjusts the pulse of the high-frequency signal generated by the frequency distribution unit 336b-2 under the control of the control unit 336e to adjust the intensity of the high-frequency signal, and the amplification unit 423b-4 ), the amplification unit 336b-4 transmits a high-frequency pulse signal through the control unit 336b-3 to the first quantum energy generating coil 334a and the discharge electrode 334, and the second quantum energy generating coil 335a ) and the ground electrode 335 by amplifying sufficient pulsed electromagnetic field (PEMF) type magnetic field irradiation and pulsating quantum energy to irradiate the switching element 336d to provide a pulsed electromagnetic field (PEMF) type power supply. When supplied to the first quantum energy generating coil 334a and discharge electrode 334, and the second quantum energy generating coil 335a and ground electrode 335 through the quantum energy generating coil 334a, 335a of the discharge electrodes 334 and 335, in the snow As discharge is started simultaneously from a plurality of needle discharge electrodes installed at intervals, a high field electron energy band is formed, and the air contained in the polluted air passing through this band, ammonia, hydrogen sulfide, methyl mercaptan, methyl sulfide, Butyl ketone, propionic acid, acetaldehyde, methyl ethyl ketone, methyl amine, triethyl amine, acetic acid, valeric acid, dimethyl sulfide butyl aldehyde, ethylbenzene, xylene, carbon disulfide, sulfur oxide (SOx), organic solvents Soluble organic fractions (SOF), sulfur oxides (SOx), nitrogen oxides (NOx), fluorine compounds (PFCs, HFCs), acid gases (Hcl, HNO3, H2SO4), volatile organic compounds (VOCs), etc. pyrolysed, continuously collided with thermoelectrons, dissociated (ionized) and ionized, catalytically purged, simultaneously with avian flu (AI), foot-and-mouth disease (FMD), Edwardsiellus Tarda, Streptococcus Bacteria such as Streptococcus iniae or Vibrio ichtyoenteri, molds in food processing facilities and living spaces, Pseudomonas aeruginosa, Staphylococcus aureus, Pneumococcus, Legionella, and MRSA [methicillin-resistant S. aureus], MRSE [methicillin-resistant S. Epidermidis (S. epidermidis)] and other mutated viruses, Mycobacterium tuberculosis, Mycobacterium avium, drug-resistant blood. aeruginosa (P. aeruginosa), enterotoxin production E. E. coli, enterohaemorrhagic E. E. coli, Klebsiella pneumoniae, Clostridium difficile, Heliobacter pylori, Legionella pneumophila, Enterococcus faecalis faecali Enterobacter cloacae, Salmonella typhimurium, Proteus vulgaris, Yersinia enterocolitica, Vibrio cholerae, and Siegellae Shigella Flexneri), mutated virus (MRSA), MERS-COV, Ebola virus, SARS-COV, bacteria, etc. sterilize harmful bacteria and airborne bacteria.

The first quantum energy generator 336b may be configured by the first gradient coil 331, the second gradient coil 332, the power supply 333, and the conductive wire 333a, in which the winding directions of the coil are wound in opposite directions. there is.

The first gradient coil 331 and the second gradient coil 332 in which the winding directions of the coils are wound in opposite directions are supplied with pulsed power generated by the power supply 333 through the conducting wire 333a to the first gradient coil. When supplied to the 331 and the second gradient coil 332 , a magnetic field in the form of a pulse in opposite directions in the direction of current flow is irradiated, and a magnetic field in the form of a pulse in the opposite direction is generated by the first gradient coil 331 and the second gradient coil 331 . The pulsating quantum energy is generated in a zero magnetic field state while overlapping and disappearing at the center distance of the coil 332 .

A first quantum energy generating coil 334a, a second quantum energy generating coil 335a, and a high voltage generator 336, in which the winding directions of the coil are wound in opposite directions, a second quantum energy generator 336b with a wire 336a ) can be configured.

The pulse-type power generated by the power supply 336 to the first quantum energy generating coil 334a and the second quantum energy generating coil 335a, in which the winding directions of the coils are wound in opposite directions to each other, through the conducting wire 336a When a plurality of installed first quantum energy generating coils 334a and second quantum energy generating coils 335a are supplied, pulsed magnetic fields in opposite directions in the direction of current flow are irradiated and pulsed magnetic fields in opposite directions are generated. Multiple pulsating quantum energy is generated in a zero magnetic field state as the plurality of first quantum energy generating coil 334a and second quantum energy generating coil 335a overlap each other at a center distance and disappear.

11 is a cross-sectional view showing a fourth quantum energy generator with a built-in discharge function of FIG. 1 , and when described with reference to the attached drawings, the fourth quantum energy generator 340 includes a body 301 and an outer cylinder 302 , Inner cylinder (303), outer cylinder (302), the first generating coil and heating coil (341a), the first generating coil and heating coil (341a) installed on one side of the outer side, the first power supply source (341b) for the outer cylinder (301a) Combined first cathode 343a, a second power supply source 343b for the first cathode 343a, a second generating coil and heating coil 343a installed on the circumferential surface of the outer side of the inner cylinder 301b, the second quantum The third power supply source 342b for the energy generating coil and the heating coil 343a, the second housing and the second negative electrode 344a of the self-shape, the fourth power supply source 344b for the second negative electrode 344a, the outer cylinder ( The discharge electrode 345a installed on the inner circumferential surface of 301a and the ground electrode 345b and the discharge electrode 345a and the ground provided on the outer circumferential surface of the second housing and second cathode 344a of the self-shape A first spur gear 346a and a first spur gear installed on a circumferential surface of one side of the high voltage discharge unit 345 and the inner cylinder 301b, which are composed of a fifth power supply 345c for supplying a high voltage to the electrode 345b. (346a) and the second spur gear (346b), the second spur gear (346b) and the second spur gear (346b) and an electric motor (346c) connected to the shaft to rotate the first rotating body 346 and the inner cylinder (301b) for rotating the inner cylinder (346a) ) at a distance on one side of the circumferential surface of the first and second rotating body fastening mechanisms (346d), which are installed in plurality, the first spur gear (347a), the first spur gear (347a), which are installed on the outer circumferential surface of the first fixture ) and the second spur gear (347b), the second spur gear (347b) and the second spur gear (347b) and an electric motor (347c) axially connected to each other to rotate the inner cylinder. It consists of the first spur gears 346a and 347a of the rotors 346 and 347 and the rotation body fastening mechanism 346d which is provided with a plurality of intervals to the left.

The inner cylinder 303 of the fourth quantum energy generating unit 340 has a cylindrical shape, and a second quantum energy generating coil and heating coil 342a wound on a circumferential surface of which a part of the outer side is insulated is installed, and the first quantum A housing 303a in the shape of a jacket embracing the energy generator and heating coil 342a and performing the function of the second cathode 344a is insulated from the main body 301 and is installed in the face, and the square ◎-shaped housing 303a is outside. A ground electrode 345b of a solenoid shape that is wound on the circumferential surface by being in contact with the circumferential surface of the surface is installed, and a first spur gear 346a is installed on one side of the outer side of the inner cylinder 303, and the teeth of the first spur gear 346a The first spur gear 346b is installed to be engaged, the first spur gear 346b is connected to the second electric motor 346c as an axis and a fastening mechanism 346d for rotation is installed on one side of both ends at a distance, and the second The quantum energy generating coil and heating coil 342a receives power from the second power supply 342b, the second cathode 344a receives power from the fourth power supply 344b, and the fourth power supply 344b ) and the second power supply 342a constitute a bias circuit, and the ground electrode 345b receives power from the fifth power supply 345c.

The outer cylinder 302 of the fourth quantum energy generating unit 340 has a conical shape at both ends and a cylindrical shape in the middle, and a solenoid coil-shaped or trigger-shaped discharge electrode ( 345a) is installed, and the outer cylinder portion as much as the area where the solenoid coil-shaped or trigger-shaped discharge electrode 345a is installed functions as the first cathode 343a, and a jacket-shaped housing 302b embracing the first cathode 343a) This is installed, the inner surface of the housing is insulated and insulated, and a first quantum energy generating coil and heating coil 341a is installed to be in contact with the circumferential surface, and a rotating body fastening mechanism 347d is installed on one side of both ends, the first The quantum energy generating coil and heating coil 341a receives power from the first power supply 341b, the first cathode 343a receives power from the third power supply 343b, and the third power supply 343b ) and the first power supply 341a constitute a bias circuit, and the discharge electrode 345a receives power from the fifth power supply 345c.

The first and second quantum energy generating coils in which the power generated by the first and second power supplies 341b and 342b or pulsed DC power is in the form of a solenoid coil or trigger coil and the winding directions are opposite to each other By supplying the heating heaters 341a and 342a to the first and second cathodes 343a and 344a with a magnetic field or a pulsed magnetic field at an angle of 90 degrees in the direction of current flow, the work function value of the heating heater material can be overcome. When heated to a temperature (5000C) or higher, hot electrons are emitted from the surface of the material, and power or pulse-type power generated from the first power supply 341b and the third power supply 343b constituting the bias circuit is transferred to the first cathode ( 343a) and at the same time supplying the second power supply 342b and the power generated by the fourth power supply 344b constituting the bias circuit or the power in the form of pulses to the second cathode 344a, the first and second Thermal electrons emitted from the material surface of the quantum energy generating coil and heating heater 341a and 342a are accelerated to the first and second cathodes 343a and 344a, respectively, and hit the first and second cathodes 343a and 344a. to a temperature that can overcome the work function value of the material of the first and second cathodes 343a and 344a by heating to a temperature above the material surface to emit hot electrons from the surface of the material in the direction of the discharge electrode 345a and the ground electrode 345b. When an AC high voltage or DC high voltage in the form of a pulse generated by the power supply 345c is applied, discharge is started between the discharge electrode 345a and the ground electrode 345b, and polluted air introduced by the pressing force of the pressurizing fan 204 is applied. Heating, pulsed magnetic field irradiation, pulsating quantum energy irradiation, thermal electron emission and electrochemical reactions such as dissociation, ionization, excitation, oxidation, and reduction reactions of hitting high-voltage discharge to purify odor-causing substances and harmful substances in the polluted air , After sterilizing and sterilizing viruses such as bacteria and Corona 19 infectious virus in contaminated air, it is pressurized with a pressurizer (not shown) and supplied to the quantum energy irradiation unit 400 .

The winding directions of the first and second quantum energy generating coil and heating heaters 341a and 343a are wound in opposite directions, and the power generated by the first power supply 341b is applied to the first quantum energy generating coil and heating heater ( 341a) and supplying the power generated by the first power supply 341b to the second quantum energy generating coil and heating heater 343a, a pulsed magnetic field is generated at an angle of 90 degrees in the direction of current flow. The winding directions of the second quantum energy generating coil and heating heaters 341a and 343a are opposite to each other, so that the magnetic fields in the form of pulses in opposite directions are the center distance of these coils 341a and 343a. The pulsating quantum energy is generated and irradiated in a state of a zero magnetic field by overlapping and dissipating. Accordingly, the first quantum energy generator of the fourth quantum energy generator 340 includes a first quantum energy coil and heating heater 341a and a power supply 341b. ) and a first quantum energy generating coil and heating heater 343a and a power supply 343b.

The winding directions of the first and second quantum energy generating coils and discharge electrodes 345a and 345b are opposite to each other, and the power generated by the fifth power supply 345c serves as the first and second quantum energy generating coils. When supplied to the discharge electrodes 345a and 345b, a pulsed magnetic field is generated at an angle of 90 degrees in the direction of current flow. The winding directions of the first and second quantum energy generating coils and discharge electrodes 345a and 345b are opposite Pulsed magnetic fields in opposite directions overlap and disappear at the center of the flow path through which the contamination hole, which is the center distance of the coils 345a and 345b, passes, so that pulsating quantum energy is generated and irradiated in a zero magnetic field state. Therefore, the fourth quantum energy The second quantum energy generator of the generator 340 includes a first quantum energy generating coil and discharge electrode 345a , a second quantum energy generating coil and ground electrode 345b , and a fifth power supply 345c .

In addition, the DC power generated by the power supply 341b is supplied to the first quantum energy generating coil and heating heater 341a, and the + power of the output side of the power supply 343b is supplied to the first cathode 343a, and the power supply Connect the -power of the output side of (343b) to the -power of the output side of the power supply (341b) for the first quantum energy generating coil and heating heater (341a) in common.

By configuring a bias circuit between the power supply 341b and the power supply 343b, the hot electrons emitted from the surface of the heater 341a heated to a high temperature are accelerated and hit to the first cathode 343a to the first cathode 343a material. By heating to a high temperature capable of overcoming the work function value of , heat electrons are emitted from the material of the first cathode 343a to heat the first quantum energy generating coil and discharge electrodes 345a and 345b to a high temperature to improve the discharge efficiency.

In addition, the DC power generated by the second power supply 342b is supplied to the second quantum energy generating coil and heating heater 342a, and the output side of the fourth power supply 344b is supplied to the second cathode 344a. Supply power and connect the -power of the output side of the fourth power supply (344b) to the -power of the output side of the power supply (342b) for the second quantum energy generating coil and heating heater (342a) in common to the second power supply (342b) The work function of the material of the second cathode 344a by accelerating and hitting the hot electrons emitted from the surface of the material of the heater 342a heated to a high temperature by forming a bias circuit between the and the fourth power supply 344b to the second cathode 344a By heating to a high temperature that can overcome the value, hot electrons are emitted from the material of the second cathode 344a, and the second quantum energy generating coil and ground electrode 345b is heated to a high temperature to improve the discharge efficiency.

In addition, when power is supplied from the control panel 700 to the first electric motor 346c, the first electric motor 346c is operated and the second spur gear 346b connected to the shaft is operated, and the second spur gear 346b and the teeth As the first spur gear 346a engaged on the circumferential surface of the inner cylinder 303 rotates clockwise or counterclockwise, the second quantum energy generating coil and heating heater 342a installed in the inner cylinder 303, the second The cathode 344a and the ground electrode 345b also rotate, and when power is supplied to the second motor 347c from the control panel 700 at the same time, the first motor 347c is operated and the second spur gear 347b connected to the shaft. is operated, the second spur gear (347b) and teeth are engaged, and the first spur gear (347a) installed on the circumferential surface of the outer cylinder (302) rotates clockwise or counterclockwise as the first installed in the outer cylinder (302) The quantum energy generating coil and heating heater 341a, the first cathode 343a, and the ground electrode 345a also rotate. 1 quantum energy generating coil and heating heater 341a, first cathode 343a, ground electrode 345a and second quantum energy generating coil and heating heater 342a, second cathode 344a, ground electrode 345b The first and second motors 341c, 342c), so it increases the purification efficiency of the contaminants contained in the air introduced by the pressurized fan 204, and improves the sterilization and sterilization rate of bacteria and viruses in the suspended air.

In addition, materials such as BaO, SrO, CaO, and nitrogen oxides (NOX), sulfur oxides (SOX), and volatile organic compounds (VOCs) in the polluting gas on the outer surface of the first cathode 342a and the outer surface of the second cathode 344a ), titanium dioxide (TiO2), rhodium (Rh), platinum (Pt), palladium (Pd), ruthenium, zinc (Zn) that facilitates the decomposition of covalent bonds of pollutant molecules such as hydrogen sulfide (H2S), which is an odorous substance. , zirconium (Zr), hafnium, vanadium (V2O5), niobium, tungsten (W), iron (Fe), ruthenium oxide, rhodium oxide, copper oxide, zinc oxide, zirconium oxide, silicon dioxide, titanium oxide, hafnium oxide, oxide One or more materials selected from among aluminum, vanadium oxide, niobium oxide, tungsten oxide, manganese and iron oxide are selected and applied.

The power supply source is a DC-DC converter or a single-phase voltage source inverter (MPCC: model prediction current control) in which a PWM (pulse width modulation) control method and a pulse frequency modulation method are mixed. DC power is supplied to the first heating element 341a from the first power supply source 341b having a built-in control function of the current of the supplied power, and DC power is supplied to the second heating element 343a from the third power supply source 343b When the heating element is heated, the first cathode 342a and the second cathode 344a installed at a distance are heated in the range of 200° C. to 1000° C. to emit the hot electrons at the set temperature. The control of the set temperature is performed by controlling the current supplied to the second heating element 343a by supplying DC power from the first power supply 341b to the first heating element 341a and supplying DC power from the third power supply source 343b to the second heating element 343a. As shown in [Equation 1], the amount of heat generated by the heating element can be adjusted.

[Equation 1]

H = 0.24 I2Rt

Here, H is the amount of heat (Kcal/h), I is the current (A), R is the resistance (ohms) of the conductor, and t is the conduction time (Sec).

In addition, the strength (magnetic flux density) of the magnetic field can be adjusted as in [Equation 2].

[Equation 2]

B = 2πknI

Here, B is the strength of the magnetic field, k is the magnetic constant (K=2 x 10-6 Tm/A), n is the number of coil turns, and I is the current.

In addition, the strength of the Lorentz force can be adjusted as in Equation 3

[Equation 3]

F = Bil

where F is the Lorentz force, I is the current (A), and l is the length of the coil (m).

The additive is supplied from the additive supply unit 100 and the air or polluted air or gaseous material containing contaminants introduced into the first quantum energy generator by the pressing force of the pressurized FAN 204 is discharged to the discharge electrode 345a and the ground electrode 345b. ) is heated in a high-temperature environment in the process of passing through the flow path formed between Catalyst materials such as BaO, SrO, CaO, etc. that are dissociated into atomic and ionic materials, excited by a magnetic field, thermally decomposed by a high temperature environment, and coated on the outer surface of the first cathode 342a and the outer surface of the second cathode 344a The amount of hot electrons emitted from the inner surface of the first cathode 221 and the outer surface of the second cathode 241 is increased by the Zn), zirconium (Zr), hafnium, vanadium (V2O5), niobium, tungsten (W), iron (Fe), ruthenium oxide, rhodium oxide, copper oxide, zinc oxide, zirconium oxide, silicon dioxide, titanium oxide, hafnium oxide , aluminum oxide, vanadium oxide, niobium oxide, tungsten oxide, manganese, and iron oxide are selected and applied to improve the purification efficiency of polluted air by catalytic oxidation reaction in the applied catalyst material, Activate it.

In general, the hot electron emission from the first and second cathodes 342a and 344a increases as the temperature increases. The hot electron emission is different depending on the type of material or the surface state of the cathodes 342a and 344a. For example, when the material of the hot electron emission device is an oxide of an alkaline earth metal, the hot electrons are emitted at a lower temperature than that of a pure metal, so that the hot electrons can be emitted even at a relatively low voltage. The amount of thermionic emission of the cathodes 342a and 344a for inducing thermal decomposition in a high-temperature atmosphere to purify the air flowing into the fourth quantum energy generator 340 or air containing contaminants and decomposing the covalent bonds of the contaminants And the strength of the magnetic field generated by the first and second heating elements 341a and 342a, the amount of quantum energy irradiation, and the magnitude of the Lorentz force are electric field electron energy ( 1E, eV) is 12.0857 eV or more, the electric field energy (1E, eV) that can break the covalent bond of water molecules in water vapor is 12.621 eV or more, and the electric field electron energy that can break the covalent bond of propionic acid molecules (C3H6O2) ( 1E, eV) is 10.44 eV or more The electric field energy that can break the covalent bond of hydrogen sulfide (H2S) molecule (1E, eV) is 10.457 eV or more, The electric field electron energy that can break the covalent bond of methyl mercaptan molecule ( 1E, eV) is 9.439 eV or higher, the electric field energy (1E, eV) that can break the covalent bond of the acetaldehyde molecule is 10.229 eV or higher, and the electric field electron energy that can break the covalent bond of the methyl ethyl ketone molecule ( 1E,eV) is 9.52eV or more, the electric field energy that can break the covalent bond of methylamine molecule (1E,eV) is 8.9eV or more, and the electric field electron energy that can break the covalent bond of ethylamine molecule (1E, eV) is 8.9 eV or more, the electric field energy (1E, eV) that can break the covalent bond of triethylamine molecule is 7.53 eV or more, and the electric field energy that can break the covalent bond of ammonia molecule (1E, eV) is (1E, eV) ) is 10.57 eV or more, the electric field energy (1E, eV) that can break the covalent bond of the acetic acid molecule is 10.95 eV or more, and the electric field electron energy that can break the covalent bond of the propionic acid molecule (1E, eV) is 10.44 eV or more, the electric field energy (1E, eV) capable of breaking the covalent bond of valeric acid molecule is 10.53 eV or more, and the electric field electron energy (1E, eV) capable of breaking the covalent bond of dimethyl sulfide molecule is (1E, eV). 7.4 eV The electric field energy (1E, eV) capable of breaking the covalent bond of the raw material butylaldehyde molecule is 10.53 eV or more, the electric field electron energy (1E, eV) capable of breaking the covalent bond of the MIBK molecule is 9.3 eV or more, The electric field energy (1E, eV) capable of breaking the covalent bond of the ethylbenzene molecule is 8.77 eV or more, the electric field electron energy (1E, eV) capable of breaking the covalent bond of the xylene molecule is 8.55 eV or more, carbon disulfide (CS2) The field electron energy (1E, eV) that can break the covalent bond of the molecule requires a field electron energy of 10.073 eV or more, and a source that breaks the bond between atoms after the covalent bond of the material molecule is dissociated The interminal covalent dissociation energy is 414 KJ/mol or more for C-H bonds, 389 KJ/mol or more for N-H bonds, 348 KJ/mol or more for O-H bonds, 163 KJ/mol or more for N-N bonds, 146 KJ/mol or more for O-O bonds. mol or more, Cl-F bond 253 KJ/mol or more, C-N bond 293 KJ/mol or more, N-O bond 201 KJ/mol or more, O-F bond 190 KJ/mol or more, Cl-Cl bond 242 KJ/mol or more mol or higher, for C-O bond at least 351 KJ/mol, for N-F bond at least 272 KJ/mol, for O-Cl bond at least 203 KJ/mol, for Br-F bond at least 237 KJ/mol, for C-F bond at least 439 KJ/mol mol or more, N-Cl bond 200KJ/mol or more, O-I bond 234KJ/mol or more, Br-Cl bond 218KJ/mol or more, C=C bond 611KJ/mol or more, C≡C bond In the case of 837 KJ/mol or more, in the case of C=N bond, 615 KJ/mol or more, and in the case of C=O bond, covalent dissociation energy of 799 KJ/mol or more is required. [Source: Chemistry-Covalent Energy, Author Fleishming]

The first generating coil and heating coil 341a, the second generating coil and heating coil 342a, and the first power supply source 341b and the second power supply source 342b and the conductor wire wound in the winding directions of the coils in opposite directions to configure the first quantum energy generator,

The pulse type power generated from the first power supply source 341b is supplied to the first generating coil and heating coil 341a wound in the direction opposite to each other in the winding direction of the coil to the first generating coil and heating coil 341a, At the same time, when the pulse type power generated from the second power supply source 342b is supplied to the second generating coil and heating coil 342a to the second generating coil and heating coil 342a, the first generating coil and heating coil 341a, In the second generating coil/heating coil (342a), pulsed magnetic fields in opposite directions are irradiated and opposite to each other at the center distance between the first generating coil/heating coil (341a) and the second generating coil/heating coil (342a) Pulsed quantum energy is generated and irradiated in the zero magnetic field state as the magnetic field in the form of a pulse in the direction is superimposed and destroyed.

The discharge electrode 345a installed on the inner circumferential surface of the outer cylinder 301a wound in the opposite direction to each other in the winding direction of the coil, the second housing and the second cathode 344a in the shape of a ruler are installed on the outer circumferential surface A second quantum energy generator may be configured by the ground electrode 345b, the fifth power supply 345c for supplying a high voltage, and a wire.

The discharge electrode 345a installed on the inner circumferential surface of the outer cylinder 301a in which the winding directions of the coil are wound in opposite directions to each other, and the second housing and second cathode 344a in the self-shape are installed on the outer circumferential surface. When the pulse-type power generated by the fifth power supply 345c is supplied to the ground electrode 345b to the discharge electrode 345a and the ground electrode 345b, the discharge electrode 345a and the ground electrode 345b move in opposite directions to each other. Pulsed magnetic field is irradiated and

At the center distance between the discharge electrode 345a and the ground electrode 345b, pulsed magnetic fields in opposite directions overlap and disappear, generating and irradiating pulsating quantum energy in a zero magnetic field state.

Quantum energy is irradiated by the means described above, air is ionized, pollutants are purified, bacteria and airborne viruses are sterilized, and the first quantum energy generating coil and heating coil 341a and the second quantum energy generating coil and heating coil are sterilized. heated to high temperature in (343a)

Air is supplied to the heat exchange unit 500 by being pressurized with a pressing force or a pressurizer (not shown) of the FAN 204 through the exhaust pipe, or the diffusion pipe 502 of the quantum energy irradiation unit 500 directly without passing through the heat exchanger 400 . ) is supplied to

13 is a cross-sectional view showing the heat exchange unit of FIG. 1 , and when described with reference to the attached drawings, the heat exchange unit 400 is made of tungsten (W), titanium (Ti), stainless steel (STS304), hastalloy material One material is selected to have a horizontal or vertical shell and tube shape, and a solenoid coil shape or trigger coil shape that receives power from an external power supply 413, a modified trigger coil shape, a cusp coil shape, a Helm-Helts coil shape, a gradient The first and second quantum energy generating coils 411 and 412 of a saddle coil shape or a uniform saddle coil shape are wound or installed 410 in which the first quantum energy generator is installed. A hole (not shown) of a certain diameter in the diagonal direction is drilled vertically and diagonally, and the polluted air inlet 404a and the outlet 404b are welded and installed, and the center of both ends in the horizontal direction of the body 401 is of a certain diameter. After drilling a plurality of holes (not shown) and welding an inlet 404a and an outlet 404b of a certain diameter to install, the tube to a plurality of partition plates 401a having a diameter 2 to 5 mm smaller than the inner diameter of the body 401 A plurality of holes (not shown) with a diameter of 2 to 5 mm larger than the outer diameter of the 402 are drilled in the central and circumferential directions, and the solenoid supplied with power from the external power supply 423 to the outside in the perforated hole (not shown) The first and second quantum energy generating coils 421 and 422 of a coil shape (not shown) or a trigger coil shape (not shown), or a modified trigger coil shape (not shown), or a gradient coil shape (not shown) are wound First, second of a plurality of tubes 402 in which the second quantum energy generator 420 is installed and a gradient coil shape (not shown) or a toroid coil shape (not shown) receiving power from an external power supply 433 After inserting the baffle 403 in which the third quantum energy generator 430, on which the quantum energy generating coils 431 and 432 are wound, is installed, between the plurality of partition plates 401a, both ends of the tube are cut using an expander (not shown). After expansion and joining or welding to install, A pressurized fan 204 is installed in the polluted air inlet 404a on the side, the outlet 404b is installed in the electric dust collector 200, and the process gas inlet 405a is connected to the quantum energy generator 310,320,330,340 with a built-in discharge function. After connecting to the inlet of the quantum energy irradiation device 500 to the process gas outlet 405b, the high-temperature polluting gas introduced by the pressurized fan 204 is introduced into the inlet 404a installed in the lower part of the body 401. The first quantum energy generator 410 is installed inside the main body 401, the third quantum energy generator 430 is installed, the baffle 403 and the second quantum energy generator 420 are installed through the tube 402 in the diagonal direction. The first, second, and second quantum energy generation 411a, 421a, 431a and 412a, 422a of the first, second, and third positive field energy generators 410, 420, 430 in the process of being discharged to the outlet 404b installed on the upper part of the body 401; 432a) The pulsating quantum energy generated in the state where the pulsed magnetic field irradiated in opposite directions from the coil is irradiated and the pulsed magnetic field irradiated in opposite directions overlaps and disappears. Air or By irradiating the polluted air, the moisture in the air

Water molecules are irradiated with magnetic field and quantum energy to have electrostatic traction, cause interference over long distances, reduce hydrogen bonds between water dipoles, increase order, and reduce water molecules to form a so-called 'microcluster'. Microcluster) phenomenon and easy to vaporize, improve cooling efficiency with the latent heat of evaporation of water during vaporization, and permanently preserve an orderly ground state By irradiating magnetic field and pulsating quantum energy in the form of dissociation and ionization of covalent bonds of pollutants in the air, purifying pollutants and facilitating dust collection in the dust collector 200, discharged from quantum energy generators (310, 320, 330, 340) with built-in discharge function In the process of being introduced into the process gas inlet 405a installed in the center of the left side of the main body 401, passing through the plurality of tubes 402 and discharged to the outlet 405b, the temperature of the polluting gas is controlled by an indirect heat exchange method.

The power supply 413,423,433 is selected from among the power supply 613 of FIG. 6D, the power supply 328 of FIG. 7, and the power supply 336 of FIG. 10 of the power supply 333 of FIG. become used

14 is a cross-sectional view showing the quantum energy irradiator of FIG. 1. Referring to the attached drawings, the quantum energy irradiator 500 is a cylindrical or rectangular body 501, an injection tube installed in the inner center of the body. (502), + pole (511) of the electrolysis device installed face-to-face on the inner surface of the body, - pole (512) of the injection pipe and electrolysis device, and a power supply (513) installed on one side of the outside of the body 501 In the circumferential direction of the outer side of the electrolysis device 510 and the main body 501, any one shape is selected from among the cusp coil, Helm-Heltz coil, gradient saddle coil, uniform saddle coil solenoid coil, toroid coil, Maxwell coil, and trigger coil shapes. It is composed of a quantum energy generator 520 consisting of first and second quantum energy generating coils 521 and 522 and a power supply 523 manufactured by The material of the cylindrical or rectangular columnar body 501 is a non-metal material such as an insulating material, an acid-resistant material, and a corrosion-resistant material, and 2n first and second quantum energy generating coils in the circumferential direction of one side of the outer body 501 (521, 522) are wound in a certain number of turns in opposite directions to each other, are installed to face each other, are connected to the power supply 523 and the conducting wire 524, and the inside of the body 501 is a semi-circular column shape having a predetermined length at intervals of the electrolyzer 510) of the + pole 511 is installed, a hole (not shown) of a certain diameter is perforated on one side of the outer side of the main body 501, and a thread is machined on the inner surface of the perforated hole (not shown) The outlet pipe 405b of the heat exchange unit 400 is connected to the upper part (not shown), and the diffuser pipe 502 is installed to the lower part (not shown), and a DC power supply ( 513) is installed, and on one side of the diffuser 502, the output side of the DC power supply 510 is connected to the -pole 512 terminal of the control panel 600, the power supply 513 of the electrolyzer 510 and the quantum energy generator ( When power is supplied to the power supply 523 of the 520), the pulse type generated from the power supply 513 is When the current power is supplied to the + pole 511 and the - pole and the diffuser 512, the electrolysis action proceeds to remove heavy metals contained in water and liquid substances including water, and the quantum energy generator 520) power supply ( 523), the pulsating quantum energy generated in the state where the pulsed magnetic field generated in the opposite direction overlaps and disappears is irradiated, and quantum energy with a built-in discharge function by a pressurizer (not shown) Quantum energy is irradiated from the generator 300, and the activated radical material and nitrogen oxide material are supplied to and supplied to the diffuser 502, and sprayed to gaseous material including air or liquid material including water to form active radicals and pollutants This reaction purifies pollutants and sterilizes bacteria in water including algae and red algae (including blue-green algae), and also the first quantum energy generating coil and heating coil 341a and the second of the fourth quantum energy generator 340 . When the air heated to a high temperature in the quantum energy generating coil and heating coil 343a is sprayed into the water through the diffuser 502, the water hammer action accompanied by the pressure wave and the algae and red algae (including blue-green algae) in contact with the high-temperature gas The biofilm of aquatic bacteria including the biofilm is destroyed by thermal shock and the internal organs are damaged to improve the sterilization rate, sterilize bacteria and viruses floating in the air, purify water and liquid substances, and remove heavy metals contained in water. In particular, it sterilizes bacteria by perforating the biofilm of bacteria such as algae by thermal shock and active radicals by spraying high-temperature active radicals into water and liquid substances, and by perforating the biofilms of algae in water by the electroporation method.

The power supplies 513 and 523 are selected from among the power supply 613 of FIG. 6d, the power supply 328 of FIG. 7, and the power supply 336 of FIG. 10 of the power supply 333 of FIG. become used

Additives introduced into the hot electrons emitted by supplying and mixing additives to external air or polluted air, heating the inside of the fourth quantum energy generator 340 to a high temperature using a heating element and heating the cathodes 302 and 303a to a high temperature; The mixed air or polluted air is collided, the pulsed magnetic field is irradiated and the pulsating quantum energy is irradiated to sterilize bacteria and viruses, and the high voltage generated by the power supply 345c is applied to the discharge electrodes 345a and 345b. to purify polluted air electrochemically such as dissociation, ionization, excitation, oxidation, and reduction reactions, and superoxide anion (O2-) and hydroxyl radical (OH-) in which oxygen and oxygen generated during the purification process are combined in an unstable form After sterilizing bacteria and viruses by free radicals such as oxygen radicals such as , nitrogen monoxide (NO) and singlet oxygen (1O2), the excess ionized air is applied to the quantum energy irradiation unit 500 by pressing force of a pressurizer (not shown). Supply to the air diffuser 502 of the air or air flowing into the housing 601 and spraying the liquid material including water and water to purify contaminants in the gas including air and air through redox reaction At the same time, it sterilizes bacteria and viruses, sprays water and liquid substances including water to purify pollutants in water, and at the same time sterilizes and removes bacteria and biofilms contained in water. In particular, it adversely affects the cells of living organisms. Free radicals attack the cell wall at a rate that depends on the cellular resistance imparted by the cell's enzymatic and molecular machinery. As the cell wall breaks down, it is punctured by free radicals, and the cell's contents flow out of the cell.

In addition, active oxygen, one of the oxygen radicals, is oxygen remaining after being used in the process of making energy. It is an atom or molecule with unpaired electrons, and is a very unstable atom or molecular state called a free radical. Destroys cell membranes, mitochondria, DNA and other cellular components by binding to other substances in Therefore, it causes damage to the tissues and organs of the organism, which deteriorates the natural defense mechanism of the organism.

In addition, the + electrode 511 to the electrolyzer 510 consisting of a + electrode 511, a diffuser-electrode 512, and a power supply 513, the + electrode 511, and a power supply to the diffuser-cum-electrode 512 ( By supplying the DC power generated in 513) to the + electrode 511, the diffuser and the - electrode 512, the electric field strength applied to water or a liquid material including water is the distance between the electrodes 511 and 512 for a given voltage. Inversely, as the distance between the electrodes 511 and 512 decreases, the electric field strength increases. However, an electric field must be able to be generated in tissue with insulated electrodes (ie, a flow of ions is not required to generate an electric field). Without wishing to be bound by theory, the flow of ions opens up the electrical pores and allows for the movement of molecules into the cell during electroporation. The flow of electric charge in a conductor or medium between two points of potential difference is called an electric current. An electric current between the electrodes is achieved by ions that can change within the cell or charged particles within the tissue. In addition, the flow of conductive ions within the tissue can vary between the electrodes from the initiation to the end of an electrical pulse.

When tissue has a small percentage of conductive ions, resistance increases, heat is generated and cells die. Ohm's law states the relationship between current (“I”), voltage (“V”), and resistance (“R”).

R = V/I

The resistance between two electrodes in tissue varies with the charged particles present there. Thus, the resistance within the tissue changes from the initiation to the end of the electrical pulse.

Heat is generated by the inter-electrode impedance (ie, a combination of resistance and reactance, measured in ohms) and is proportional to the product of current, voltage, and pulse duration. Heat can also be expressed as the square of the current and the pulse duration (“t”, time). For example, during electroporation, the heat or power (“W”, watts) generated in the supporting tissue can be expressed as

W = I2Rt

Typically, a metal or dielectric electrode is placed in contact with the tissue and a short pulse of a predetermined voltage is applied to the electrode causing the cell to temporarily open the membrane pores. The protocol currently describing electroporation is defined as the resulting electric field strength (E), which relies on short pulses of voltage proportional to the distance between the electrodes, independent of current or tissue resistance. Thus, resistance or heat cannot be determined by the electroporated tissue, which leads to varying success with different pulse voltage electroporation protocols. Clearly, the difference in the upper amplitude of the voltage pulses between the electroporation protocol that facilitates effective electroporation and the electroporation protocol that causes cell death is very small. Additionally, a clear correlation was observed between cell death and heating of cells caused by the upper amplitude of the short voltage pulses. Thus, overheating of the cells between the electrodes serves as a major reason for the ineffectiveness of any given electroporation voltage pulse protocol. Also, the current between the electrodes, not the voltage between them, acts as the primary determinant of the effectiveness of any given pulse protocol.

When electricity is delivered to a subject's cells, the dose of electricity can be accurately described as a quantity of electric charge ("Q"), which is equal to current ("I") and time (��t). ") according to the following formula.

Q = It

If the current is not constant, then Q is the time integral with respect to I. In this regard, charged particles (ions or molecules) behave in a similar way. For example, when silver ions are deposited on an electrode to define a standard unit of electrical quantity (coulomb), only the above specified amount of charge is important. A certain minimum voltage must be present to generate an electric current, but the amount of ions that accumulate cannot be determined from a predetermined voltage. Accordingly, the amount of charged particles delivered to the cells in the electroporator can be obtained from the voltage applied to the electrode.

15 is a cross-sectional view showing the control panel of FIG. 1 , and when described with reference to the attached drawings, the control panel 600 is an additive supply unit 100, an electric dust collector 200, quantum energy generation by data transmitted by a sensor. The power supplied to the unit 300 and the quantum energy irradiation unit 500 is controlled in a cut-off supply method.

In the above, the technical idea of the present invention has been described along with the accompanying drawings, but this is an exemplary description of the best embodiment of the present invention and does not limit the present invention, if a person of ordinary skill in the art It is a clear fact that anyone can make various modifications and imitations of dimensions, shapes and structures without departing from the scope of the technical spirit of the present invention, and such modifications and imitations are included in the scope of the technical spirit of the present invention.

100: additive injection unit,
101: city water storage tank, 102a, 102b, 102c, 102d, 102e: additive storage tank,
103: additive stock solution supply pipe, 104: municipal water supply pipe,
105: agitator, 106: pump,
107a, 107b: electromagnetic valve, 108: heating chamber,
109: electric heater, 110: nozzle,
111: heater power supply,
200: electric dust collector
201: single-stage electric dust collector body 202: two-stage electric dust collector body,
203: venturi ejector 204: pressurized fan
211: discharge electrode, 211a, 211b: first, second quantum energy generating coil
212: ground electrode, 212a, 212b: third, fourth quantum energy generating coil
213: lead wire, 214: power supply
221: discharge electrode, 221a, 221b: first, second quantum energy generating coil
222: dust collecting electrode, 222a, 222b: third, fourth quantum energy generating coil
222c: cylinder 222d: fifth quantum energy generating coil
300: quantum energy generation unit
301: body 302: insulator
310: first quantum energy generator 311: first quantum energy generating coil and discharge electrode
312: second quantum energy generating coil and ground electrode
313: power supply, 214: lead wire
320: second quantum energy generator
301: body 302: insulator
322-1a: first gradient saddle coil 322-2a: discharge electrode
322-1b: first gradient saddle coil 322-2b: second discharge electrode
323: ground electrode 324: third discharge electrode
330: third quantum energy generator
330a: first quantum energy generator
301: housing 302: insulator
331a: first inclined coil 332a: second inclined coil
333a: power supply
330b: high voltage discharge unit
331b: first quantum energy generating coil and discharge electrode
332b: second quantum energy generating coil and ground electrode
333a: power supply 334b: lead wire
340: fourth quantum energy generator
301: body 302: outer cylinder
303: inner cylinder 304: polluted air supply port
305: air outlet
341a: first quantum energy generating coil and heating coil 341b: power supply
342a: second quantum energy generating coil and heating coil 342b: power supply
343a: first cathode 343b: power supply
344a: second cathode 344b: power supply
345: high voltage discharge unit
345a: first quantum energy generating coil and discharge electrode
345b: second quantum energy generating coil and ground electrode 345c: power supply
346a: first spur gear 346b: second spur gear
345c: first electric motor 347a: first spur gear
347b: second spur gear 347c: second electric motor
400: heat exchange unit
401: main body 401a: partition plate
402: tube 403: baffle
404a: polluted air inlet 404b: polluted air outlet
405a: process air inlet 404b: process air outlet
500: Quantum Energy Investigation Department
501: body 502: diffuser
510: electrolyzer 511: + pole
512: -pole 513: DC power supply
521: first quantum energy generating coil 522: second quantum energy generating coil
523: power supply
600: control panel

Claims (24)

City water storage tank 101, additive storage tank 102a-e, additive stock solution supply pipe 103, city water supply pipe 105, pump 106, additive supply pipe 107, solenoid valves (107a, 107b), heating chamber 108, the electric heater 109, the nozzle 110, the heater power supply 112, the venturi 203, the air compressor 113 is composed of the additive storage tanks (102a, 102b, 102c, 102d, 102e) Any one or more of the stored nitrogen oxide (NOX) removal reducing agent, sulfur oxide (SOX) remover, oxygen scavenger, OH-radical release agent, and particle coagulant compound is selected and stored, and then stored through the supply pipe by gravity difference. After supplying an appropriate amount to the tank 101, stirring for a certain time with the stirrer 105, and then using the pump 106 to spray the heating chamber 108 heated to a high temperature by the electric heater 109 to vaporize the air The additive supply unit 100 that is sucked and pressurized by the compressor 113 and supplied to the neck 203a of the venturi ejector 203 installed between the first-stage electric dust collector 210 and the second-stage electric dust collector 220 of the electric dust collector 200 . );Wow
Both ends are conical and the central part is cylindrical, the left end face is connected to the fan 204 and the right end face is connected to the venturi ejector 203, the main body 201, the main body 201 on the left and inside one side The first and second quantum energy generating coils 211a and 211b and the first partition plate (not shown) provided with the discharge electrode 211 are installed, and the third and fourth quantum energy on the outer right side and inner side of the main body 201 The second partition plate on which the generating coils 212a and 212b and the dust collecting electrode 212 are installed is installed, and the power supply 214 is installed on one side of the outer side of the main body 201, and the -power generated by the power supply 214 is supplied. When supplied to the first and second quantum energy generating coils 211a and 211b and the discharge electrode 211 through the conducting wire 213, the winding directions of the first and second quantum energy generating coils 211a and 211b are opposite to each other. As the magnetic field and pulsating quantum energy in the opposite direction are irradiated, dust and heavy metals in the polluted air are ionized by corona discharge from the discharge electrode 211, and the + power generated by the power supply 214 is passed through the wire 213. When supplied to the third and fourth quantum energy generating coils 212a and 212b and the dust collecting electrode 212, the third and fourth quantum energy generating coils 211a and 211b having opposite winding directions have opposite pulse shapes. A first stage dust collector 210 for removing dust by applying + power to the dust collecting electrode 212 while irradiating the magnetic field and pulsating quantum energy of the discharge electrode 211 and attaching the ionized material to the dust collecting electrode 212 by electrical attraction; Wow
The first quantum energy generating coil 221a is installed on the left outer side of the main body 202, the left end surface of which is connected to the venturi ejector 203, and the second quantum energy generating coil 221b and A first partition plate (not shown) on which the discharge electrode 221 is installed is installed, and a third quantum energy generating coil 222a is installed on the outer right side of the main body 202 . A fourth quantum energy generating coil 212b is installed on one side of the outside of the plurality of cylinders 222c, a plurality of RF coils are formed on the inner circumferential surface of the cylinder 222c, and a fifth quantum energy generating coil composed of a cover plate on the top A second partition plate (not shown) on which the dust collecting electrode 212 is installed is installed, a power supply 224 is installed on one side of the outer side of the main body 202, and the -power generated by the power supply 224 is connected to a conductive wire 223 ) through the first and second quantum energy generating coils 221a and 221b and the discharge electrode 221, the winding directions of the first and second quantum energy generating coils 221a and 221b opposite to each other are opposite to each other. As the pulsed magnetic field and pulsating quantum energy are irradiated, dust and heavy metals in the polluted air are ionized by corona discharge from the discharge electrode 221, and the + power generated from the power supply 224 is applied to the third, When supplied to the fourth quantum energy generating coils 222a and 222b and the fifth coil and dust collecting electrode 222, the third and fourth quantum energy generating coils 22a and 222b whose winding directions are opposite to each other are pulses in opposite directions. A state in which + power is supplied to the dust collecting electrode 222 while irradiating a magnetic field in the form of a magnetic field and pulsating quantum energy, and a plurality of installed fifth coils are irradiated with pulsed magnetic fields in opposite directions and the magnetic fields in opposite directions are superimposed and destroyed. an electric dust collector 200 comprising a two-stage dust collector 210 for dust removal by making the material ionized to the discharge electrode 221 adhere to the dust collecting electrode 222 while irradiating the pulsating quantum energy in the air;
A cylindrical or rectangular parallelepiped-shaped body 301, an insulator 302 applied to the outer circumferential surface of the body, a trigger coil or solenoid coil shape with a certain distance from the inner surface of the body, and a discharge needle 311e on the inner and outer circumferential surfaces is spaced A first quantum energy generating coil and discharge electrode 311 attached (processed) is installed, and the discharge needle ( 312e) is provided with a second quantum energy generating coil and ground electrode 312 attached at an interval. The energy generating coil/discharge electrode 311 and the second quantum energy generating coil/ground electrode 312 are connected, and the pressurized fan 204 of the electric dust collecting unit 200 is operated so that the inhaled and pressurized polluted air is converted into the first quantum energy At the same time as being introduced into the body 301 of the generator 310, the power generated by the pulsed power supply 313 passes through the conducting wire 313 as one quantum energy generating coil and discharge electrode 311, and the second quantum energy generating coil. When supplied to the ground electrode 312, the first quantum energy generating coil and discharge electrode 311 and the second quantum energy generating coil ground electrode 312 in the shape of a trigger coil or solenoid coil wound in opposite directions 90 degrees of current flow Pulsed magnetic field is irradiated at an angle, and pulsed magnetic fields in opposite directions overlap and disappear at the center distance, so that pulsating quantum energy is generated and irradiated in a zero magnetic field state, and discharge starts between discharge electrodes 311 and 312 and high field electrons Singlet oxygen and singlet oxygen and The first quantum energy generator 310 with a built-in discharge function for sterilizing and sterilizing by perforating the biofilm of bacteria and viruses suspended in the air by active radicals such as nitric oxide and hydroxyl ions; and
Cylindrical or rectangular parallelepiped-shaped body 301, the inner surface of the body is insulated, and two fixing rods (not shown) are installed therein with a certain distance from each other, and the winding directions of the coils are opposite to each other and spaced apart from each other on the installed fixing rod. A first gradient saddle coil (322-1a) and a first discharge electrode (322-2a) and a second gradient saddle coil (322-1b) and a first discharge electrode ( 322-2b) is installed to face each other with the discharge needle pointing toward the inner center, and then the first gradient saddle coil 322-1a and the first discharge electrode 322-2a and the second gradient saddle coil 322-1b are installed. ) and the first discharge electrode 322-2b at intervals inside, the discharge needles having a cylindrical shape and one end of a certain length processed into a cone shape are spaced apart and a plurality of ground electrodes 323 are installed on a fixing base (not shown) It is installed in the ground electrode 323, has a screw shape with a gap inside, and has a third discharge electrode 324 installed with a plurality of discharge needles having one end of a predetermined length on the outer circumferential surface in a conical shape with an interval therebetween. When the pulse type power generated from the power supply 328 installed on the outside of the main body 301 is supplied (not shown), the first gradient saddle coil 322-1a and the winding direction are wound in opposite directions. At the first discharge electrode 322-2a and the second gradient saddle coil 322-1b and the second discharge electrode 322-2b, a magnetic field in the form of a pulse in opposite directions is irradiated to the body 301 and pulses in opposite directions In a state in which the magnetic field in the form of a magnetic field is superimposed and extinguished, multiple discharges are initiated between the first and second discharge electrodes 322-1a and 322-1b, the ground electrode 323 and the third discharge electrode 324 as pulsating quantum energy is irradiated. And a high field electron energy band is formed, and high field electron energy is irradiated to the air components introduced by the FAN 204 passing through this band, odor causing substances and harmful substances contained in the air, and the high field electron energy is irradiated to the air components and air. The covalent bonds of odor-causing substances and harmful substances contained in it are dissociated, decomposed and purified, and singlet oxygen and hydroxyl ions generated in this process are active. A second quantum energy generator 320 with a built-in discharge function for sterilizing and sterilizing by perforating the biofilm of bacteria and viruses in which radicals are suspended in the air; and
A first quantum energy generator 330a comprising a housing 301, a first gradient coil 331, a second gradient coil 332, and a power supply 333c, a first quantum energy generating coil and discharge electrode 334 , A second quantum energy generating coil/ground electrode 335, a high voltage generator 336, and a second quantum energy generator/discharging unit 330b composed of a wire 336f, and the main body 301 has a cylindrical shape, A shape of a plurality of inclined coils having opposite winding directions in the formed insulating layer is formed by insulating the outer surface of the main body 301 with an insulating material by selecting any one shape from among shapes such as a cube shape, a rectangular parallelepiped shape, or the like. The first and second quantum energy generating coils 331 and 332 of the toroidal coil shape are installed to face each other, and the power in the form of a pulse generated from the power supply 333 installed on one side outside the main body 301 is supplied through the conducting wire 333d. Pulsed quantum energy generated in a zero magnetic field state by irradiating magnetic fields in the form of pulses in opposite directions and overlapping and annihilating the magnetic fields in the form of pulses in opposite directions at the center distance of the first and second quantum energy generating coils 334 and 335 While irradiating into the body 301, the first and second quantum energy generating coils 331 and 332 are installed on one side of the inside of the main body 301 where the first and second quantum energy generating coils 331 and 332 are installed to face each other. , After drilling two holes (not shown) sized to allow the fixing rod to be inserted at a distance from the center of both surfaces of a rectangular insulating plate made of any one of Teflon, ceramic, and glass materials, stainless steel (STS304), or Wind the coil in a clockwise or counterclockwise direction in a tungsten (W) wire deformed gradient coil shape or toroid coil shape. After attaching the discharge needles 334a and 334b having a predetermined length to the exposed coil at regular intervals, the winding directions of the adjacent coils are opposite to each other and inserted into the fixtures 337a and 337b, and then the fixing nut 338. to maintain and fix the spacing with , Discharge plate (334, 335), fixing nut 338, and discharge plate 335 are assembled in order, mounted on fixtures (337a, 337b) attached to the inner circumferential surface of the body, and the power supply mounted on one side of the outside of the body 301 When the pulse-type power generated in (336b) is applied to the plurality of first quantum energy generating coil/discharge electrode (334) and second quantum energy generating coil/ground electrode (335) through the conducting wire (336d), the current flow direction and At an angle of 90 degrees, magnetic fields in opposite directions are irradiated and pulsed in opposite directions at the center distance of the first quantum energy generating coil and discharge electrode 334 and the second quantum energy generating coil and ground electrode 335 . As the magnetic fields of the pulsating quantum energy are generated and irradiated in a zero magnetic field state as the magnetic fields of And a high field electron energy band is formed, and the high field electron energy is irradiated to the air constituent material introduced by the FAN 204 and the odor causing material and harmful material contained in the air in the formed energy band, so that the air constituent material and the air The covalent bonds of odor-causing substances and harmful substances contained in it are dissociated and purified through oxidation and reduction reactions, and active radicals such as singlet oxygen and hydroxyl ions generated in this process are suspended in the air of bacterial and viral biofilms. A third quantum energy generator 330 with a built-in discharge function to sterilize and sterilize by drilling; and
The inner cylinder 303 has a cylindrical shape, and one part of the outer side is insulated, and two places are sealed with a partition plate (not shown) at intervals inside, and spaced to the left with a left partition plate (not shown) in the circumferential direction. A plurality of polluted air injection ports 304 are perforated, and a plurality of purified air intake ports 305 are perforated in the circumferential direction at a distance from the right partition plate (not shown) to the right, and the inner cylinder 303 is wound on one circumferential surface. A housing 303a having a jacket shape embracing the first quantum energy generator and heating coil 342a and performing a second cathode 344a function is the main body ( 301) insulated from it and installed face-to-face, and a solenoid-shaped ground electrode 345b wound on the circumferential surface in face-to-face contact with the outer surface of the rectangular ◎-shaped housing 303a is installed on one side of the outer side of the inner cylinder (303). The second spur gear 346a is installed and the first spur gear 346b is installed so that the teeth of the second spur gear 346a are engaged, and the first spur gear 346b is axially connected to the second electric motor 346c and is spaced apart. A rotation fastening mechanism (346sd) is installed on one side of both ends of the end face, the second quantum energy generator and heating coil (342a) is supplied with power from the second power supply (342b), and the second cathode (344a) is the second Power is supplied from the fourth power supply 344b, the fourth power supply 344b and the second power supply 342a constitute a bias circuit, and the ground electrode 345b supplies power from the fifth power supply 345c. receive
The outer cylinder 301 has a cylindrical shape, a portion of the outer side is insulated, and a discharge electrode 345a of a solenoid coil shape wound on a circumferential surface of an inner side is installed, and an outer cylinder portion equal to the area where the discharge electrode 345a of the solenoid coil shape is installed. The first cathode 343a) function, and a jacket-shaped housing 303b embracing the first cathode 343a is installed, and the inner surface of the housing is insulated and insulated so that it is a first quantum energy generator and heating on the circumferential surface. A coil 341a is installed, and a fastening mechanism 347d for rotation is installed on one side of both ends, and the first quantum energy generator and heating coil 341a receives power from the first power supply 341b, and the first The cathode 343a receives power from the third power supply 343b, the third power supply 343b and the first power supply 341a constitute a bias circuit, and the discharge electrode 345a is the fifth power supply ( 345c).
The first and second quantum energy generators and heating heaters 341a in which the power generated by the first and second power supplies 341b and 342b or pulsed DC power is in the shape of a solenoid coil and the winding directions are opposite to each other. , 342a) and irradiating the first and second cathodes 343a and 344a with a magnetic field or a pulsed magnetic field at an angle of 90 degrees in the direction of current flow to overcome the work function value of the heating heater material (5000C) ) or higher, hot electrons are emitted from the surface of the material, and power or pulsed power generated from the first power supply 341b and the third power supply 343b constituting the bias circuit is supplied to the first cathode 343a. At the same time, when the second power supply 342b and the fourth power supply 344b constituting the bias circuit supply power or pulse type power to the second cathode 344a,
The hot electrons emitted from the material surfaces of the first and second quantum energy generators and heating heaters 341a and 342a are accelerated to the first and second cathodes 343a and 344a, respectively, and the first and second cathodes 343a and 344a Heating the first and second cathodes 343a and 344a above a temperature that can overcome the material's work function value in a manner that strikes When an AC high voltage or DC high voltage in the form of a pulse generated by the fifth power supply 345c is applied while emitting, the discharge starts between the discharge electrode 345a and the ground electrode 345b, and a high field electron energy band is formed. Irradiating and heating high electric field electron energy to polluted air flowing in and passing through the band by the pressing force of the pressurized fan 204, irradiating pulsed magnetic field, pulsating quantum energy irradiation, dissociation, ionization, and excitation of the hot electron emission and hitting high voltage discharge Quantum energy with a built-in fourth discharge function that purifies odor-causing substances and harmful substances in polluted air through electrochemical reactions such as oxidation and reduction reactions, and sterilizes and sterilizes bacteria and Corona 19 infectious viruses in polluted air generator 340; and
Contaminated air inlet (404a) and outlet (404b) by drilling holes (not shown) of a certain diameter in the vertical or diagonal direction on one side of the body 401 of the horizontal or vertical shell and tube shape, and the main body 401 in the vertical direction After installing the body 401 by welding a plurality of holes (not shown) of a certain diameter in the center of both end faces in the horizontal direction, the inlet 404a and the outlet 404b of a certain diameter are welded and installed, then the main body (401) In a plurality of partition plates (401a) having a diameter less than the inner diameter of 2 to 5 mm, a plurality of holes (not shown) having a diameter of 2 to 5 mm less than the outer diameter of the tube 402 are punched in the center and a plurality of holes in the circumferential direction, perforated holes After inserting the plurality of tubes 402 and the baffle 403 between the plurality of partition plates 401a (not shown), the both ends of the tube are expanded using a pipe expander (not shown) and joined or welded to install After that, the pressurized fan 204 is installed in the polluted air inlet 404a, the outlet 404b is installed in the electric dust collector 200, and the process gas inlet 305a is connected to the quantum energy generator 300 with a built-in discharge function. After connecting the process gas outlet 405b to the inlet of the quantum energy generating device 500, the high-temperature polluting gas introduced by the pressurized fan 204 is introduced into the inlet 404a installed at the lower part of the body 401. In the process of being discharged to the outlet 404b installed on the upper part of the body 401 in the diagonal direction through the internal baffle 403 and the tube 402 in the main body 401, it is discharged from the quantum energy generator 300 with a built-in discharge function. Heat to adjust the temperature of the polluting gas by an indirect heat exchange method in the process of being introduced into the process gas inlet 405a installed in the center of the left side of the body 401, passing through the plurality of tubes 402 and discharged to the outlet 405b Exchange unit 400; and
In the circumferential direction of the cylindrical or square column-shaped insulating material, acid-resistant, and corrosion-resistant material through which gaseous substances including air or liquid substances including water flow in and out The 2n first and second quantum energy generating coils are wound with a predetermined number of turns in opposite directions to each other, are installed to face each other, and are connected to the power supply 523 by conducting wires, and have a predetermined length within the body 501 at intervals. The + pole 511 of the electrolyzer 510) of the semi-circular column shape having The outlet pipe (405b) of the heat exchange part is connected to the upper part of the screw thread (not shown), and the diffuser pipe 502 is installed at the lower part (not shown), and a DC power supply ( 513) is installed, and the power supply 510 of the electrolyzer 510 in the control panel 600 and the quantum energy generator ( When power is supplied to the power supply 523 of the 520), when the pulsed DC power generated from the power supply 510 is supplied to the + pole 511 and the - pole and the diffuser 512, the electrolysis action proceeds, so that water and A state in which heavy metals contained in the liquid material including water are removed, and the pulsed magnetic field generated by the power supply 523 of the quantum energy generator 520) and the pulsed magnetic field generated in opposite directions overlap each other and disappear The pulsating quantum energy generated in the It is sprayed on gaseous substances including air or liquid substances including water and reacts with active radicals and pollutants to purify pollutants, sterilize bacteria and viruses floating in the air, purify water and liquid substances, and heavy metals contained in water In particular, it is sprayed onto water and liquid substances of high-temperature active radical substances to prevent thermal shock and activity. Quantum energy irradiation unit 500 for sterilizing bacteria by perforating the biofilm of bacteria such as algae by sexual radicals and perforating the biofilm of algae in water by the electroporation method; and the additive supply unit by the data transmitted by the sensor (100), Electric dust collecting unit 200, quantum energy generating unit 300, quantum energy irradiation unit 500, characterized in that it further comprises a control panel 600 for controlling the power supply to the cut-off supply method ,Quantum energy generator with built-in discharge function for liquid and fluid treatment In claim 1,
The additive distribution unit 100 includes a city water storage tank 101, an additive storage tank 102a-e, an additive stock solution supply pipe 103, a municipal water supply pipe 104, a stirrer 105, a pump 106, and an additive supply pipe 107. ), solenoid valves 107a, 107b, heating chamber 108, electric heater 109, nozzle 110, heater power supply 111, venturi 112, air compressor 113. (102a, 102b, 102c, 102d, 102e) Any one or more of a reducing agent for removing nitrogen oxides (NOX), a sulfur oxide (SOX) scavenger, an oxygen scavenger, a hydroxyl group (OH-radical) releasing agent, and a particle coagulant is selected After being stored, an appropriate amount is supplied to the city water storage tank 101 through a supply pipe by a gravity difference, stirred with a stirrer 105 for a certain period of time, and then heated to a high temperature by an electric heater 109 using a pump 106. After being sprayed and vaporized in the chamber 108, the venturi ejector 112 is sucked and pressurized by the air compressor 113 and installed between the first stage electric dust collector 210 and the second stage electric dust collector 220 of the electric dust collector 200. Quantum energy generating device with built-in discharge function for gas, liquid, and fluid treatment, characterized in that it supplies a two-fluid nozzle (203b) connected to the neck (12a) In claim 2,
The reducing agent for nitrogen oxide (NOX) removal is selected from any one or more of urea, ammonia, isopropyl alcohol, and isobutyl alcohol, and is supplied and sprayed to the air nozzle 203a connected to the venturi ejector 203,
The sulfur oxide (SOX) remover is selected from among ammonia, calcium hydroxide, calcium oxide, calcium carbonate, calcium bicarbonate, and sodium carbonate, and is supplied and sprayed to the air nozzle 203a connected to the venturi ejector 203,
Oxygen scavengers are N-aminomorphulline, 1-amino-4-methylpiperazine, N-aminohexamethyleneimine, 1-aminopyrrolidine, 1-aminopiperidine, hydroxylamine, N,N-diethyl At least one material selected from among hydroxylamine and N-isopropylhydroxylamine is supplied and sprayed to the air nozzle 203a connected to the venturi ejector 203,
The hydroxyl group (OH-Radical) releasing agent is water, hydrogen peroxide, 4-allyl-2-methoxyphenol (eugenol), 3-(2-bornyloxy)-2-methyl-1-propanol, 2-tert- Butylcyclohexaneol, 4-tert-butylcyclohexaneol, benzyl alcohol, 1-decanol, 9-decene-1-ol, dihydroterpineol, 2,4-dimethyl-4-cyclohexene-1- One or more materials selected from among yl-methanol, 2,4-dimethylcyclohexylmethanol, 2,6-dimethyl-2-heptanol, and 2,6-dimethyl-4-heptanol are selected and connected to the venturi ejector 203 . It is supplied and sprayed to the sieve nozzle (203a),
Particle flocculants include aminosilanes such as dimethylsilyldimethylamine, N,N-dimethyltrimethylsilylamine, hexamethylsilazane, N,O-bis(trimethylsilyl)trifluoroacetamide, and bis(dimethylamino)dimethylsilane. Quantum energy generating device with built-in discharge function for gas, liquid, and fluid treatment, characterized in that one or more substances are selected from among the particle coarsening compounds and supplied and sprayed to the air nozzle (203a) connected to the venturi ejector (203)
In claim 1,
The electric dust collector 200 is
The main body 201, the first and second quantum energy generating coils 211a and 211b, the discharge electrode 211, and the third and fourth quantum energy generating coils 212a and 212b, and dust collection on the left inner side of the main body 201 A first stage dust collector 210 comprising an electrode 212 and a power supply 214; and a venturi ejector 203; and
The main body 202, the first and second quantum energy generating coils 221a and 221b and the discharge electrode 221, and the third and fourth quantum energy generating coils 222a, 222b and the fifth on the left inner side of the main body 202 Quantum energy generation with a built-in discharge function for gas, liquid, and fluid treatment, characterized in that it consists of a quantum energy generating coil 222c and a dust collecting electrode 212 and a two-stage dust collector 220 comprising a power supply 224 Device In claim 4,
The first and second quantum energy generating coils 211a and 211b of the first quantum energy generator 211e of the first stage dust collector 210 and the third and fourth quantum energy generating coils of the second quantum energy generator 212e ( 212a and 212b) and the winding directions of the first quantum energy generating coil 211a and the third quantum energy generating coil 212a of the third quantum energy generator 212f are opposite to each other, and the first quantum energy generator 211e The configuration of is composed of first and second quantum energy generating coils 211a and 211b and a power supply 214, and the configuration of the second quantum energy generator 212e includes third and fourth quantum energy generating coils 212a, 212b) and a power supply 214, and the configuration of the third quantum energy generator 212f is composed of first and third quantum energy generating coils 211a and 212a and a power supply 214, and the power supply 214 ) is supplied to the first quantum energy generator 211e, the second quantum energy generator 212e, and the third quantum energy generator 212f through the conducting wire 213, each quantum energy generating coil In (211a and 211b, 212a and 212b, 211a and 2122), electric field electron energy in the form of pulses in opposite directions is irradiated and opposite to each other at the center between each quantum energy generating coil (211a and 211b, 212a and 212b, 211a and 212b) Quantum energy generator with built-in discharge function for gas, liquid, and fluid treatment, characterized in that the electric field electron energy in the form of a pulse in the direction is superimposed and destroyed to generate and irradiate pulsating quantum energy in a state of a zero magnetic field In claim 4,
The quantum energy generator applied to the first stage dust collector 210 is
The first quantum energy generator 211e is composed of a first quantum energy generating coil 211a, a second quantum energy generating coil 211b, and a power supply 214 and a wire,
The second quantum energy generator 212e is composed of a third quantum energy generating coil 212a, a fourth quantum energy generating coil 212b, and a power supply 214 and a wire,
The third quantum energy generator 212f is composed of a first quantum energy generating coil 211a, a third quantum energy generating coil 212a, and a power supply 214 and a wire,
The first quantum energy generator 211e, the second quantum energy generator 212e, the first quantum energy generating coil 211a, the second quantum energy generating coil 211b, and the third of the third quantum energy generator 212f The shape of the quantum energy generating coil 212a and the fourth quantum energy generating coil 212b is

Select any one coil shape from the Maxwell coil, Helmholtz coil, solenoid coil, cusp coil, and toroid coil shape and select and use the same shape for the first and second quantum energy generating coils, or the first quantum energy generating coil The second quantum energy generating coil in the shape of a Maxwell coil is for gas, liquid, and fluid treatment, characterized in that coils of different shapes are selected and used by a method such as a Helmholtz coil, or a modified shape of these coils is selected and used Quantum energy generator with built-in discharge function In claim 4,
The quantum energy generator applied to the two-stage dust collector 220 is
The quantum energy generator applied to the first stage dust collector 210 is
The first quantum energy generator 221e is composed of a first quantum energy generating coil 221a, a second quantum energy generating coil 221b, and a power supply 224 and a wire,
The second quantum energy generator 222e is composed of a third quantum energy generating coil 222a, a fourth quantum energy generating coil 222b, and a power supply 224 and a wire,
The third quantum energy generator 222f is composed of a first quantum energy generating coil 221a, a third quantum energy generating coil 222a, and a power supply 224 and a wire,
The fourth quantum energy generator 222g is a fifth quantum energy generating coil 222e of the RF coil to which any one of a plurality of motor stator field coil shapes, a square coil shape, and a deformed solenoid coil shape is selected and applied. ) and a power supply 224 and a wire, the first quantum energy generator 221e, the second quantum energy generator 222e, and the first quantum energy generating coil 221a of the third quantum energy generator 222f , The shape of the second quantum energy generating coil 221b, the third quantum energy generating coil 222a, and the fourth quantum energy generating coil 222b is a Maxwell coil, a Helmholtz coil, a solenoid coil, a cusp coil, and a toroid coil shape. Either one coil shape is selected and the same shape is selected and used for the first and second quantum energy generating coils, or the first quantum energy generating coil is a Maxwell coil shape and the second quantum energy generating coil is a Helmholtz coil, etc. It is characterized in that coils of different shapes are selected and used or modified shapes of these coils are selected and used, and the shape of the fifth quantum energy generating coil 222e of the fourth quantum energy generator 222g is fixed to the motor. Quantum energy generation with built-in discharge function for gas, liquid, and fluid treatment, characterized in that it is the first RF coil (222d) to which any one of the magnetic field coil shape, the square coil shape, and the deformed solenoid coil shape is selected and applied Device In claim 4, Improvement of the second quantum energy generating coil (211b) and the discharge electrode (211) of the first stage dust collector (210) and the second quantum energy generating coil (221b) and the discharge electrode (221) of the two stage dust collector (220) Quantum energy generating device with built-in discharge function for gas, liquid, and fluid treatment, characterized in that the shape is a Rogoski coil or a modified Rogoski coil. In claim 1,
Quantum energy generator 300 includes any one of the first quantum energy generator 310, the second quantum energy generator 320, the third quantum energy generator 330, and the fourth quantum energy generator 340; Selected and used, the first quantum energy generator 310 is
Cylindrical or rectangular parallelepiped body 301, trigger coil or solenoid coil shape or a modified shape of trigger coil or solenoid coil shape 1 quantum energy generating coil and discharge electrode 311, 2 quantum energy generating coil and ground electrode 312 , Consisting of a power supply 313 and a conducting wire, the first quantum energy generating coil and discharge electrode 311 and the second quantum energy generating coil and ground electrode 312 are spaced apart from each other and have a certain diameter and length. A plurality of discharge needles are attached, and the first quantum energy generating coil and discharge electrode 311 and the second quantum energy generating coil Magnetic fields in opposite directions are irradiated from the ground electrode 312, and magnetic fields in opposite directions are irradiated, overlapped, and annihilated at the center distance of these discharge electrodes 311 and 312. Quantum energy generator with built-in discharge function for gas, liquid, and fluid treatment In claim 9,
The second quantum energy generating unit 320 is
A first quantum composed of a cylindrical or rectangular parallelepiped body 301, a first gradient saddle coil or uniform saddle coil 302-1a, a second gradient saddle coil or uniform saddle coil 302-1b, and a power supply 328 The energy generator 328b, the first discharge electrode 302-2a installed on the first gradient saddle coil 302-1a, the second discharge electrode 302-2b installed on the second gradient saddle coil 302-1b, It is composed of a high voltage discharge unit 328c including a ground electrode 323 , a third discharge electrode 324 , and a power supply 328 .
Two partition plates (not shown) are installed inside the main body 301 at intervals, and on the installed partition plate, the first gradient saddle coil 302-1a of the first quantum energy generator protrudes at a distance from each other. The needle-shaped second discharge electrodes 302-2b are installed to face each other inside the main body 301 so as to protrude at intervals on the discharge electrodes 302-2a and 30-2b and the second gradient saddle coil 302-1b. , The first gradient saddle coil (302-1a) and the first discharge electrode (302-2a) and the second gradient saddle coil (302-1b) and the first discharge electrode (302-2b) are in a cylindrical shape at a distance from each other and in the circumferential direction A ground electrode 303 having a shape in which a discharge needle 323a with one end of a certain length is machined into a cone shape on the outer and inner circumferential surfaces of an extra place in which a plurality of rectangular holes is drilled protrudes inside and outside is installed, , A third discharge electrode 324 is installed with a plurality of discharge needles 324a having a screw shape at intervals inside the grounding electrode 303 and having one end of a certain length in a cone shape on the outer circumferential surface are spaced apart. The first and second discharge electrodes 322-2a and 322-2b, the ground electrode 323, and the third discharge electrode 324 receive pulse-type power generated from the power supply 328 installed on one side outside the main body 301. When supplied to, the first gradient saddle coil 302-1a and the first discharge electrode 302-2a and the second gradient saddle coil 302-1b and the second discharge electrode 302-2b are wound in opposite directions. ), pulsed magnetic fields in opposite directions are irradiated and pulses in opposite directions at the center distance (space in which the ground electrode 323 and the third discharge electrode 324 are installed) of these coils 302-1a and 302-1b In the state where the magnetic field of the form is superimposed and annihilated, pulsating quantum energy is generated and irradiated to the space of the center distance, and at the same time, the first gradient saddle coil 302-1a and the first discharge electrode 302-2a and the second gradient saddle coil ( 302-1b) and the second discharge electrode 302-2b, the ground electrode 323 and the third electrode 324 initiate multiple discharges and form a high electric field low energy band, and the FAN 204 in this band Bacteria and viruses in which active radicals such as singlet oxygen and hydroxyl ions generated in this process are suspended in the air when the covalent bonds of air constituents and odor-causing substances contained in air are dissociated and decomposed. Quantum energy generator with built-in discharge function for gas, liquid, and fluid treatment, characterized in that it is a quantum energy generator with a built-in discharge function to sterilize and sterilize by perforating the biofilm of
In claim 9,
The third quantum energy generating unit 330 includes a housing 301, a first quantum energy generating coil 331 in the form of a gradient coil, a second quantum energy generating coil 332 in the form of a gradient coil, and a power supply 333c. A discharging unit ( 330b), and the body 301 selects any one shape from shapes such as a cylinder type, a cube type, and a cuboid type,
The first pulsating quantum energy generator 330a insulates the outer surface of the main body 301 with an insulating material to form an insulating layer, and has a plurality of gradient coils or toroid coils whose winding directions are opposite to each other on the formed insulating layer. The first and second quantum energy generating coils 331 and 332 are installed to face each other, and the power in the form of a pulse generated from the power supply 333a installed on one side of the outside of the main body 301 is supplied through the conducting wire 333d in the opposite direction to each other. Pulsed quantum energy generated in a zero magnetic phase state by irradiating a pulsed magnetic field and superimposing and annihilating pulsed magnetic fields in opposite directions at the center distance (inside the body) of the first and second quantum energy generating coils 331 and 332 Quantum energy generating device with built-in discharge function for gas, liquid, and fluid treatment, characterized in that it irradiates the inside of the body In claim 11,
The high voltage discharge unit 330b of the third quantum energy generating unit 330 includes a first quantum energy generating coil and discharge electrode 334 , a second quantum energy generating coil and ground electrode 335 , a high voltage generator 336 , and a wire Consists of a discharge unit (330b) composed of (336f), the discharge electrode (334) and
For the manufacture of the ground electrode 335, a hole (not shown) into which the fasteners 337a and 337b are inserted at intervals on the upper and lower surfaces of a plurality of insulating plates having different heights in a rectangular shape selected from among Teflon, ceramic, and glass materials. ) and coils in a clockwise or counterclockwise direction in the shape of a gradient coil or toroid coil that is deformed with a wire selected from among tungsten (W), stainless steel (STS304), and titanium (Ti) on both surfaces. Wind the coil so that the winding directions of the coils attached to the front and back sides are opposite to each other, and discharge needles 334a and 334b having a certain length at regular intervals are attached to the exposed coil to serve as the first quantum energy generating coil and discharge. The electrode 334, the second quantum energy generating coil and the ground electrode 335 are manufactured or
Gradient coil shape or toroid coil shape deformed in a clockwise or counterclockwise direction by using a laser model-picking technique for a copper (Cu), stainless steel (STS304), titanium (Ti), silver (Ag) metal plate And a hole (not shown) into which the fixtures 337a and 337b are to be inserted, are drilled on both surfaces of a coil-shaped plate in which any one of tungsten (W), stainless steel (STS304), and titanium (Ti) is selected. The first quantum energy generating coil and discharge electrode 334 and the second quantum energy generating coil and ground electrode 335 manufactured by installing a plurality of discharge needles 334a and 334b having a certain length at a distance from each other are attached to the fixture 337a, 337b) adjacent to the discharge electrode and the ground electrode are inserted and fixed with a fixing nut so that the directions are opposite to each other. When the pulse-type power generated by the supply 336b is supplied through the conducting wire 336d to the plurality of first quantum energy generating coil/discharge electrode 334 and second quantum energy generating coil/ground electrode 335, current flows At an angle of 90 degrees to the direction, pulse-shaped magnetic fields in opposite directions are irradiated, and at the center distance of the first quantum energy generating coil/discharge electrode 334 and the second quantum energy generating coil/ground electrode 335, in opposite directions As the pulsed magnetic field overlaps and disappears, pulsating quantum energy is generated and irradiated in a zero magnetic field state, and multiple first quantum energy generating coil/discharge electrode 334, second quantum energy generating coil/ground electrode 335 Discharge starts and a high field electron energy band is formed, and the formed energy band is dissociated and decomposed by the covalent bonds of the air constituents introduced by the FAN 204 and the odor causing substances and harmful substances contained in the air, and this process Quantum energy generator with built-in discharge function for gas, liquid, and fluid treatment to sterilize and sterilize by perforating the biofilm of bacteria and viruses suspended in the air by active radicals such as singlet oxygen and hydroxyl ions generated in

In claim 9,
The fourth quantum energy generator 340 has a main body 301 composed of an outer cylinder 302 and an inner cylinder 303 .
A first quantum energy generator and heater 342c consisting of a first quantum energy generating coil/heater 341a, a power supply 341b, a second quantum energy generating coil/heater 342a, and a power supply 342b and the first quantum energy generating coil and heating element 341a, a portion 343a of the outer cylinder 302, a first cathode 343 comprising a power supply 343b, and a housing 344a installed on the outer circumferential surface of the inner cylinder 303 ), a first cathode 343 consisting of a power supply 344b, a first quantum energy generating coil and a discharge electrode 345a, a second quantum energy generating coil and a ground electrode 345b, and a power supply 345c Inner cylinder 303 consisting of a second quantum energy generator and high voltage discharge unit 345, a second spur gear 346a, a first spur gear 346b, and an electric motor 346c. Gear 347a, first spur gear 347b, outer cylinder 302 consisting of an electric motor 347c, rotating body 347, and gas, liquid, fluid processing characterized in that it is composed of an inner cylinder rotation sealing member (346d) Quantum energy generator with built-in discharge function In claim 13,
The first quantum energy generator 342c of the fourth quantum energy generator 340 includes a first quantum energy generating coil and heating body 341a and a first cathode 343 installed inside the housing attached to the outer cylinder 302 . The power supply for the second quantum energy generating coil and heating body 342a and the second cathode 344 installed in contact with the outer surface of the power supply 343b and the power supply 341b constituting the bias circuit and the inner cylinder 302 for Consists of a supply 344b and a power supply 342b constituting the bias circuit, and the winding directions of the first quantum energy generating coil/heating body 341a and the second quantum energy generating coil/heating body 342a coil are mutually The first quantum energy generating coil/heating body 341a and the second quantum energy generating coil/heating body 342a through the power supply in the opposite direction and in the form of a pulse generated by the power supply 341b and the power supply 342b through the conducting wire When supplied to , pulsed magnetic fields in opposite directions are irradiated, and pulsed magnetic fields are superimposed and extinguished at the center distance of these coils to generate and irradiate pulsating quantum energy radiation in a zero magnetic field state, resulting in tungsten (W), titanium (Ti) By heating to a high temperature that can overcome the work function value of the material, such as the first and second cathodes ( Quantum energy generating device with built-in discharge function for gas, liquid, and fluid treatment, characterized in that the first and second cathodes 343a and 344a are heated by accelerating and collided with 343a, 344a
In claim 13,
The first negative electrode 343 is composed of an outer cylinder portion 343a and a power supply 343b in which a portion of the outer cylinder 302 is insulated, and the second negative electrode 344 is installed in a circumferential direction on the outside of the inner cylinder 303 Consists of a ?-shaped housing 344a and a power supply 343b, a power supply 343b for the first cathode 343, a power supply 341b for a first quantum energy generating coil and heating element 341a, and a bias To overcome the work function value of the material by configuring the circuit, the power supply 344b for the second cathode 344, the power supply 342b for the second quantum energy generating coil and heating body 342a, and the bias circuit The hot electrons emitted from the surface of the material of the first and second quantum energy generating coils and heating elements 341a and 3422a heated to a high 2 By heating the cathodes 343 and 344 to a high temperature capable of overcoming the work function value of the material in a striking manner, hot electrons are emitted from the surfaces of the first and second cathodes 343 and 344 materials, and the high voltage discharge unit 345 first quantum energy Dissociation of covalent bonds of pollutant molecules by striking the pollutants in the air introduced by the pressurized fan 204 into the flow path formed between the generating coil and discharge electrode 345a and the second quantum energy generating coil and ground electrode 345b. Quantum energy generator with built-in discharge function for gas, liquid, and fluid treatment, characterized in that it purifies and sterilizes and sterilizes airborne bacteria and viruses In claim 13,
The high voltage discharge unit 345 of the fourth quantum energy generating unit 340 has a first quantum energy generating coil and discharge electrode 345a having a solenoid coil shape or a trigger coil shape with an insulated circumferential surface interval inside the outer cylinder 302 . This is installed, and a second quantum energy generating coil and ground electrode 345b is installed at intervals on the insulated outer circumferential surface of the ruler-shaped housing that is installed in contact with the outer circumferential surface of the inner cylinder 303, and the outer cylinder ( 302) A first quantum energy generating coil/discharge electrode 345a and a second quantum energy generating coil whose winding directions of the coil are opposite to each other through a conducting wire through the pulsed voltage generated from the power supply 345c installed on the outer side. When supplied to the double discharge electrode 345b, pulsed magnetic fields in opposite directions are irradiated, and pulsed magnetic fields in opposite directions are superimposed and extinguished, so that pulsating quantum energy generated in a zero magnetic field state is irradiated and first quantum energy is generated. Between the coil-cum-discharge electrode 345a and the second quantum energy generating coil-cum-discharge electrode 345b, an open and high electric field electron energy band is formed, and the pressure fan 204 penetrates this band. Discharge function for gas, liquid, and fluid treatment, characterized in that pollutants in the air are purified and airborne bacteria and viruses are sterilized or sterilized by electrochemical reactions such as dissociation, excitation, ionization, oxidation, and reduction reactions of high voltage discharge This built-in quantum energy generator In claim 13,
The rotator 348 of the fourth quantum energy generating unit 340 includes a first rotator 346 and a second rotator 347, and the first rotator 346 is installed on one circumferential surface outside the inner cylinder 303. A first spur gear 346a, a second spur gear 346b in which the first spur gear 346a and the gear teeth are installed to mesh, an electric motor 346c connected to the center of the second spur gear 346b and a plurality of turns The inner cylinder rotator 346e and the second rotator 347 composed of the entire sealing sphere 346d are
The inner diameter between the plurality of rotating body sealing holes 346d of the inner cylinder 303 has a larger diameter in the range of 3 to 6 mm than the outer diameter of the inner cylinder, both end surfaces are conical, the central part is cylindrical, and the outer circumferential surface A ball bearing (not shown) is installed in the inside of the outer cylinder 302 finished in the conical shape of the outer cylinder 302 having a rectangular ◎-shaped housing installed by interviewing and a first spur gear 347a is installed on the outer circumferential surface, Consists of a first spur gear (347a) and a second spur gear (347b) in which the gear teeth are meshed, an electric motor (347c) axially connected to the center of the second spur gear (347b), and a plurality of rotating body seals (346d) composed of an outer cylinder rotating body (346e) that becomes
After installing so that the rotation direction of the electric motor 346c of the inner cylinder rotor and the rotation direction of the electric motor 347c of the outer cylinder rotor are opposite to each other, when power is supplied from the control panel 600, the electric motor 346c and the electric motor 347c are The inner cylinder 303 and the outer cylinder 302 rotate in opposite directions by moving, and the first and second quantum energy generating coils and heaters 341 and 342 and the first and second installed on the inner cylinder 303 and the outer cylinder 302 The cathodes 343 and 344 and the quantum energy generating coil and discharge electrodes 345a and 345b of the high voltage discharge unit 345 rotate in opposite directions to form a turbulent flow in the air flow in the flow path formed between the discharge electrodes 345a and 345b. Increases the number of overlapping magnetic fields irradiated in opposite directions and increases the number of elastic collisions between hot electrons and contaminated air to improve the purification rate of polluted air and the sterilization or sterilization rate of airborne bacteria and viruses Quantum energy generator with built-in discharge function for gas, liquid, and fluid treatment In claim 9,
The first quantum energy generator 310 , the second quantum energy generator 320 , the third quantum energy generator 330 , and the fourth quantum energy generator 340 of the quantum energy generator 300 constitute a quantum edge generator. When pulsed power is supplied from a plurality of quantum energy generating coils (eg, first and second quantum energy generating coils), pulsed magnetic fields in opposite directions are irradiated and at the center distance between the plurality of quantum energy generating coils. Multiple high-voltage discharges are performed as pulsating quantum energy is generated and irradiated in the state of zero magnetic field as magnetic fields in the form of pulses in opposite directions overlap and disappear. Quantum energy generator with built-in discharge function for gas, liquid, and fluid treatment, characterized in that In claim 1,
The heat exchange unit 400 includes a main body 401, a first quantum energy generator 410 installed on the outer circumferential surface of the main body, and a hole (not shown) of a certain diameter in an up and down diagonal direction on one side of the main body 401 and up and down diagonally. Contaminated air inlet 404a and outlet 404b by punching in the direction A second quantum energy generator 420 installed on the circumferential surface, a baffle 403 installed at intervals on the tube 402, and a third quantum energy generator 430 installed on the front and rear surfaces of the baffle 403 Quantum energy generator with built-in discharge function for gas, liquid, and fluid treatment, characterized in that it consists of In paragraph 19,
The first quantum energy generator 410 installed on the outer circumferential surface of the main body 401 of the heat exchange unit 400 includes a first quantum energy generating coil 411, a second quantum energy generating coil 412, a power supply ( 413) and a conductor,
The second quantum energy generator 420 installed on the outer circumferential surface of the tube 402 is composed of a first quantum energy generating coil 421, a second quantum energy generating coil 422, a power supply 423 and a wire,
The third quantum energy generator 430 installed on both sides of the baffle 403 is composed of a first quantum energy generating coil 431, a second quantum energy generating coil 432, a power supply 433, and conducting wires, and The shape of the first quantum energy generating coil 411,421,431 and the second quantum energy generating coil 412,422,432 of the first, second and third quantum energy generators 410, 420, and 430 is
It is used by selecting one or more coil shapes from among solenoid coil shape or trigger coil shape, modified trigger coil shape, cusp coil shape, Helm Heltz coil shape, gradient saddle coil shape, or uniform saddle coil shape, and the material of the coil is Quantum energy generator with built-in discharge function for gas, liquid, and fluid treatment, characterized in that any one material is selected and used for tungsten (W), titanium (Ti), stainless steel (STS304), and hastaloy material

In claim 1,
Quantum energy irradiation unit 500 is
Main body 501, diffuser 502, + pole (511), diffuser and -pole (512), an electrolyzer 510 consisting of a DC power supply (513), a first quantum energy generating coil (521) , Consists of a quantum energy generator 520 consisting of a second quantum energy generating coil 522 and a power supply 523, and the treatment of gaseous materials including air, including air introduced into the body 501 In the first stage dust collector 210 of the electric dust collector 200 supplied to the gaseous material to the diffusion pipe 502 , the dust is primarily removed, and the reducing agent for nitrogen oxide (NOX) removal in the additive supply unit 100, sulfur oxide (SOX) ) After selecting and storing one or more of a scavenger, an oxygen scavenger, a hydroxyl group (OH-radical) releasing agent, and a particle coagulant, it is supplied and sprayed to the pneumatic nozzle 203b connected to the venturi ejector 203 and mixed with the dedusted air. Then, after secondary dust removal in the second stage dust collector 220, the quantum energy is irradiated or A first quantum energy generating coil 521 while purifying pollutants and sterilizing and sterilizing airborne bacteria and viruses by supplying purified and activated gas to gaseous substances including air by irradiating quantum energy and discharging reaction or releasing hot electrons; The second quantum energy generating coil 522 and the power supply 523 are irradiated with a pulsed magnetic field generated by the quantum energy generator 520 and pulsating quantum energy generated as the pulsed magnetic field is overlapped and destroyed. Quantum energy generator with built-in discharge function for gas, liquid, and fluid treatment, characterized in that it improves air purification efficiency and sterilization or sterilization rate of bacteria and airborne viruses In claim 21,
Quantum energy irradiation unit 500 is
Main body 501, diffuser 502, + pole (511), diffuser and -pole (512), an electrolyzer 510 consisting of a DC power supply (513), a first quantum energy generating coil (521) , Consists of a quantum energy generator 520 consisting of a second quantum energy generating coil 522 and a power supply 523, and the treatment of a liquid material including water is a gas including water flowing into the body 501 In the first stage dust collector 210 of the electric dust collector 200 supplied to the moront material to the air diffuser 502, the dust is first removed, and the additive supply unit 100 removes nitrogen oxide (NOX) from a reducing agent, sulfur oxide (SOX) After selecting and storing any one or more of a scavenger, an oxygen scavenger, a hydroxyl group (OH-radical) releasing agent, and a particle coagulant, it is supplied and sprayed to the air nozzle 203b connected to the neck of the venturi ejector 203 to remove the dust and the air. After mixing, and after secondary dust removal in the second stage dust collector 220, the quantum energy is irradiated by flowing into a quantum energy generator selected from among the first, second, third, and fourth (310, 320, 330, 340) of the quantum energy generator 300. Alternatively, the positive pole (511), the diffuser and the negative pole (512), the DC power supply to the liquid mixed with the active gas by supplying the purified and activated gas to a liquid material including water by irradiation of quantum energy and discharge reaction or the release of thermal electrons. By supplying the DC power in the form of a pulse generated from the DC power supply 513 of the electrolyzer 510 composed of the supply 513, the metal ions eluted from the + electrode 511 by the electrolysis reaction and the aggregation reaction in water While removing heavy metals, inorganic substances, and organic matter, the potential difference between the + pole (511) and the diffuser and the - pole (512) of 1V or more is applied to sterilize the bacteria in the water by the electroporation method, the first quantum energy generating coil (521), The second quantum energy generating coil 522 and the power supply 523 are irradiated with a pulsed magnetic field generated by the quantum energy generator 520 and pulsating quantum energy generated as the pulsed magnetic field is overlapped and destroyed. Thus, water molecules have electrostatic traction, cause interference over long distances, and hydrogen bonds between water dipoles It decreases and the order is high, and the mass of water molecules becomes smaller, causing a so-called 'microcluster' phenomenon. , Quantum energy generator with built-in discharge function for gas, liquid, and fluid treatment, characterized in that the ordered ground state is permanently preserved In claim 21,
Quantum energy irradiation unit 500 is
When air heated to a high temperature in the first quantum energy generating coil and heating coil 341a and the second quantum energy generating coil and heating coil 343a is sprayed into the water through the diffuser 502, water hammer action accompanied by a pressure wave For gas, liquid, and fluid treatment, characterized in that the biofilm of aquatic bacteria in contact with the high-temperature gas is destroyed by thermal shock and the internal organs are damaged to sterilize bacteria in water including algae and red algae (including blue-green algae) Quantum energy generator with built-in discharge function In claim 21,
The quantum energy generator 520 of the quantum energy irradiation unit 500 is composed of a first quantum energy generating coil 521, a second quantum energy generating coil 522, a power supply 523, and a wire, and a first quantum energy generating coil (521), the shape of the second quantum energy generating coil 522 is a cusp coil, a Helm-Heltz coil, a gradient saddle coil, a uniform saddle coil, a solenoid coil, a toroid coil, a Maxwell coil, and a trigger coil shape is selected and manufactured When the first quantum energy generating coil 521 and the second quantum energy generating coil 522 are supplied with the power in the form of a pulse generated by the power supply 523 through a conducting wire, the first quantum energy generating coil 521 and the second In the quantum energy generating coil 522, magnetic fields in opposite directions are generated and irradiated, and magnetic fields in opposite directions overlap and disappear at the center distance of the first quantum energy generating coil 521 and the second quantum energy generating coil 522. A quantum energy generator with a built-in discharge function for gas, liquid, and fluid treatment, characterized in that it generates and irradiates pulsating quantum energy in a zero magnetic field state.

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